Download - Pott Disease

Transcript
Page 1: Pott Disease

Pottrsquos spine

Moderator Dr peeyush sharma

Presenter Dr Pramod mahender

Pottrsquos diseasebull This entity was first described by Percivall

Pott He noted this as a painful kyphotic deformity of the spine associated with paraplegia

bull Tuberculosis of the spine is one of the oldest diseases afflicting humans Evidences of spinal tuberculosis have been found in Egyptian mummies dating back to 3400 BC

bull One fifth of TB population is in Indiabull Three percent are suffering from

skeletal TBbull 50 of these suffer from spinal lesion

and almost 50 are from pediatric group An estimated 2 million or more patients have active spinal tuberculosis

bull Every day 1000 die of tuberculosis in India

Regional Distribution 1 Cervical 12

2 cervicodorsal 5

3 Dorsal 42

4 Dorsolumbar 12

5 Lumbar 26

6 Lumbosacral 3

Pathophysiologybull Pott disease is usually secondary to an extraspinal

source of infection bull The basic lesion is a combination of osteomyelitis

and arthritis bull The area usually affected is the anterior aspect of the

vertebral body adjacent to the subchondral plate bull Tuberculosis may spread from that area to adjacent

intervertebral disks In adults disk disease is secondary to the

spread of infection from the vertebral body In children because the disk is vascularized it

can be a primary site

bull Progressive bone destruction leads to vertebral collapse and kyphosis The spinal canal can be narrowed by abscesses granulation tissue or direct dural invasion This leads to spinal cord compression and neurologic deficits

bull Kyphotic deformity occurs as a consequence of collapse in the anterior spine Lesions in the thoracic spine have a greater tendency for kyphosis than those in the lumbar spine

bull The collapse is minimal in cervical spine because most of the body weight is borne through the articular processes

bull Healing takes place by gradual fibrosis and calcification of the granulmatous tuberculous tissue Eventually the fibrous tissue is ossified with resulting bony ankylosis of the collapsed vertebrae

bull Paravertebral abscess formation occurs in almost every case With collapse of the vertebral body tuberculous granulation tissue caseous matter and necrotic bone and bone marrow are extruded through the bony cortex and accumulate beneath the anterior longitudinal ligament

bull These cold abscesses gravitate along the fascial planes and present externally at some distance from the site of the original lesion

bull In the lumbar region the abscess gravitates along the psoas fascial sheath and usually points into the groin just below the inguinal ligament

bull In the thoracic region the longitudinal ligaments limit the abscess which is seen in the radiogram as a fusiform radiopaque shadow at or just below the level of the involved vertebra

bull Thoracic abscess may reach the anterior chest wall in the parasternal area by tracking via the intercostal vessels

The lesion could bebull Florid - invasive and destructive lesion bull Non destructive - lesion suspected clinically but

identifiable by modern investigations like CT scan or MRI

bull Encysted disease bull Carries sicca bull Hypertrophied bull Periosteal lesion

bull Recently two distinct patterns of spinal TB can be identified the classic form called spondylodiscitis (SPD) a

bull atypical form characterized by spondylitis without disk involvement (SPwD)

bull SPwD seems to be the most common pattern of spinal TB

Anatomically the lesion could be 1 Paradiscal - destruction of

adjacent end plates and diminution of disc space

2 Appendeceal (Posterior) - involvement of pedicles laminae spinous process

3 Central - Cystic or lytic concertina collapse

4 Anterior ndashlongitudinal lig Aneurysmal phenomenon

5 Synovitis in post facet

History

bull Presentation depends on the following ndash Stage of disease ndash Site ndash Presence of complications such as neurologic deficits

abscesses or sinus tractsbull The reported average duration of symptoms at the time

of diagnosis is 3-4 months bull Back pain is the earliest and most common symptom

ndash Patients have usually had back pain for weeks prior to presentation

ndash Pain can be spinal or radicularbull Constitutional symptoms include fever and weight loss

bull Neurologic abnormalities occur in 50 of cases and can include spinal cord compression with paraplegia paresis impaired sensation nerve root pain or cauda equina syndrome

bull Cervical spine tuberculosis is a less common presentation is characterized by pain and stiffness

Patients with lower cervical spine disease can present with dysphagia or stridor

Symptoms can also include torticollis hoarseness and neurologic deficits

bull The clinical presentation of spinal tuberculosis in patients infected with the human immunodeficiency virus (HIV) is similar to that of patients who are HIV negative however the relative proportion of individuals who are HIV positive seems to be higher

Natural course of disease

bull 53 died within 10 yrs of onsetbull Early stage of healingndash focus surrounded by

sclerotic bone Ivory vertebrabull Early radiological sign of healingndash sharpening of

fuzzy paradiscal margins amp reappearance and minrralization of tuberculae

bull Several vertebrae destroyedndash fibrous tissuebull Disc space destroyed bony ankylosisbone

block formation

Lab Studiesbull Tuberculin skin test (purified protein derivative

[PPD]) demonstrates a positive finding in 84-95 of patients who are nonndashHIV-positive

bull Erythrocyte sedimentation rate (ESR) may be markedly elevated

bull The enzyme-linked immunosorbent assay (ELISA) has a reported sensitivity of 60 to 80 per cent

bull The polymerase chain reaction bull A brucella complement fixation test

bull IFN- Release Assays (IGRAs)bull Recently two in vitro assays that measure T

cell release of IFN- in response to stimulation with the highly tuberculosis-specific antigens ESAT-6 and CFP-10 have become commercially available

bull Microbiology studies to confirm diagnosis Obtain bone tissue or abscess samples to stain for acid-fast bacilli (AFB) and isolate organisms for culture and susceptibility CT-guided procedures can be used to guide percutaneous sampling of affected bone or soft tissue structures These study findings may be positive in only about 50 of the cases

X Ray appearances

bull Lytic destruction of anterior portion of vertebral body bull Increased anterior wedging bull Collapse of vertebral body bull Reactive sclerosis on a progressive lytic process bull Enlarged psoas shadow with or without calcificationbull Vertebral end plates are osteoporotic bull Intervertebral disks may be shrunk or destroyed bull Vertebral bodies show variable degrees of destruction bull Fusiform paravertebral shadows suggest abscess

formation bull Bone lesions may occur at more than one level

X Ray appearances

Discovertebral lesions detected in 93 of patients bull Localized fluffy osseous destruction with surrounding

osteoporosis is the earliest signs bull concentric collapse and may look like AVN bull Local lytic lesion may cause problem of diagnosis from

neoplasic lesion bull destruction of adjacent vertebrae Konstram (K) angle

appears and shows the progress on follow up bull Skipped lesion (10 cases) can be diagnosed on

suspicion and in correct size film

X-ray of the thoracolumbar spine (Lateral view) showing wedge collapse of L1 and L2 vertebral bodies

X-ray of the spine in a child showing complete destruction of D12 and L1 vertebral bodies leaving

only the pedicles

Kumarrsquos clinico-radiological Classification

stage features Usual duration

I Pre-destructive

Straightening spasm hyperemia in scinti

lt3 mo

II Early-destructive

Diminished space paradiscal erosion Knuckle lt10

2-4 mo

III Mild kyphos 2-3 verte k10-30 3-9 mo

IV Moderate kyphos

gt3 verte K30-60 6-24 mo

V Severe kyphos

gt3 verte Kgt60 gt2 years

CT scanning

bull CT scanning provides much better bony detail of irregular lytic lesions sclerosis disk collapse and disruption of bone circumference

bull Low-contrast resolution provides a better assessment of soft tissue particularly in epidural and paraspinal areas

bull It detects early lesions and is more effective for defining the shape and calcification of soft tissue abscesses

bull In contrast to pyogenic disease calcification is common in tuberculous lesions

MRI bull MRI is the criterion standard for evaluating disk

space infection and osteomyelitis of the spine bull MRI findings useful to differentiate tuberculous

spondylitis from pyogenic spondylitis include thin and smooth enhancement of the abscess wall and well-defined paraspinal abnormal signal

whereas thick and irregular enhancement of abscess wall and ill-defined paraspinal abnormal signal are suggestive of pyogenic spondylitis

bull contrast-enhanced MRI appears to be important in the differentiation of these two types of spondylitis

bull most effective for demonstrating neural compression

Myelographybull Spinal tumor syndromebull Multiple vertebral lesionsbull Patients not recovered after

decompression 1 Block present second decompression2 Block not present intrinsic damage

1Ischemic infarction 2Interstitial gliosis

3atrophy 4 tuberculous myelitis

5Myelomalacia

Differentials 1 Pyogenic infections2 Typhoid spine3 Brucella Spondylitis4 Mycotic Spondylitis5 Syphilitic6 Tumorous condition7 Primary malignant tumor 8 Multiple Myeloma9 Lymphomas10Secondary11Histocytosis-X12Spinal Osteochondrosis13Spondylolisthesis14Hydatid disease

Complications of tuberculosis

1 Paraplegia 2 Cold abscess3 Sinuses4 Secondary infection5 Amyloid disease6 Fatality

Tb spine with PARAPLEGIA

bull INCIDENCE 10-30bull Dorsal spine (MC)bull Motor functions affected before greater

than sensorybull Sense of position amp vibration last to

disappear

Patho of Tuberculoses Paraplegia1 Inflammatory Edema ndashvascular stasistoxin2 Extradural Mass ndash Tuberculous ostetis+

abscess3 Bony Disorder ndash Sequestra Internal Gibbus4 Meningeal changes ndash lsquodura as rule not

involvedrsquoExtradural grnulation --

contract cicatrization peridural fibrosis paraplegia

5 Infarction of spinal cord- Ant spinal artery

EndarteritisPeriarteritisThrombosis6 Changes in Spinal cord-

MyelomalacicSyringomyelic changeAtrophy ndashupto 50dec in dia-good functions

Seddonrsquos Classificationbull

GROUP A_-Early onset - This comes up in active stage of the disease within first 2 years

Compressive Agents are inflammatory edema granulation abscess casseous material sequestra and rarely ischaemic lesion

GROUP B -Late onset- Usually after 2 years of onset of the disease ndash due to recurrence or by mechanical pressure This can be better divided into

paraplegia with active disease and with healed disease

Active disease - Caseous material debris sequestrated disc or bone internal gibbus stenosis and deformity can cause compression

Healed disease - Usually internal gibbus and acute kyphotic deformity can also give late onset paraplegia Usually there is a continuous traction compression leading to paraplegia

Kumarrsquos classification oftuberculous paraplegia

stage Clinical features1 Negligible Unaware of neural deficit

Plantar extensor Ankle clonus2 Mild Walk with support

3 Moderate NonambulatoryParalysis in extentionsensory loss lt50

4 Severe 3+ paralysis in flexionsensory lossgt50 Sphinters involved

Evolution of treatment Pre-antitubercular erabull Artificial abscess- Pott in 1779bull Laminectomy amp laminotomy

chipault(1896 )bull Costo-transversectomy Menard in 1896bull Posterior mediastinotomybull Calves operation 1917bull Lateral rhachiotomy of carpener 1933bull Anterlateral decompression of Dottamp

Alexander1947

BASIC PRINCIPLES OFMANAGEMENT

10487291048729bull 10487291048729 Early diagnosisbull 10487291048729 Expeditious medical treatmentbull 10487291048729 Aggressive surgical approachbull 10487291048729 Prevent deformitybull 10487291048729 Expect good outcome

bull Studies performed by the British Medical Research Council indicate that tuberculous spondylitis of the thoracolumbar spine should be treated with combination chemotherapy for 6-9 months According to a 1994 recommendation by the US Centers for Disease Control and Prevention this is the treatment of choice

What is Middle path regimebull Admission rest in bed bull Chemotherapy bull X-ray amp ESR once in 3 monthsbull MRI CT at 6 months interval for 2 yearsbull Craniovertebral cervicodorsal lumbosacralamp

sacroiliac jointsbull Gradual mobilizationbull 3-9 weeks- back extention exercise 5-10 min 3-4

timesbull Spinal brace--- 18 months-2 years

bull Abcesses ndash aspirate near surface bull Instille 1gm Streptomycin +- INH in solbull Sinus heals 6-12 weeksbull Neural complications if responds 3-4 weeks -

surgery unnecssarybull Excisional surgery for posterior spinal diseasebull Operative debridement for patients ndashif no arrest

after 3-6 months- spinal arthrodesis (recommended)

bull Post op--Spinal brace--- 18 months-2 years

Drugs in middle path

phase duration drug

Intensive 5-6 months

INH 300-400mg

Rifampicin ofloxacin400-600mg streptomycin

Continuation

7-8 months

-do 3-4mth Pyrazinamide 1500mg4-5mth Rifampicin

Prophylactic

4-5 months

-do Ethambutol 1200mg

Surgical indications1 No sign of Neurological recovery after trial of 3-4

weeks therapy2 Neurological complication during treatment3 Neuro deficit becoming worse4 Recurrence of neuro complication5 Prevertebral cervical abscessesneurological

signsamp difficulty in deglutitionamp respiration6 Advanced cases- Sphincter involvement

flaccid paralysisSevere flexor spasms

Other indicationsbull Recurrent paraplegiabull Painful paraplegiandash dt root compressionetcbull Posterior spinal disease--involving the post

elements of vertbbull Spinal tumor syndrome resulting in cord

compressionbull Rapid onset paraplegia due to thrombosistrauma

etcbull Severe paraplegiabull Secondary to cervical disease and bull cauda equina paralysis

1 Decompression +- fusion

Failed responseToo advanced

2 Debridement+- fusion

Failed response after 3-6 monthsDoubtful diagnosisInstability

3 Debridement +-DECOMP+- fusion

Recrudescence of disease

4 Debridement+- fusion

Prevent severe Kyphosis

5 Anterior transpostion

Severe Kyphosis +neural deficit

6 Laminectomy STSsecondary stenosis posterior disease

APPROACH1 Cervical spine ndash Anterior retropharyngeal

(smith-Robinsonrsquos) Anterior approach ndash AnteriorMedial

border of sternocleidomastoid2 Dorsal spine (D1 to L1) ndash

1 Transthoraccic transpleural 2 Anterolateral decompression(D2 ndash

L1)3 Lumbar spine ndash Anterolateral(Lumbovertebrotomy) Extraperitoneal Ant approach

Tulirsquos recommended approch

bull Cervical spine ndashT1 Anterior approchbull Dorsal spine ndashDL junction Antrolateral

approchbull Lumbar spine ampLumboscral junction

Extraperitoneal Transverse Vertebrotomy

Surgical technique

bull Costotransversectomyndash in tense paravertebral abscess

removendash transverse process rib ndash 2 inchs

Anterolateral decompressionbull Posterior part of ribbull Transverse processbull Pediclebull Part of the vertebral bodybull Griffith Seddon Roaf -- prone position

bull Tuli --- right lateral positionbull Advantage- 1 avoid venous congestion 2 avoid excessive bleeding 3 permits freer respiration 4 better look at site

Posterior Spinal Arthrodesisbull Byndash Albee amp Hibbsbull Albeendash tibial graft inserted longitudinally in to

the split spinous vertebral processbull Hibbsndash overlapping numerous small osseous flap

from contiguous laminae spinous process amp articular facets

bull Indicationsndash 1 mechanical instability 2 to stabilise craniovertebral region 3 as part of panvertebral operation

DYNAMIC CAGE GovenderampPrabhoo

SYNTHES PLATE WITHSAPCER

Yilmaz C Selek HY et al Anterior instrumentation for the Treatment of Spinal Tuberculosis J Bone and

Joint Surg 1999 81-A 1261-67

bull ldquowe feel that every attempt should be made to minimize this deformity with some form of instrumentation wherever indicated and preferably anteriorlyrsquordquo

Thank youThank you

  • Pottrsquos spine
  • Pottrsquos disease
  • Slide 3
  • Regional Distribution
  • Pathophysiology
  • Slide 6
  • Slide 7
  • Slide 8
  • Slide 9
  • Anatomically the lesion could be
  • History
  • Slide 12
  • Slide 13
  • Natural course of disease
  • Lab Studies
  • Slide 16
  • Slide 17
  • X Ray appearances
  • Slide 19
  • Slide 20
  • X-ray of the thoracolumbar spine (Lateral view) showing wedge collapse of L1 and L2 vertebral bodies
  • X-ray of the spine in a child showing complete destruction of D12 and L1 vertebral bodies leaving only the pedicles
  • Kumarrsquos clinico-radiological Classification
  • CT scanning
  • MRI
  • Slide 26
  • Myelography
  • Slide 28
  • Differentials
  • Complications of tuberculosis
  • Tb spine with PARAPLEGIA
  • Patho of Tuberculoses Paraplegia
  • Slide 33
  • Seddonrsquos Classification
  • Kumarrsquos classification of tuberculous paraplegia
  • Evolution of treatment
  • BASIC PRINCIPLES OF MANAGEMENT 10487291048729
  • Slide 38
  • What is Middle path regime
  • Slide 40
  • Drugs in middle path
  • Slide 43
  • Surgical indications
  • Other indications
  • Slide 46
  • APPROACH
  • Tulirsquos recommended approch
  • Surgical technique
  • Anterolateral decompression
  • Posterior Spinal Arthrodesis
  • DYNAMIC CAGE GovenderampPrabhoo
  • SYNTHES PLATE WITH SAPCER
  • Yilmaz C Selek HY et al Anterior instrumentation for the Treatment of Spinal Tuberculosis J Bone and Joint Surg 1999 81-A 1261-67
Page 2: Pott Disease

Pottrsquos diseasebull This entity was first described by Percivall

Pott He noted this as a painful kyphotic deformity of the spine associated with paraplegia

bull Tuberculosis of the spine is one of the oldest diseases afflicting humans Evidences of spinal tuberculosis have been found in Egyptian mummies dating back to 3400 BC

bull One fifth of TB population is in Indiabull Three percent are suffering from

skeletal TBbull 50 of these suffer from spinal lesion

and almost 50 are from pediatric group An estimated 2 million or more patients have active spinal tuberculosis

bull Every day 1000 die of tuberculosis in India

Regional Distribution 1 Cervical 12

2 cervicodorsal 5

3 Dorsal 42

4 Dorsolumbar 12

5 Lumbar 26

6 Lumbosacral 3

Pathophysiologybull Pott disease is usually secondary to an extraspinal

source of infection bull The basic lesion is a combination of osteomyelitis

and arthritis bull The area usually affected is the anterior aspect of the

vertebral body adjacent to the subchondral plate bull Tuberculosis may spread from that area to adjacent

intervertebral disks In adults disk disease is secondary to the

spread of infection from the vertebral body In children because the disk is vascularized it

can be a primary site

bull Progressive bone destruction leads to vertebral collapse and kyphosis The spinal canal can be narrowed by abscesses granulation tissue or direct dural invasion This leads to spinal cord compression and neurologic deficits

bull Kyphotic deformity occurs as a consequence of collapse in the anterior spine Lesions in the thoracic spine have a greater tendency for kyphosis than those in the lumbar spine

bull The collapse is minimal in cervical spine because most of the body weight is borne through the articular processes

bull Healing takes place by gradual fibrosis and calcification of the granulmatous tuberculous tissue Eventually the fibrous tissue is ossified with resulting bony ankylosis of the collapsed vertebrae

bull Paravertebral abscess formation occurs in almost every case With collapse of the vertebral body tuberculous granulation tissue caseous matter and necrotic bone and bone marrow are extruded through the bony cortex and accumulate beneath the anterior longitudinal ligament

bull These cold abscesses gravitate along the fascial planes and present externally at some distance from the site of the original lesion

bull In the lumbar region the abscess gravitates along the psoas fascial sheath and usually points into the groin just below the inguinal ligament

bull In the thoracic region the longitudinal ligaments limit the abscess which is seen in the radiogram as a fusiform radiopaque shadow at or just below the level of the involved vertebra

bull Thoracic abscess may reach the anterior chest wall in the parasternal area by tracking via the intercostal vessels

The lesion could bebull Florid - invasive and destructive lesion bull Non destructive - lesion suspected clinically but

identifiable by modern investigations like CT scan or MRI

bull Encysted disease bull Carries sicca bull Hypertrophied bull Periosteal lesion

bull Recently two distinct patterns of spinal TB can be identified the classic form called spondylodiscitis (SPD) a

bull atypical form characterized by spondylitis without disk involvement (SPwD)

bull SPwD seems to be the most common pattern of spinal TB

Anatomically the lesion could be 1 Paradiscal - destruction of

adjacent end plates and diminution of disc space

2 Appendeceal (Posterior) - involvement of pedicles laminae spinous process

3 Central - Cystic or lytic concertina collapse

4 Anterior ndashlongitudinal lig Aneurysmal phenomenon

5 Synovitis in post facet

History

bull Presentation depends on the following ndash Stage of disease ndash Site ndash Presence of complications such as neurologic deficits

abscesses or sinus tractsbull The reported average duration of symptoms at the time

of diagnosis is 3-4 months bull Back pain is the earliest and most common symptom

ndash Patients have usually had back pain for weeks prior to presentation

ndash Pain can be spinal or radicularbull Constitutional symptoms include fever and weight loss

bull Neurologic abnormalities occur in 50 of cases and can include spinal cord compression with paraplegia paresis impaired sensation nerve root pain or cauda equina syndrome

bull Cervical spine tuberculosis is a less common presentation is characterized by pain and stiffness

Patients with lower cervical spine disease can present with dysphagia or stridor

Symptoms can also include torticollis hoarseness and neurologic deficits

bull The clinical presentation of spinal tuberculosis in patients infected with the human immunodeficiency virus (HIV) is similar to that of patients who are HIV negative however the relative proportion of individuals who are HIV positive seems to be higher

Natural course of disease

bull 53 died within 10 yrs of onsetbull Early stage of healingndash focus surrounded by

sclerotic bone Ivory vertebrabull Early radiological sign of healingndash sharpening of

fuzzy paradiscal margins amp reappearance and minrralization of tuberculae

bull Several vertebrae destroyedndash fibrous tissuebull Disc space destroyed bony ankylosisbone

block formation

Lab Studiesbull Tuberculin skin test (purified protein derivative

[PPD]) demonstrates a positive finding in 84-95 of patients who are nonndashHIV-positive

bull Erythrocyte sedimentation rate (ESR) may be markedly elevated

bull The enzyme-linked immunosorbent assay (ELISA) has a reported sensitivity of 60 to 80 per cent

bull The polymerase chain reaction bull A brucella complement fixation test

bull IFN- Release Assays (IGRAs)bull Recently two in vitro assays that measure T

cell release of IFN- in response to stimulation with the highly tuberculosis-specific antigens ESAT-6 and CFP-10 have become commercially available

bull Microbiology studies to confirm diagnosis Obtain bone tissue or abscess samples to stain for acid-fast bacilli (AFB) and isolate organisms for culture and susceptibility CT-guided procedures can be used to guide percutaneous sampling of affected bone or soft tissue structures These study findings may be positive in only about 50 of the cases

X Ray appearances

bull Lytic destruction of anterior portion of vertebral body bull Increased anterior wedging bull Collapse of vertebral body bull Reactive sclerosis on a progressive lytic process bull Enlarged psoas shadow with or without calcificationbull Vertebral end plates are osteoporotic bull Intervertebral disks may be shrunk or destroyed bull Vertebral bodies show variable degrees of destruction bull Fusiform paravertebral shadows suggest abscess

formation bull Bone lesions may occur at more than one level

X Ray appearances

Discovertebral lesions detected in 93 of patients bull Localized fluffy osseous destruction with surrounding

osteoporosis is the earliest signs bull concentric collapse and may look like AVN bull Local lytic lesion may cause problem of diagnosis from

neoplasic lesion bull destruction of adjacent vertebrae Konstram (K) angle

appears and shows the progress on follow up bull Skipped lesion (10 cases) can be diagnosed on

suspicion and in correct size film

X-ray of the thoracolumbar spine (Lateral view) showing wedge collapse of L1 and L2 vertebral bodies

X-ray of the spine in a child showing complete destruction of D12 and L1 vertebral bodies leaving

only the pedicles

Kumarrsquos clinico-radiological Classification

stage features Usual duration

I Pre-destructive

Straightening spasm hyperemia in scinti

lt3 mo

II Early-destructive

Diminished space paradiscal erosion Knuckle lt10

2-4 mo

III Mild kyphos 2-3 verte k10-30 3-9 mo

IV Moderate kyphos

gt3 verte K30-60 6-24 mo

V Severe kyphos

gt3 verte Kgt60 gt2 years

CT scanning

bull CT scanning provides much better bony detail of irregular lytic lesions sclerosis disk collapse and disruption of bone circumference

bull Low-contrast resolution provides a better assessment of soft tissue particularly in epidural and paraspinal areas

bull It detects early lesions and is more effective for defining the shape and calcification of soft tissue abscesses

bull In contrast to pyogenic disease calcification is common in tuberculous lesions

MRI bull MRI is the criterion standard for evaluating disk

space infection and osteomyelitis of the spine bull MRI findings useful to differentiate tuberculous

spondylitis from pyogenic spondylitis include thin and smooth enhancement of the abscess wall and well-defined paraspinal abnormal signal

whereas thick and irregular enhancement of abscess wall and ill-defined paraspinal abnormal signal are suggestive of pyogenic spondylitis

bull contrast-enhanced MRI appears to be important in the differentiation of these two types of spondylitis

bull most effective for demonstrating neural compression

Myelographybull Spinal tumor syndromebull Multiple vertebral lesionsbull Patients not recovered after

decompression 1 Block present second decompression2 Block not present intrinsic damage

1Ischemic infarction 2Interstitial gliosis

3atrophy 4 tuberculous myelitis

5Myelomalacia

Differentials 1 Pyogenic infections2 Typhoid spine3 Brucella Spondylitis4 Mycotic Spondylitis5 Syphilitic6 Tumorous condition7 Primary malignant tumor 8 Multiple Myeloma9 Lymphomas10Secondary11Histocytosis-X12Spinal Osteochondrosis13Spondylolisthesis14Hydatid disease

Complications of tuberculosis

1 Paraplegia 2 Cold abscess3 Sinuses4 Secondary infection5 Amyloid disease6 Fatality

Tb spine with PARAPLEGIA

bull INCIDENCE 10-30bull Dorsal spine (MC)bull Motor functions affected before greater

than sensorybull Sense of position amp vibration last to

disappear

Patho of Tuberculoses Paraplegia1 Inflammatory Edema ndashvascular stasistoxin2 Extradural Mass ndash Tuberculous ostetis+

abscess3 Bony Disorder ndash Sequestra Internal Gibbus4 Meningeal changes ndash lsquodura as rule not

involvedrsquoExtradural grnulation --

contract cicatrization peridural fibrosis paraplegia

5 Infarction of spinal cord- Ant spinal artery

EndarteritisPeriarteritisThrombosis6 Changes in Spinal cord-

MyelomalacicSyringomyelic changeAtrophy ndashupto 50dec in dia-good functions

Seddonrsquos Classificationbull

GROUP A_-Early onset - This comes up in active stage of the disease within first 2 years

Compressive Agents are inflammatory edema granulation abscess casseous material sequestra and rarely ischaemic lesion

GROUP B -Late onset- Usually after 2 years of onset of the disease ndash due to recurrence or by mechanical pressure This can be better divided into

paraplegia with active disease and with healed disease

Active disease - Caseous material debris sequestrated disc or bone internal gibbus stenosis and deformity can cause compression

Healed disease - Usually internal gibbus and acute kyphotic deformity can also give late onset paraplegia Usually there is a continuous traction compression leading to paraplegia

Kumarrsquos classification oftuberculous paraplegia

stage Clinical features1 Negligible Unaware of neural deficit

Plantar extensor Ankle clonus2 Mild Walk with support

3 Moderate NonambulatoryParalysis in extentionsensory loss lt50

4 Severe 3+ paralysis in flexionsensory lossgt50 Sphinters involved

Evolution of treatment Pre-antitubercular erabull Artificial abscess- Pott in 1779bull Laminectomy amp laminotomy

chipault(1896 )bull Costo-transversectomy Menard in 1896bull Posterior mediastinotomybull Calves operation 1917bull Lateral rhachiotomy of carpener 1933bull Anterlateral decompression of Dottamp

Alexander1947

BASIC PRINCIPLES OFMANAGEMENT

10487291048729bull 10487291048729 Early diagnosisbull 10487291048729 Expeditious medical treatmentbull 10487291048729 Aggressive surgical approachbull 10487291048729 Prevent deformitybull 10487291048729 Expect good outcome

bull Studies performed by the British Medical Research Council indicate that tuberculous spondylitis of the thoracolumbar spine should be treated with combination chemotherapy for 6-9 months According to a 1994 recommendation by the US Centers for Disease Control and Prevention this is the treatment of choice

What is Middle path regimebull Admission rest in bed bull Chemotherapy bull X-ray amp ESR once in 3 monthsbull MRI CT at 6 months interval for 2 yearsbull Craniovertebral cervicodorsal lumbosacralamp

sacroiliac jointsbull Gradual mobilizationbull 3-9 weeks- back extention exercise 5-10 min 3-4

timesbull Spinal brace--- 18 months-2 years

bull Abcesses ndash aspirate near surface bull Instille 1gm Streptomycin +- INH in solbull Sinus heals 6-12 weeksbull Neural complications if responds 3-4 weeks -

surgery unnecssarybull Excisional surgery for posterior spinal diseasebull Operative debridement for patients ndashif no arrest

after 3-6 months- spinal arthrodesis (recommended)

bull Post op--Spinal brace--- 18 months-2 years

Drugs in middle path

phase duration drug

Intensive 5-6 months

INH 300-400mg

Rifampicin ofloxacin400-600mg streptomycin

Continuation

7-8 months

-do 3-4mth Pyrazinamide 1500mg4-5mth Rifampicin

Prophylactic

4-5 months

-do Ethambutol 1200mg

Surgical indications1 No sign of Neurological recovery after trial of 3-4

weeks therapy2 Neurological complication during treatment3 Neuro deficit becoming worse4 Recurrence of neuro complication5 Prevertebral cervical abscessesneurological

signsamp difficulty in deglutitionamp respiration6 Advanced cases- Sphincter involvement

flaccid paralysisSevere flexor spasms

Other indicationsbull Recurrent paraplegiabull Painful paraplegiandash dt root compressionetcbull Posterior spinal disease--involving the post

elements of vertbbull Spinal tumor syndrome resulting in cord

compressionbull Rapid onset paraplegia due to thrombosistrauma

etcbull Severe paraplegiabull Secondary to cervical disease and bull cauda equina paralysis

1 Decompression +- fusion

Failed responseToo advanced

2 Debridement+- fusion

Failed response after 3-6 monthsDoubtful diagnosisInstability

3 Debridement +-DECOMP+- fusion

Recrudescence of disease

4 Debridement+- fusion

Prevent severe Kyphosis

5 Anterior transpostion

Severe Kyphosis +neural deficit

6 Laminectomy STSsecondary stenosis posterior disease

APPROACH1 Cervical spine ndash Anterior retropharyngeal

(smith-Robinsonrsquos) Anterior approach ndash AnteriorMedial

border of sternocleidomastoid2 Dorsal spine (D1 to L1) ndash

1 Transthoraccic transpleural 2 Anterolateral decompression(D2 ndash

L1)3 Lumbar spine ndash Anterolateral(Lumbovertebrotomy) Extraperitoneal Ant approach

Tulirsquos recommended approch

bull Cervical spine ndashT1 Anterior approchbull Dorsal spine ndashDL junction Antrolateral

approchbull Lumbar spine ampLumboscral junction

Extraperitoneal Transverse Vertebrotomy

Surgical technique

bull Costotransversectomyndash in tense paravertebral abscess

removendash transverse process rib ndash 2 inchs

Anterolateral decompressionbull Posterior part of ribbull Transverse processbull Pediclebull Part of the vertebral bodybull Griffith Seddon Roaf -- prone position

bull Tuli --- right lateral positionbull Advantage- 1 avoid venous congestion 2 avoid excessive bleeding 3 permits freer respiration 4 better look at site

Posterior Spinal Arthrodesisbull Byndash Albee amp Hibbsbull Albeendash tibial graft inserted longitudinally in to

the split spinous vertebral processbull Hibbsndash overlapping numerous small osseous flap

from contiguous laminae spinous process amp articular facets

bull Indicationsndash 1 mechanical instability 2 to stabilise craniovertebral region 3 as part of panvertebral operation

DYNAMIC CAGE GovenderampPrabhoo

SYNTHES PLATE WITHSAPCER

Yilmaz C Selek HY et al Anterior instrumentation for the Treatment of Spinal Tuberculosis J Bone and

Joint Surg 1999 81-A 1261-67

bull ldquowe feel that every attempt should be made to minimize this deformity with some form of instrumentation wherever indicated and preferably anteriorlyrsquordquo

Thank youThank you

  • Pottrsquos spine
  • Pottrsquos disease
  • Slide 3
  • Regional Distribution
  • Pathophysiology
  • Slide 6
  • Slide 7
  • Slide 8
  • Slide 9
  • Anatomically the lesion could be
  • History
  • Slide 12
  • Slide 13
  • Natural course of disease
  • Lab Studies
  • Slide 16
  • Slide 17
  • X Ray appearances
  • Slide 19
  • Slide 20
  • X-ray of the thoracolumbar spine (Lateral view) showing wedge collapse of L1 and L2 vertebral bodies
  • X-ray of the spine in a child showing complete destruction of D12 and L1 vertebral bodies leaving only the pedicles
  • Kumarrsquos clinico-radiological Classification
  • CT scanning
  • MRI
  • Slide 26
  • Myelography
  • Slide 28
  • Differentials
  • Complications of tuberculosis
  • Tb spine with PARAPLEGIA
  • Patho of Tuberculoses Paraplegia
  • Slide 33
  • Seddonrsquos Classification
  • Kumarrsquos classification of tuberculous paraplegia
  • Evolution of treatment
  • BASIC PRINCIPLES OF MANAGEMENT 10487291048729
  • Slide 38
  • What is Middle path regime
  • Slide 40
  • Drugs in middle path
  • Slide 43
  • Surgical indications
  • Other indications
  • Slide 46
  • APPROACH
  • Tulirsquos recommended approch
  • Surgical technique
  • Anterolateral decompression
  • Posterior Spinal Arthrodesis
  • DYNAMIC CAGE GovenderampPrabhoo
  • SYNTHES PLATE WITH SAPCER
  • Yilmaz C Selek HY et al Anterior instrumentation for the Treatment of Spinal Tuberculosis J Bone and Joint Surg 1999 81-A 1261-67
Page 3: Pott Disease

bull One fifth of TB population is in Indiabull Three percent are suffering from

skeletal TBbull 50 of these suffer from spinal lesion

and almost 50 are from pediatric group An estimated 2 million or more patients have active spinal tuberculosis

bull Every day 1000 die of tuberculosis in India

Regional Distribution 1 Cervical 12

2 cervicodorsal 5

3 Dorsal 42

4 Dorsolumbar 12

5 Lumbar 26

6 Lumbosacral 3

Pathophysiologybull Pott disease is usually secondary to an extraspinal

source of infection bull The basic lesion is a combination of osteomyelitis

and arthritis bull The area usually affected is the anterior aspect of the

vertebral body adjacent to the subchondral plate bull Tuberculosis may spread from that area to adjacent

intervertebral disks In adults disk disease is secondary to the

spread of infection from the vertebral body In children because the disk is vascularized it

can be a primary site

bull Progressive bone destruction leads to vertebral collapse and kyphosis The spinal canal can be narrowed by abscesses granulation tissue or direct dural invasion This leads to spinal cord compression and neurologic deficits

bull Kyphotic deformity occurs as a consequence of collapse in the anterior spine Lesions in the thoracic spine have a greater tendency for kyphosis than those in the lumbar spine

bull The collapse is minimal in cervical spine because most of the body weight is borne through the articular processes

bull Healing takes place by gradual fibrosis and calcification of the granulmatous tuberculous tissue Eventually the fibrous tissue is ossified with resulting bony ankylosis of the collapsed vertebrae

bull Paravertebral abscess formation occurs in almost every case With collapse of the vertebral body tuberculous granulation tissue caseous matter and necrotic bone and bone marrow are extruded through the bony cortex and accumulate beneath the anterior longitudinal ligament

bull These cold abscesses gravitate along the fascial planes and present externally at some distance from the site of the original lesion

bull In the lumbar region the abscess gravitates along the psoas fascial sheath and usually points into the groin just below the inguinal ligament

bull In the thoracic region the longitudinal ligaments limit the abscess which is seen in the radiogram as a fusiform radiopaque shadow at or just below the level of the involved vertebra

bull Thoracic abscess may reach the anterior chest wall in the parasternal area by tracking via the intercostal vessels

The lesion could bebull Florid - invasive and destructive lesion bull Non destructive - lesion suspected clinically but

identifiable by modern investigations like CT scan or MRI

bull Encysted disease bull Carries sicca bull Hypertrophied bull Periosteal lesion

bull Recently two distinct patterns of spinal TB can be identified the classic form called spondylodiscitis (SPD) a

bull atypical form characterized by spondylitis without disk involvement (SPwD)

bull SPwD seems to be the most common pattern of spinal TB

Anatomically the lesion could be 1 Paradiscal - destruction of

adjacent end plates and diminution of disc space

2 Appendeceal (Posterior) - involvement of pedicles laminae spinous process

3 Central - Cystic or lytic concertina collapse

4 Anterior ndashlongitudinal lig Aneurysmal phenomenon

5 Synovitis in post facet

History

bull Presentation depends on the following ndash Stage of disease ndash Site ndash Presence of complications such as neurologic deficits

abscesses or sinus tractsbull The reported average duration of symptoms at the time

of diagnosis is 3-4 months bull Back pain is the earliest and most common symptom

ndash Patients have usually had back pain for weeks prior to presentation

ndash Pain can be spinal or radicularbull Constitutional symptoms include fever and weight loss

bull Neurologic abnormalities occur in 50 of cases and can include spinal cord compression with paraplegia paresis impaired sensation nerve root pain or cauda equina syndrome

bull Cervical spine tuberculosis is a less common presentation is characterized by pain and stiffness

Patients with lower cervical spine disease can present with dysphagia or stridor

Symptoms can also include torticollis hoarseness and neurologic deficits

bull The clinical presentation of spinal tuberculosis in patients infected with the human immunodeficiency virus (HIV) is similar to that of patients who are HIV negative however the relative proportion of individuals who are HIV positive seems to be higher

Natural course of disease

bull 53 died within 10 yrs of onsetbull Early stage of healingndash focus surrounded by

sclerotic bone Ivory vertebrabull Early radiological sign of healingndash sharpening of

fuzzy paradiscal margins amp reappearance and minrralization of tuberculae

bull Several vertebrae destroyedndash fibrous tissuebull Disc space destroyed bony ankylosisbone

block formation

Lab Studiesbull Tuberculin skin test (purified protein derivative

[PPD]) demonstrates a positive finding in 84-95 of patients who are nonndashHIV-positive

bull Erythrocyte sedimentation rate (ESR) may be markedly elevated

bull The enzyme-linked immunosorbent assay (ELISA) has a reported sensitivity of 60 to 80 per cent

bull The polymerase chain reaction bull A brucella complement fixation test

bull IFN- Release Assays (IGRAs)bull Recently two in vitro assays that measure T

cell release of IFN- in response to stimulation with the highly tuberculosis-specific antigens ESAT-6 and CFP-10 have become commercially available

bull Microbiology studies to confirm diagnosis Obtain bone tissue or abscess samples to stain for acid-fast bacilli (AFB) and isolate organisms for culture and susceptibility CT-guided procedures can be used to guide percutaneous sampling of affected bone or soft tissue structures These study findings may be positive in only about 50 of the cases

X Ray appearances

bull Lytic destruction of anterior portion of vertebral body bull Increased anterior wedging bull Collapse of vertebral body bull Reactive sclerosis on a progressive lytic process bull Enlarged psoas shadow with or without calcificationbull Vertebral end plates are osteoporotic bull Intervertebral disks may be shrunk or destroyed bull Vertebral bodies show variable degrees of destruction bull Fusiform paravertebral shadows suggest abscess

formation bull Bone lesions may occur at more than one level

X Ray appearances

Discovertebral lesions detected in 93 of patients bull Localized fluffy osseous destruction with surrounding

osteoporosis is the earliest signs bull concentric collapse and may look like AVN bull Local lytic lesion may cause problem of diagnosis from

neoplasic lesion bull destruction of adjacent vertebrae Konstram (K) angle

appears and shows the progress on follow up bull Skipped lesion (10 cases) can be diagnosed on

suspicion and in correct size film

X-ray of the thoracolumbar spine (Lateral view) showing wedge collapse of L1 and L2 vertebral bodies

X-ray of the spine in a child showing complete destruction of D12 and L1 vertebral bodies leaving

only the pedicles

Kumarrsquos clinico-radiological Classification

stage features Usual duration

I Pre-destructive

Straightening spasm hyperemia in scinti

lt3 mo

II Early-destructive

Diminished space paradiscal erosion Knuckle lt10

2-4 mo

III Mild kyphos 2-3 verte k10-30 3-9 mo

IV Moderate kyphos

gt3 verte K30-60 6-24 mo

V Severe kyphos

gt3 verte Kgt60 gt2 years

CT scanning

bull CT scanning provides much better bony detail of irregular lytic lesions sclerosis disk collapse and disruption of bone circumference

bull Low-contrast resolution provides a better assessment of soft tissue particularly in epidural and paraspinal areas

bull It detects early lesions and is more effective for defining the shape and calcification of soft tissue abscesses

bull In contrast to pyogenic disease calcification is common in tuberculous lesions

MRI bull MRI is the criterion standard for evaluating disk

space infection and osteomyelitis of the spine bull MRI findings useful to differentiate tuberculous

spondylitis from pyogenic spondylitis include thin and smooth enhancement of the abscess wall and well-defined paraspinal abnormal signal

whereas thick and irregular enhancement of abscess wall and ill-defined paraspinal abnormal signal are suggestive of pyogenic spondylitis

bull contrast-enhanced MRI appears to be important in the differentiation of these two types of spondylitis

bull most effective for demonstrating neural compression

Myelographybull Spinal tumor syndromebull Multiple vertebral lesionsbull Patients not recovered after

decompression 1 Block present second decompression2 Block not present intrinsic damage

1Ischemic infarction 2Interstitial gliosis

3atrophy 4 tuberculous myelitis

5Myelomalacia

Differentials 1 Pyogenic infections2 Typhoid spine3 Brucella Spondylitis4 Mycotic Spondylitis5 Syphilitic6 Tumorous condition7 Primary malignant tumor 8 Multiple Myeloma9 Lymphomas10Secondary11Histocytosis-X12Spinal Osteochondrosis13Spondylolisthesis14Hydatid disease

Complications of tuberculosis

1 Paraplegia 2 Cold abscess3 Sinuses4 Secondary infection5 Amyloid disease6 Fatality

Tb spine with PARAPLEGIA

bull INCIDENCE 10-30bull Dorsal spine (MC)bull Motor functions affected before greater

than sensorybull Sense of position amp vibration last to

disappear

Patho of Tuberculoses Paraplegia1 Inflammatory Edema ndashvascular stasistoxin2 Extradural Mass ndash Tuberculous ostetis+

abscess3 Bony Disorder ndash Sequestra Internal Gibbus4 Meningeal changes ndash lsquodura as rule not

involvedrsquoExtradural grnulation --

contract cicatrization peridural fibrosis paraplegia

5 Infarction of spinal cord- Ant spinal artery

EndarteritisPeriarteritisThrombosis6 Changes in Spinal cord-

MyelomalacicSyringomyelic changeAtrophy ndashupto 50dec in dia-good functions

Seddonrsquos Classificationbull

GROUP A_-Early onset - This comes up in active stage of the disease within first 2 years

Compressive Agents are inflammatory edema granulation abscess casseous material sequestra and rarely ischaemic lesion

GROUP B -Late onset- Usually after 2 years of onset of the disease ndash due to recurrence or by mechanical pressure This can be better divided into

paraplegia with active disease and with healed disease

Active disease - Caseous material debris sequestrated disc or bone internal gibbus stenosis and deformity can cause compression

Healed disease - Usually internal gibbus and acute kyphotic deformity can also give late onset paraplegia Usually there is a continuous traction compression leading to paraplegia

Kumarrsquos classification oftuberculous paraplegia

stage Clinical features1 Negligible Unaware of neural deficit

Plantar extensor Ankle clonus2 Mild Walk with support

3 Moderate NonambulatoryParalysis in extentionsensory loss lt50

4 Severe 3+ paralysis in flexionsensory lossgt50 Sphinters involved

Evolution of treatment Pre-antitubercular erabull Artificial abscess- Pott in 1779bull Laminectomy amp laminotomy

chipault(1896 )bull Costo-transversectomy Menard in 1896bull Posterior mediastinotomybull Calves operation 1917bull Lateral rhachiotomy of carpener 1933bull Anterlateral decompression of Dottamp

Alexander1947

BASIC PRINCIPLES OFMANAGEMENT

10487291048729bull 10487291048729 Early diagnosisbull 10487291048729 Expeditious medical treatmentbull 10487291048729 Aggressive surgical approachbull 10487291048729 Prevent deformitybull 10487291048729 Expect good outcome

bull Studies performed by the British Medical Research Council indicate that tuberculous spondylitis of the thoracolumbar spine should be treated with combination chemotherapy for 6-9 months According to a 1994 recommendation by the US Centers for Disease Control and Prevention this is the treatment of choice

What is Middle path regimebull Admission rest in bed bull Chemotherapy bull X-ray amp ESR once in 3 monthsbull MRI CT at 6 months interval for 2 yearsbull Craniovertebral cervicodorsal lumbosacralamp

sacroiliac jointsbull Gradual mobilizationbull 3-9 weeks- back extention exercise 5-10 min 3-4

timesbull Spinal brace--- 18 months-2 years

bull Abcesses ndash aspirate near surface bull Instille 1gm Streptomycin +- INH in solbull Sinus heals 6-12 weeksbull Neural complications if responds 3-4 weeks -

surgery unnecssarybull Excisional surgery for posterior spinal diseasebull Operative debridement for patients ndashif no arrest

after 3-6 months- spinal arthrodesis (recommended)

bull Post op--Spinal brace--- 18 months-2 years

Drugs in middle path

phase duration drug

Intensive 5-6 months

INH 300-400mg

Rifampicin ofloxacin400-600mg streptomycin

Continuation

7-8 months

-do 3-4mth Pyrazinamide 1500mg4-5mth Rifampicin

Prophylactic

4-5 months

-do Ethambutol 1200mg

Surgical indications1 No sign of Neurological recovery after trial of 3-4

weeks therapy2 Neurological complication during treatment3 Neuro deficit becoming worse4 Recurrence of neuro complication5 Prevertebral cervical abscessesneurological

signsamp difficulty in deglutitionamp respiration6 Advanced cases- Sphincter involvement

flaccid paralysisSevere flexor spasms

Other indicationsbull Recurrent paraplegiabull Painful paraplegiandash dt root compressionetcbull Posterior spinal disease--involving the post

elements of vertbbull Spinal tumor syndrome resulting in cord

compressionbull Rapid onset paraplegia due to thrombosistrauma

etcbull Severe paraplegiabull Secondary to cervical disease and bull cauda equina paralysis

1 Decompression +- fusion

Failed responseToo advanced

2 Debridement+- fusion

Failed response after 3-6 monthsDoubtful diagnosisInstability

3 Debridement +-DECOMP+- fusion

Recrudescence of disease

4 Debridement+- fusion

Prevent severe Kyphosis

5 Anterior transpostion

Severe Kyphosis +neural deficit

6 Laminectomy STSsecondary stenosis posterior disease

APPROACH1 Cervical spine ndash Anterior retropharyngeal

(smith-Robinsonrsquos) Anterior approach ndash AnteriorMedial

border of sternocleidomastoid2 Dorsal spine (D1 to L1) ndash

1 Transthoraccic transpleural 2 Anterolateral decompression(D2 ndash

L1)3 Lumbar spine ndash Anterolateral(Lumbovertebrotomy) Extraperitoneal Ant approach

Tulirsquos recommended approch

bull Cervical spine ndashT1 Anterior approchbull Dorsal spine ndashDL junction Antrolateral

approchbull Lumbar spine ampLumboscral junction

Extraperitoneal Transverse Vertebrotomy

Surgical technique

bull Costotransversectomyndash in tense paravertebral abscess

removendash transverse process rib ndash 2 inchs

Anterolateral decompressionbull Posterior part of ribbull Transverse processbull Pediclebull Part of the vertebral bodybull Griffith Seddon Roaf -- prone position

bull Tuli --- right lateral positionbull Advantage- 1 avoid venous congestion 2 avoid excessive bleeding 3 permits freer respiration 4 better look at site

Posterior Spinal Arthrodesisbull Byndash Albee amp Hibbsbull Albeendash tibial graft inserted longitudinally in to

the split spinous vertebral processbull Hibbsndash overlapping numerous small osseous flap

from contiguous laminae spinous process amp articular facets

bull Indicationsndash 1 mechanical instability 2 to stabilise craniovertebral region 3 as part of panvertebral operation

DYNAMIC CAGE GovenderampPrabhoo

SYNTHES PLATE WITHSAPCER

Yilmaz C Selek HY et al Anterior instrumentation for the Treatment of Spinal Tuberculosis J Bone and

Joint Surg 1999 81-A 1261-67

bull ldquowe feel that every attempt should be made to minimize this deformity with some form of instrumentation wherever indicated and preferably anteriorlyrsquordquo

Thank youThank you

  • Pottrsquos spine
  • Pottrsquos disease
  • Slide 3
  • Regional Distribution
  • Pathophysiology
  • Slide 6
  • Slide 7
  • Slide 8
  • Slide 9
  • Anatomically the lesion could be
  • History
  • Slide 12
  • Slide 13
  • Natural course of disease
  • Lab Studies
  • Slide 16
  • Slide 17
  • X Ray appearances
  • Slide 19
  • Slide 20
  • X-ray of the thoracolumbar spine (Lateral view) showing wedge collapse of L1 and L2 vertebral bodies
  • X-ray of the spine in a child showing complete destruction of D12 and L1 vertebral bodies leaving only the pedicles
  • Kumarrsquos clinico-radiological Classification
  • CT scanning
  • MRI
  • Slide 26
  • Myelography
  • Slide 28
  • Differentials
  • Complications of tuberculosis
  • Tb spine with PARAPLEGIA
  • Patho of Tuberculoses Paraplegia
  • Slide 33
  • Seddonrsquos Classification
  • Kumarrsquos classification of tuberculous paraplegia
  • Evolution of treatment
  • BASIC PRINCIPLES OF MANAGEMENT 10487291048729
  • Slide 38
  • What is Middle path regime
  • Slide 40
  • Drugs in middle path
  • Slide 43
  • Surgical indications
  • Other indications
  • Slide 46
  • APPROACH
  • Tulirsquos recommended approch
  • Surgical technique
  • Anterolateral decompression
  • Posterior Spinal Arthrodesis
  • DYNAMIC CAGE GovenderampPrabhoo
  • SYNTHES PLATE WITH SAPCER
  • Yilmaz C Selek HY et al Anterior instrumentation for the Treatment of Spinal Tuberculosis J Bone and Joint Surg 1999 81-A 1261-67
Page 4: Pott Disease

Regional Distribution 1 Cervical 12

2 cervicodorsal 5

3 Dorsal 42

4 Dorsolumbar 12

5 Lumbar 26

6 Lumbosacral 3

Pathophysiologybull Pott disease is usually secondary to an extraspinal

source of infection bull The basic lesion is a combination of osteomyelitis

and arthritis bull The area usually affected is the anterior aspect of the

vertebral body adjacent to the subchondral plate bull Tuberculosis may spread from that area to adjacent

intervertebral disks In adults disk disease is secondary to the

spread of infection from the vertebral body In children because the disk is vascularized it

can be a primary site

bull Progressive bone destruction leads to vertebral collapse and kyphosis The spinal canal can be narrowed by abscesses granulation tissue or direct dural invasion This leads to spinal cord compression and neurologic deficits

bull Kyphotic deformity occurs as a consequence of collapse in the anterior spine Lesions in the thoracic spine have a greater tendency for kyphosis than those in the lumbar spine

bull The collapse is minimal in cervical spine because most of the body weight is borne through the articular processes

bull Healing takes place by gradual fibrosis and calcification of the granulmatous tuberculous tissue Eventually the fibrous tissue is ossified with resulting bony ankylosis of the collapsed vertebrae

bull Paravertebral abscess formation occurs in almost every case With collapse of the vertebral body tuberculous granulation tissue caseous matter and necrotic bone and bone marrow are extruded through the bony cortex and accumulate beneath the anterior longitudinal ligament

bull These cold abscesses gravitate along the fascial planes and present externally at some distance from the site of the original lesion

bull In the lumbar region the abscess gravitates along the psoas fascial sheath and usually points into the groin just below the inguinal ligament

bull In the thoracic region the longitudinal ligaments limit the abscess which is seen in the radiogram as a fusiform radiopaque shadow at or just below the level of the involved vertebra

bull Thoracic abscess may reach the anterior chest wall in the parasternal area by tracking via the intercostal vessels

The lesion could bebull Florid - invasive and destructive lesion bull Non destructive - lesion suspected clinically but

identifiable by modern investigations like CT scan or MRI

bull Encysted disease bull Carries sicca bull Hypertrophied bull Periosteal lesion

bull Recently two distinct patterns of spinal TB can be identified the classic form called spondylodiscitis (SPD) a

bull atypical form characterized by spondylitis without disk involvement (SPwD)

bull SPwD seems to be the most common pattern of spinal TB

Anatomically the lesion could be 1 Paradiscal - destruction of

adjacent end plates and diminution of disc space

2 Appendeceal (Posterior) - involvement of pedicles laminae spinous process

3 Central - Cystic or lytic concertina collapse

4 Anterior ndashlongitudinal lig Aneurysmal phenomenon

5 Synovitis in post facet

History

bull Presentation depends on the following ndash Stage of disease ndash Site ndash Presence of complications such as neurologic deficits

abscesses or sinus tractsbull The reported average duration of symptoms at the time

of diagnosis is 3-4 months bull Back pain is the earliest and most common symptom

ndash Patients have usually had back pain for weeks prior to presentation

ndash Pain can be spinal or radicularbull Constitutional symptoms include fever and weight loss

bull Neurologic abnormalities occur in 50 of cases and can include spinal cord compression with paraplegia paresis impaired sensation nerve root pain or cauda equina syndrome

bull Cervical spine tuberculosis is a less common presentation is characterized by pain and stiffness

Patients with lower cervical spine disease can present with dysphagia or stridor

Symptoms can also include torticollis hoarseness and neurologic deficits

bull The clinical presentation of spinal tuberculosis in patients infected with the human immunodeficiency virus (HIV) is similar to that of patients who are HIV negative however the relative proportion of individuals who are HIV positive seems to be higher

Natural course of disease

bull 53 died within 10 yrs of onsetbull Early stage of healingndash focus surrounded by

sclerotic bone Ivory vertebrabull Early radiological sign of healingndash sharpening of

fuzzy paradiscal margins amp reappearance and minrralization of tuberculae

bull Several vertebrae destroyedndash fibrous tissuebull Disc space destroyed bony ankylosisbone

block formation

Lab Studiesbull Tuberculin skin test (purified protein derivative

[PPD]) demonstrates a positive finding in 84-95 of patients who are nonndashHIV-positive

bull Erythrocyte sedimentation rate (ESR) may be markedly elevated

bull The enzyme-linked immunosorbent assay (ELISA) has a reported sensitivity of 60 to 80 per cent

bull The polymerase chain reaction bull A brucella complement fixation test

bull IFN- Release Assays (IGRAs)bull Recently two in vitro assays that measure T

cell release of IFN- in response to stimulation with the highly tuberculosis-specific antigens ESAT-6 and CFP-10 have become commercially available

bull Microbiology studies to confirm diagnosis Obtain bone tissue or abscess samples to stain for acid-fast bacilli (AFB) and isolate organisms for culture and susceptibility CT-guided procedures can be used to guide percutaneous sampling of affected bone or soft tissue structures These study findings may be positive in only about 50 of the cases

X Ray appearances

bull Lytic destruction of anterior portion of vertebral body bull Increased anterior wedging bull Collapse of vertebral body bull Reactive sclerosis on a progressive lytic process bull Enlarged psoas shadow with or without calcificationbull Vertebral end plates are osteoporotic bull Intervertebral disks may be shrunk or destroyed bull Vertebral bodies show variable degrees of destruction bull Fusiform paravertebral shadows suggest abscess

formation bull Bone lesions may occur at more than one level

X Ray appearances

Discovertebral lesions detected in 93 of patients bull Localized fluffy osseous destruction with surrounding

osteoporosis is the earliest signs bull concentric collapse and may look like AVN bull Local lytic lesion may cause problem of diagnosis from

neoplasic lesion bull destruction of adjacent vertebrae Konstram (K) angle

appears and shows the progress on follow up bull Skipped lesion (10 cases) can be diagnosed on

suspicion and in correct size film

X-ray of the thoracolumbar spine (Lateral view) showing wedge collapse of L1 and L2 vertebral bodies

X-ray of the spine in a child showing complete destruction of D12 and L1 vertebral bodies leaving

only the pedicles

Kumarrsquos clinico-radiological Classification

stage features Usual duration

I Pre-destructive

Straightening spasm hyperemia in scinti

lt3 mo

II Early-destructive

Diminished space paradiscal erosion Knuckle lt10

2-4 mo

III Mild kyphos 2-3 verte k10-30 3-9 mo

IV Moderate kyphos

gt3 verte K30-60 6-24 mo

V Severe kyphos

gt3 verte Kgt60 gt2 years

CT scanning

bull CT scanning provides much better bony detail of irregular lytic lesions sclerosis disk collapse and disruption of bone circumference

bull Low-contrast resolution provides a better assessment of soft tissue particularly in epidural and paraspinal areas

bull It detects early lesions and is more effective for defining the shape and calcification of soft tissue abscesses

bull In contrast to pyogenic disease calcification is common in tuberculous lesions

MRI bull MRI is the criterion standard for evaluating disk

space infection and osteomyelitis of the spine bull MRI findings useful to differentiate tuberculous

spondylitis from pyogenic spondylitis include thin and smooth enhancement of the abscess wall and well-defined paraspinal abnormal signal

whereas thick and irregular enhancement of abscess wall and ill-defined paraspinal abnormal signal are suggestive of pyogenic spondylitis

bull contrast-enhanced MRI appears to be important in the differentiation of these two types of spondylitis

bull most effective for demonstrating neural compression

Myelographybull Spinal tumor syndromebull Multiple vertebral lesionsbull Patients not recovered after

decompression 1 Block present second decompression2 Block not present intrinsic damage

1Ischemic infarction 2Interstitial gliosis

3atrophy 4 tuberculous myelitis

5Myelomalacia

Differentials 1 Pyogenic infections2 Typhoid spine3 Brucella Spondylitis4 Mycotic Spondylitis5 Syphilitic6 Tumorous condition7 Primary malignant tumor 8 Multiple Myeloma9 Lymphomas10Secondary11Histocytosis-X12Spinal Osteochondrosis13Spondylolisthesis14Hydatid disease

Complications of tuberculosis

1 Paraplegia 2 Cold abscess3 Sinuses4 Secondary infection5 Amyloid disease6 Fatality

Tb spine with PARAPLEGIA

bull INCIDENCE 10-30bull Dorsal spine (MC)bull Motor functions affected before greater

than sensorybull Sense of position amp vibration last to

disappear

Patho of Tuberculoses Paraplegia1 Inflammatory Edema ndashvascular stasistoxin2 Extradural Mass ndash Tuberculous ostetis+

abscess3 Bony Disorder ndash Sequestra Internal Gibbus4 Meningeal changes ndash lsquodura as rule not

involvedrsquoExtradural grnulation --

contract cicatrization peridural fibrosis paraplegia

5 Infarction of spinal cord- Ant spinal artery

EndarteritisPeriarteritisThrombosis6 Changes in Spinal cord-

MyelomalacicSyringomyelic changeAtrophy ndashupto 50dec in dia-good functions

Seddonrsquos Classificationbull

GROUP A_-Early onset - This comes up in active stage of the disease within first 2 years

Compressive Agents are inflammatory edema granulation abscess casseous material sequestra and rarely ischaemic lesion

GROUP B -Late onset- Usually after 2 years of onset of the disease ndash due to recurrence or by mechanical pressure This can be better divided into

paraplegia with active disease and with healed disease

Active disease - Caseous material debris sequestrated disc or bone internal gibbus stenosis and deformity can cause compression

Healed disease - Usually internal gibbus and acute kyphotic deformity can also give late onset paraplegia Usually there is a continuous traction compression leading to paraplegia

Kumarrsquos classification oftuberculous paraplegia

stage Clinical features1 Negligible Unaware of neural deficit

Plantar extensor Ankle clonus2 Mild Walk with support

3 Moderate NonambulatoryParalysis in extentionsensory loss lt50

4 Severe 3+ paralysis in flexionsensory lossgt50 Sphinters involved

Evolution of treatment Pre-antitubercular erabull Artificial abscess- Pott in 1779bull Laminectomy amp laminotomy

chipault(1896 )bull Costo-transversectomy Menard in 1896bull Posterior mediastinotomybull Calves operation 1917bull Lateral rhachiotomy of carpener 1933bull Anterlateral decompression of Dottamp

Alexander1947

BASIC PRINCIPLES OFMANAGEMENT

10487291048729bull 10487291048729 Early diagnosisbull 10487291048729 Expeditious medical treatmentbull 10487291048729 Aggressive surgical approachbull 10487291048729 Prevent deformitybull 10487291048729 Expect good outcome

bull Studies performed by the British Medical Research Council indicate that tuberculous spondylitis of the thoracolumbar spine should be treated with combination chemotherapy for 6-9 months According to a 1994 recommendation by the US Centers for Disease Control and Prevention this is the treatment of choice

What is Middle path regimebull Admission rest in bed bull Chemotherapy bull X-ray amp ESR once in 3 monthsbull MRI CT at 6 months interval for 2 yearsbull Craniovertebral cervicodorsal lumbosacralamp

sacroiliac jointsbull Gradual mobilizationbull 3-9 weeks- back extention exercise 5-10 min 3-4

timesbull Spinal brace--- 18 months-2 years

bull Abcesses ndash aspirate near surface bull Instille 1gm Streptomycin +- INH in solbull Sinus heals 6-12 weeksbull Neural complications if responds 3-4 weeks -

surgery unnecssarybull Excisional surgery for posterior spinal diseasebull Operative debridement for patients ndashif no arrest

after 3-6 months- spinal arthrodesis (recommended)

bull Post op--Spinal brace--- 18 months-2 years

Drugs in middle path

phase duration drug

Intensive 5-6 months

INH 300-400mg

Rifampicin ofloxacin400-600mg streptomycin

Continuation

7-8 months

-do 3-4mth Pyrazinamide 1500mg4-5mth Rifampicin

Prophylactic

4-5 months

-do Ethambutol 1200mg

Surgical indications1 No sign of Neurological recovery after trial of 3-4

weeks therapy2 Neurological complication during treatment3 Neuro deficit becoming worse4 Recurrence of neuro complication5 Prevertebral cervical abscessesneurological

signsamp difficulty in deglutitionamp respiration6 Advanced cases- Sphincter involvement

flaccid paralysisSevere flexor spasms

Other indicationsbull Recurrent paraplegiabull Painful paraplegiandash dt root compressionetcbull Posterior spinal disease--involving the post

elements of vertbbull Spinal tumor syndrome resulting in cord

compressionbull Rapid onset paraplegia due to thrombosistrauma

etcbull Severe paraplegiabull Secondary to cervical disease and bull cauda equina paralysis

1 Decompression +- fusion

Failed responseToo advanced

2 Debridement+- fusion

Failed response after 3-6 monthsDoubtful diagnosisInstability

3 Debridement +-DECOMP+- fusion

Recrudescence of disease

4 Debridement+- fusion

Prevent severe Kyphosis

5 Anterior transpostion

Severe Kyphosis +neural deficit

6 Laminectomy STSsecondary stenosis posterior disease

APPROACH1 Cervical spine ndash Anterior retropharyngeal

(smith-Robinsonrsquos) Anterior approach ndash AnteriorMedial

border of sternocleidomastoid2 Dorsal spine (D1 to L1) ndash

1 Transthoraccic transpleural 2 Anterolateral decompression(D2 ndash

L1)3 Lumbar spine ndash Anterolateral(Lumbovertebrotomy) Extraperitoneal Ant approach

Tulirsquos recommended approch

bull Cervical spine ndashT1 Anterior approchbull Dorsal spine ndashDL junction Antrolateral

approchbull Lumbar spine ampLumboscral junction

Extraperitoneal Transverse Vertebrotomy

Surgical technique

bull Costotransversectomyndash in tense paravertebral abscess

removendash transverse process rib ndash 2 inchs

Anterolateral decompressionbull Posterior part of ribbull Transverse processbull Pediclebull Part of the vertebral bodybull Griffith Seddon Roaf -- prone position

bull Tuli --- right lateral positionbull Advantage- 1 avoid venous congestion 2 avoid excessive bleeding 3 permits freer respiration 4 better look at site

Posterior Spinal Arthrodesisbull Byndash Albee amp Hibbsbull Albeendash tibial graft inserted longitudinally in to

the split spinous vertebral processbull Hibbsndash overlapping numerous small osseous flap

from contiguous laminae spinous process amp articular facets

bull Indicationsndash 1 mechanical instability 2 to stabilise craniovertebral region 3 as part of panvertebral operation

DYNAMIC CAGE GovenderampPrabhoo

SYNTHES PLATE WITHSAPCER

Yilmaz C Selek HY et al Anterior instrumentation for the Treatment of Spinal Tuberculosis J Bone and

Joint Surg 1999 81-A 1261-67

bull ldquowe feel that every attempt should be made to minimize this deformity with some form of instrumentation wherever indicated and preferably anteriorlyrsquordquo

Thank youThank you

  • Pottrsquos spine
  • Pottrsquos disease
  • Slide 3
  • Regional Distribution
  • Pathophysiology
  • Slide 6
  • Slide 7
  • Slide 8
  • Slide 9
  • Anatomically the lesion could be
  • History
  • Slide 12
  • Slide 13
  • Natural course of disease
  • Lab Studies
  • Slide 16
  • Slide 17
  • X Ray appearances
  • Slide 19
  • Slide 20
  • X-ray of the thoracolumbar spine (Lateral view) showing wedge collapse of L1 and L2 vertebral bodies
  • X-ray of the spine in a child showing complete destruction of D12 and L1 vertebral bodies leaving only the pedicles
  • Kumarrsquos clinico-radiological Classification
  • CT scanning
  • MRI
  • Slide 26
  • Myelography
  • Slide 28
  • Differentials
  • Complications of tuberculosis
  • Tb spine with PARAPLEGIA
  • Patho of Tuberculoses Paraplegia
  • Slide 33
  • Seddonrsquos Classification
  • Kumarrsquos classification of tuberculous paraplegia
  • Evolution of treatment
  • BASIC PRINCIPLES OF MANAGEMENT 10487291048729
  • Slide 38
  • What is Middle path regime
  • Slide 40
  • Drugs in middle path
  • Slide 43
  • Surgical indications
  • Other indications
  • Slide 46
  • APPROACH
  • Tulirsquos recommended approch
  • Surgical technique
  • Anterolateral decompression
  • Posterior Spinal Arthrodesis
  • DYNAMIC CAGE GovenderampPrabhoo
  • SYNTHES PLATE WITH SAPCER
  • Yilmaz C Selek HY et al Anterior instrumentation for the Treatment of Spinal Tuberculosis J Bone and Joint Surg 1999 81-A 1261-67
Page 5: Pott Disease

Pathophysiologybull Pott disease is usually secondary to an extraspinal

source of infection bull The basic lesion is a combination of osteomyelitis

and arthritis bull The area usually affected is the anterior aspect of the

vertebral body adjacent to the subchondral plate bull Tuberculosis may spread from that area to adjacent

intervertebral disks In adults disk disease is secondary to the

spread of infection from the vertebral body In children because the disk is vascularized it

can be a primary site

bull Progressive bone destruction leads to vertebral collapse and kyphosis The spinal canal can be narrowed by abscesses granulation tissue or direct dural invasion This leads to spinal cord compression and neurologic deficits

bull Kyphotic deformity occurs as a consequence of collapse in the anterior spine Lesions in the thoracic spine have a greater tendency for kyphosis than those in the lumbar spine

bull The collapse is minimal in cervical spine because most of the body weight is borne through the articular processes

bull Healing takes place by gradual fibrosis and calcification of the granulmatous tuberculous tissue Eventually the fibrous tissue is ossified with resulting bony ankylosis of the collapsed vertebrae

bull Paravertebral abscess formation occurs in almost every case With collapse of the vertebral body tuberculous granulation tissue caseous matter and necrotic bone and bone marrow are extruded through the bony cortex and accumulate beneath the anterior longitudinal ligament

bull These cold abscesses gravitate along the fascial planes and present externally at some distance from the site of the original lesion

bull In the lumbar region the abscess gravitates along the psoas fascial sheath and usually points into the groin just below the inguinal ligament

bull In the thoracic region the longitudinal ligaments limit the abscess which is seen in the radiogram as a fusiform radiopaque shadow at or just below the level of the involved vertebra

bull Thoracic abscess may reach the anterior chest wall in the parasternal area by tracking via the intercostal vessels

The lesion could bebull Florid - invasive and destructive lesion bull Non destructive - lesion suspected clinically but

identifiable by modern investigations like CT scan or MRI

bull Encysted disease bull Carries sicca bull Hypertrophied bull Periosteal lesion

bull Recently two distinct patterns of spinal TB can be identified the classic form called spondylodiscitis (SPD) a

bull atypical form characterized by spondylitis without disk involvement (SPwD)

bull SPwD seems to be the most common pattern of spinal TB

Anatomically the lesion could be 1 Paradiscal - destruction of

adjacent end plates and diminution of disc space

2 Appendeceal (Posterior) - involvement of pedicles laminae spinous process

3 Central - Cystic or lytic concertina collapse

4 Anterior ndashlongitudinal lig Aneurysmal phenomenon

5 Synovitis in post facet

History

bull Presentation depends on the following ndash Stage of disease ndash Site ndash Presence of complications such as neurologic deficits

abscesses or sinus tractsbull The reported average duration of symptoms at the time

of diagnosis is 3-4 months bull Back pain is the earliest and most common symptom

ndash Patients have usually had back pain for weeks prior to presentation

ndash Pain can be spinal or radicularbull Constitutional symptoms include fever and weight loss

bull Neurologic abnormalities occur in 50 of cases and can include spinal cord compression with paraplegia paresis impaired sensation nerve root pain or cauda equina syndrome

bull Cervical spine tuberculosis is a less common presentation is characterized by pain and stiffness

Patients with lower cervical spine disease can present with dysphagia or stridor

Symptoms can also include torticollis hoarseness and neurologic deficits

bull The clinical presentation of spinal tuberculosis in patients infected with the human immunodeficiency virus (HIV) is similar to that of patients who are HIV negative however the relative proportion of individuals who are HIV positive seems to be higher

Natural course of disease

bull 53 died within 10 yrs of onsetbull Early stage of healingndash focus surrounded by

sclerotic bone Ivory vertebrabull Early radiological sign of healingndash sharpening of

fuzzy paradiscal margins amp reappearance and minrralization of tuberculae

bull Several vertebrae destroyedndash fibrous tissuebull Disc space destroyed bony ankylosisbone

block formation

Lab Studiesbull Tuberculin skin test (purified protein derivative

[PPD]) demonstrates a positive finding in 84-95 of patients who are nonndashHIV-positive

bull Erythrocyte sedimentation rate (ESR) may be markedly elevated

bull The enzyme-linked immunosorbent assay (ELISA) has a reported sensitivity of 60 to 80 per cent

bull The polymerase chain reaction bull A brucella complement fixation test

bull IFN- Release Assays (IGRAs)bull Recently two in vitro assays that measure T

cell release of IFN- in response to stimulation with the highly tuberculosis-specific antigens ESAT-6 and CFP-10 have become commercially available

bull Microbiology studies to confirm diagnosis Obtain bone tissue or abscess samples to stain for acid-fast bacilli (AFB) and isolate organisms for culture and susceptibility CT-guided procedures can be used to guide percutaneous sampling of affected bone or soft tissue structures These study findings may be positive in only about 50 of the cases

X Ray appearances

bull Lytic destruction of anterior portion of vertebral body bull Increased anterior wedging bull Collapse of vertebral body bull Reactive sclerosis on a progressive lytic process bull Enlarged psoas shadow with or without calcificationbull Vertebral end plates are osteoporotic bull Intervertebral disks may be shrunk or destroyed bull Vertebral bodies show variable degrees of destruction bull Fusiform paravertebral shadows suggest abscess

formation bull Bone lesions may occur at more than one level

X Ray appearances

Discovertebral lesions detected in 93 of patients bull Localized fluffy osseous destruction with surrounding

osteoporosis is the earliest signs bull concentric collapse and may look like AVN bull Local lytic lesion may cause problem of diagnosis from

neoplasic lesion bull destruction of adjacent vertebrae Konstram (K) angle

appears and shows the progress on follow up bull Skipped lesion (10 cases) can be diagnosed on

suspicion and in correct size film

X-ray of the thoracolumbar spine (Lateral view) showing wedge collapse of L1 and L2 vertebral bodies

X-ray of the spine in a child showing complete destruction of D12 and L1 vertebral bodies leaving

only the pedicles

Kumarrsquos clinico-radiological Classification

stage features Usual duration

I Pre-destructive

Straightening spasm hyperemia in scinti

lt3 mo

II Early-destructive

Diminished space paradiscal erosion Knuckle lt10

2-4 mo

III Mild kyphos 2-3 verte k10-30 3-9 mo

IV Moderate kyphos

gt3 verte K30-60 6-24 mo

V Severe kyphos

gt3 verte Kgt60 gt2 years

CT scanning

bull CT scanning provides much better bony detail of irregular lytic lesions sclerosis disk collapse and disruption of bone circumference

bull Low-contrast resolution provides a better assessment of soft tissue particularly in epidural and paraspinal areas

bull It detects early lesions and is more effective for defining the shape and calcification of soft tissue abscesses

bull In contrast to pyogenic disease calcification is common in tuberculous lesions

MRI bull MRI is the criterion standard for evaluating disk

space infection and osteomyelitis of the spine bull MRI findings useful to differentiate tuberculous

spondylitis from pyogenic spondylitis include thin and smooth enhancement of the abscess wall and well-defined paraspinal abnormal signal

whereas thick and irregular enhancement of abscess wall and ill-defined paraspinal abnormal signal are suggestive of pyogenic spondylitis

bull contrast-enhanced MRI appears to be important in the differentiation of these two types of spondylitis

bull most effective for demonstrating neural compression

Myelographybull Spinal tumor syndromebull Multiple vertebral lesionsbull Patients not recovered after

decompression 1 Block present second decompression2 Block not present intrinsic damage

1Ischemic infarction 2Interstitial gliosis

3atrophy 4 tuberculous myelitis

5Myelomalacia

Differentials 1 Pyogenic infections2 Typhoid spine3 Brucella Spondylitis4 Mycotic Spondylitis5 Syphilitic6 Tumorous condition7 Primary malignant tumor 8 Multiple Myeloma9 Lymphomas10Secondary11Histocytosis-X12Spinal Osteochondrosis13Spondylolisthesis14Hydatid disease

Complications of tuberculosis

1 Paraplegia 2 Cold abscess3 Sinuses4 Secondary infection5 Amyloid disease6 Fatality

Tb spine with PARAPLEGIA

bull INCIDENCE 10-30bull Dorsal spine (MC)bull Motor functions affected before greater

than sensorybull Sense of position amp vibration last to

disappear

Patho of Tuberculoses Paraplegia1 Inflammatory Edema ndashvascular stasistoxin2 Extradural Mass ndash Tuberculous ostetis+

abscess3 Bony Disorder ndash Sequestra Internal Gibbus4 Meningeal changes ndash lsquodura as rule not

involvedrsquoExtradural grnulation --

contract cicatrization peridural fibrosis paraplegia

5 Infarction of spinal cord- Ant spinal artery

EndarteritisPeriarteritisThrombosis6 Changes in Spinal cord-

MyelomalacicSyringomyelic changeAtrophy ndashupto 50dec in dia-good functions

Seddonrsquos Classificationbull

GROUP A_-Early onset - This comes up in active stage of the disease within first 2 years

Compressive Agents are inflammatory edema granulation abscess casseous material sequestra and rarely ischaemic lesion

GROUP B -Late onset- Usually after 2 years of onset of the disease ndash due to recurrence or by mechanical pressure This can be better divided into

paraplegia with active disease and with healed disease

Active disease - Caseous material debris sequestrated disc or bone internal gibbus stenosis and deformity can cause compression

Healed disease - Usually internal gibbus and acute kyphotic deformity can also give late onset paraplegia Usually there is a continuous traction compression leading to paraplegia

Kumarrsquos classification oftuberculous paraplegia

stage Clinical features1 Negligible Unaware of neural deficit

Plantar extensor Ankle clonus2 Mild Walk with support

3 Moderate NonambulatoryParalysis in extentionsensory loss lt50

4 Severe 3+ paralysis in flexionsensory lossgt50 Sphinters involved

Evolution of treatment Pre-antitubercular erabull Artificial abscess- Pott in 1779bull Laminectomy amp laminotomy

chipault(1896 )bull Costo-transversectomy Menard in 1896bull Posterior mediastinotomybull Calves operation 1917bull Lateral rhachiotomy of carpener 1933bull Anterlateral decompression of Dottamp

Alexander1947

BASIC PRINCIPLES OFMANAGEMENT

10487291048729bull 10487291048729 Early diagnosisbull 10487291048729 Expeditious medical treatmentbull 10487291048729 Aggressive surgical approachbull 10487291048729 Prevent deformitybull 10487291048729 Expect good outcome

bull Studies performed by the British Medical Research Council indicate that tuberculous spondylitis of the thoracolumbar spine should be treated with combination chemotherapy for 6-9 months According to a 1994 recommendation by the US Centers for Disease Control and Prevention this is the treatment of choice

What is Middle path regimebull Admission rest in bed bull Chemotherapy bull X-ray amp ESR once in 3 monthsbull MRI CT at 6 months interval for 2 yearsbull Craniovertebral cervicodorsal lumbosacralamp

sacroiliac jointsbull Gradual mobilizationbull 3-9 weeks- back extention exercise 5-10 min 3-4

timesbull Spinal brace--- 18 months-2 years

bull Abcesses ndash aspirate near surface bull Instille 1gm Streptomycin +- INH in solbull Sinus heals 6-12 weeksbull Neural complications if responds 3-4 weeks -

surgery unnecssarybull Excisional surgery for posterior spinal diseasebull Operative debridement for patients ndashif no arrest

after 3-6 months- spinal arthrodesis (recommended)

bull Post op--Spinal brace--- 18 months-2 years

Drugs in middle path

phase duration drug

Intensive 5-6 months

INH 300-400mg

Rifampicin ofloxacin400-600mg streptomycin

Continuation

7-8 months

-do 3-4mth Pyrazinamide 1500mg4-5mth Rifampicin

Prophylactic

4-5 months

-do Ethambutol 1200mg

Surgical indications1 No sign of Neurological recovery after trial of 3-4

weeks therapy2 Neurological complication during treatment3 Neuro deficit becoming worse4 Recurrence of neuro complication5 Prevertebral cervical abscessesneurological

signsamp difficulty in deglutitionamp respiration6 Advanced cases- Sphincter involvement

flaccid paralysisSevere flexor spasms

Other indicationsbull Recurrent paraplegiabull Painful paraplegiandash dt root compressionetcbull Posterior spinal disease--involving the post

elements of vertbbull Spinal tumor syndrome resulting in cord

compressionbull Rapid onset paraplegia due to thrombosistrauma

etcbull Severe paraplegiabull Secondary to cervical disease and bull cauda equina paralysis

1 Decompression +- fusion

Failed responseToo advanced

2 Debridement+- fusion

Failed response after 3-6 monthsDoubtful diagnosisInstability

3 Debridement +-DECOMP+- fusion

Recrudescence of disease

4 Debridement+- fusion

Prevent severe Kyphosis

5 Anterior transpostion

Severe Kyphosis +neural deficit

6 Laminectomy STSsecondary stenosis posterior disease

APPROACH1 Cervical spine ndash Anterior retropharyngeal

(smith-Robinsonrsquos) Anterior approach ndash AnteriorMedial

border of sternocleidomastoid2 Dorsal spine (D1 to L1) ndash

1 Transthoraccic transpleural 2 Anterolateral decompression(D2 ndash

L1)3 Lumbar spine ndash Anterolateral(Lumbovertebrotomy) Extraperitoneal Ant approach

Tulirsquos recommended approch

bull Cervical spine ndashT1 Anterior approchbull Dorsal spine ndashDL junction Antrolateral

approchbull Lumbar spine ampLumboscral junction

Extraperitoneal Transverse Vertebrotomy

Surgical technique

bull Costotransversectomyndash in tense paravertebral abscess

removendash transverse process rib ndash 2 inchs

Anterolateral decompressionbull Posterior part of ribbull Transverse processbull Pediclebull Part of the vertebral bodybull Griffith Seddon Roaf -- prone position

bull Tuli --- right lateral positionbull Advantage- 1 avoid venous congestion 2 avoid excessive bleeding 3 permits freer respiration 4 better look at site

Posterior Spinal Arthrodesisbull Byndash Albee amp Hibbsbull Albeendash tibial graft inserted longitudinally in to

the split spinous vertebral processbull Hibbsndash overlapping numerous small osseous flap

from contiguous laminae spinous process amp articular facets

bull Indicationsndash 1 mechanical instability 2 to stabilise craniovertebral region 3 as part of panvertebral operation

DYNAMIC CAGE GovenderampPrabhoo

SYNTHES PLATE WITHSAPCER

Yilmaz C Selek HY et al Anterior instrumentation for the Treatment of Spinal Tuberculosis J Bone and

Joint Surg 1999 81-A 1261-67

bull ldquowe feel that every attempt should be made to minimize this deformity with some form of instrumentation wherever indicated and preferably anteriorlyrsquordquo

Thank youThank you

  • Pottrsquos spine
  • Pottrsquos disease
  • Slide 3
  • Regional Distribution
  • Pathophysiology
  • Slide 6
  • Slide 7
  • Slide 8
  • Slide 9
  • Anatomically the lesion could be
  • History
  • Slide 12
  • Slide 13
  • Natural course of disease
  • Lab Studies
  • Slide 16
  • Slide 17
  • X Ray appearances
  • Slide 19
  • Slide 20
  • X-ray of the thoracolumbar spine (Lateral view) showing wedge collapse of L1 and L2 vertebral bodies
  • X-ray of the spine in a child showing complete destruction of D12 and L1 vertebral bodies leaving only the pedicles
  • Kumarrsquos clinico-radiological Classification
  • CT scanning
  • MRI
  • Slide 26
  • Myelography
  • Slide 28
  • Differentials
  • Complications of tuberculosis
  • Tb spine with PARAPLEGIA
  • Patho of Tuberculoses Paraplegia
  • Slide 33
  • Seddonrsquos Classification
  • Kumarrsquos classification of tuberculous paraplegia
  • Evolution of treatment
  • BASIC PRINCIPLES OF MANAGEMENT 10487291048729
  • Slide 38
  • What is Middle path regime
  • Slide 40
  • Drugs in middle path
  • Slide 43
  • Surgical indications
  • Other indications
  • Slide 46
  • APPROACH
  • Tulirsquos recommended approch
  • Surgical technique
  • Anterolateral decompression
  • Posterior Spinal Arthrodesis
  • DYNAMIC CAGE GovenderampPrabhoo
  • SYNTHES PLATE WITH SAPCER
  • Yilmaz C Selek HY et al Anterior instrumentation for the Treatment of Spinal Tuberculosis J Bone and Joint Surg 1999 81-A 1261-67
Page 6: Pott Disease

bull Progressive bone destruction leads to vertebral collapse and kyphosis The spinal canal can be narrowed by abscesses granulation tissue or direct dural invasion This leads to spinal cord compression and neurologic deficits

bull Kyphotic deformity occurs as a consequence of collapse in the anterior spine Lesions in the thoracic spine have a greater tendency for kyphosis than those in the lumbar spine

bull The collapse is minimal in cervical spine because most of the body weight is borne through the articular processes

bull Healing takes place by gradual fibrosis and calcification of the granulmatous tuberculous tissue Eventually the fibrous tissue is ossified with resulting bony ankylosis of the collapsed vertebrae

bull Paravertebral abscess formation occurs in almost every case With collapse of the vertebral body tuberculous granulation tissue caseous matter and necrotic bone and bone marrow are extruded through the bony cortex and accumulate beneath the anterior longitudinal ligament

bull These cold abscesses gravitate along the fascial planes and present externally at some distance from the site of the original lesion

bull In the lumbar region the abscess gravitates along the psoas fascial sheath and usually points into the groin just below the inguinal ligament

bull In the thoracic region the longitudinal ligaments limit the abscess which is seen in the radiogram as a fusiform radiopaque shadow at or just below the level of the involved vertebra

bull Thoracic abscess may reach the anterior chest wall in the parasternal area by tracking via the intercostal vessels

The lesion could bebull Florid - invasive and destructive lesion bull Non destructive - lesion suspected clinically but

identifiable by modern investigations like CT scan or MRI

bull Encysted disease bull Carries sicca bull Hypertrophied bull Periosteal lesion

bull Recently two distinct patterns of spinal TB can be identified the classic form called spondylodiscitis (SPD) a

bull atypical form characterized by spondylitis without disk involvement (SPwD)

bull SPwD seems to be the most common pattern of spinal TB

Anatomically the lesion could be 1 Paradiscal - destruction of

adjacent end plates and diminution of disc space

2 Appendeceal (Posterior) - involvement of pedicles laminae spinous process

3 Central - Cystic or lytic concertina collapse

4 Anterior ndashlongitudinal lig Aneurysmal phenomenon

5 Synovitis in post facet

History

bull Presentation depends on the following ndash Stage of disease ndash Site ndash Presence of complications such as neurologic deficits

abscesses or sinus tractsbull The reported average duration of symptoms at the time

of diagnosis is 3-4 months bull Back pain is the earliest and most common symptom

ndash Patients have usually had back pain for weeks prior to presentation

ndash Pain can be spinal or radicularbull Constitutional symptoms include fever and weight loss

bull Neurologic abnormalities occur in 50 of cases and can include spinal cord compression with paraplegia paresis impaired sensation nerve root pain or cauda equina syndrome

bull Cervical spine tuberculosis is a less common presentation is characterized by pain and stiffness

Patients with lower cervical spine disease can present with dysphagia or stridor

Symptoms can also include torticollis hoarseness and neurologic deficits

bull The clinical presentation of spinal tuberculosis in patients infected with the human immunodeficiency virus (HIV) is similar to that of patients who are HIV negative however the relative proportion of individuals who are HIV positive seems to be higher

Natural course of disease

bull 53 died within 10 yrs of onsetbull Early stage of healingndash focus surrounded by

sclerotic bone Ivory vertebrabull Early radiological sign of healingndash sharpening of

fuzzy paradiscal margins amp reappearance and minrralization of tuberculae

bull Several vertebrae destroyedndash fibrous tissuebull Disc space destroyed bony ankylosisbone

block formation

Lab Studiesbull Tuberculin skin test (purified protein derivative

[PPD]) demonstrates a positive finding in 84-95 of patients who are nonndashHIV-positive

bull Erythrocyte sedimentation rate (ESR) may be markedly elevated

bull The enzyme-linked immunosorbent assay (ELISA) has a reported sensitivity of 60 to 80 per cent

bull The polymerase chain reaction bull A brucella complement fixation test

bull IFN- Release Assays (IGRAs)bull Recently two in vitro assays that measure T

cell release of IFN- in response to stimulation with the highly tuberculosis-specific antigens ESAT-6 and CFP-10 have become commercially available

bull Microbiology studies to confirm diagnosis Obtain bone tissue or abscess samples to stain for acid-fast bacilli (AFB) and isolate organisms for culture and susceptibility CT-guided procedures can be used to guide percutaneous sampling of affected bone or soft tissue structures These study findings may be positive in only about 50 of the cases

X Ray appearances

bull Lytic destruction of anterior portion of vertebral body bull Increased anterior wedging bull Collapse of vertebral body bull Reactive sclerosis on a progressive lytic process bull Enlarged psoas shadow with or without calcificationbull Vertebral end plates are osteoporotic bull Intervertebral disks may be shrunk or destroyed bull Vertebral bodies show variable degrees of destruction bull Fusiform paravertebral shadows suggest abscess

formation bull Bone lesions may occur at more than one level

X Ray appearances

Discovertebral lesions detected in 93 of patients bull Localized fluffy osseous destruction with surrounding

osteoporosis is the earliest signs bull concentric collapse and may look like AVN bull Local lytic lesion may cause problem of diagnosis from

neoplasic lesion bull destruction of adjacent vertebrae Konstram (K) angle

appears and shows the progress on follow up bull Skipped lesion (10 cases) can be diagnosed on

suspicion and in correct size film

X-ray of the thoracolumbar spine (Lateral view) showing wedge collapse of L1 and L2 vertebral bodies

X-ray of the spine in a child showing complete destruction of D12 and L1 vertebral bodies leaving

only the pedicles

Kumarrsquos clinico-radiological Classification

stage features Usual duration

I Pre-destructive

Straightening spasm hyperemia in scinti

lt3 mo

II Early-destructive

Diminished space paradiscal erosion Knuckle lt10

2-4 mo

III Mild kyphos 2-3 verte k10-30 3-9 mo

IV Moderate kyphos

gt3 verte K30-60 6-24 mo

V Severe kyphos

gt3 verte Kgt60 gt2 years

CT scanning

bull CT scanning provides much better bony detail of irregular lytic lesions sclerosis disk collapse and disruption of bone circumference

bull Low-contrast resolution provides a better assessment of soft tissue particularly in epidural and paraspinal areas

bull It detects early lesions and is more effective for defining the shape and calcification of soft tissue abscesses

bull In contrast to pyogenic disease calcification is common in tuberculous lesions

MRI bull MRI is the criterion standard for evaluating disk

space infection and osteomyelitis of the spine bull MRI findings useful to differentiate tuberculous

spondylitis from pyogenic spondylitis include thin and smooth enhancement of the abscess wall and well-defined paraspinal abnormal signal

whereas thick and irregular enhancement of abscess wall and ill-defined paraspinal abnormal signal are suggestive of pyogenic spondylitis

bull contrast-enhanced MRI appears to be important in the differentiation of these two types of spondylitis

bull most effective for demonstrating neural compression

Myelographybull Spinal tumor syndromebull Multiple vertebral lesionsbull Patients not recovered after

decompression 1 Block present second decompression2 Block not present intrinsic damage

1Ischemic infarction 2Interstitial gliosis

3atrophy 4 tuberculous myelitis

5Myelomalacia

Differentials 1 Pyogenic infections2 Typhoid spine3 Brucella Spondylitis4 Mycotic Spondylitis5 Syphilitic6 Tumorous condition7 Primary malignant tumor 8 Multiple Myeloma9 Lymphomas10Secondary11Histocytosis-X12Spinal Osteochondrosis13Spondylolisthesis14Hydatid disease

Complications of tuberculosis

1 Paraplegia 2 Cold abscess3 Sinuses4 Secondary infection5 Amyloid disease6 Fatality

Tb spine with PARAPLEGIA

bull INCIDENCE 10-30bull Dorsal spine (MC)bull Motor functions affected before greater

than sensorybull Sense of position amp vibration last to

disappear

Patho of Tuberculoses Paraplegia1 Inflammatory Edema ndashvascular stasistoxin2 Extradural Mass ndash Tuberculous ostetis+

abscess3 Bony Disorder ndash Sequestra Internal Gibbus4 Meningeal changes ndash lsquodura as rule not

involvedrsquoExtradural grnulation --

contract cicatrization peridural fibrosis paraplegia

5 Infarction of spinal cord- Ant spinal artery

EndarteritisPeriarteritisThrombosis6 Changes in Spinal cord-

MyelomalacicSyringomyelic changeAtrophy ndashupto 50dec in dia-good functions

Seddonrsquos Classificationbull

GROUP A_-Early onset - This comes up in active stage of the disease within first 2 years

Compressive Agents are inflammatory edema granulation abscess casseous material sequestra and rarely ischaemic lesion

GROUP B -Late onset- Usually after 2 years of onset of the disease ndash due to recurrence or by mechanical pressure This can be better divided into

paraplegia with active disease and with healed disease

Active disease - Caseous material debris sequestrated disc or bone internal gibbus stenosis and deformity can cause compression

Healed disease - Usually internal gibbus and acute kyphotic deformity can also give late onset paraplegia Usually there is a continuous traction compression leading to paraplegia

Kumarrsquos classification oftuberculous paraplegia

stage Clinical features1 Negligible Unaware of neural deficit

Plantar extensor Ankle clonus2 Mild Walk with support

3 Moderate NonambulatoryParalysis in extentionsensory loss lt50

4 Severe 3+ paralysis in flexionsensory lossgt50 Sphinters involved

Evolution of treatment Pre-antitubercular erabull Artificial abscess- Pott in 1779bull Laminectomy amp laminotomy

chipault(1896 )bull Costo-transversectomy Menard in 1896bull Posterior mediastinotomybull Calves operation 1917bull Lateral rhachiotomy of carpener 1933bull Anterlateral decompression of Dottamp

Alexander1947

BASIC PRINCIPLES OFMANAGEMENT

10487291048729bull 10487291048729 Early diagnosisbull 10487291048729 Expeditious medical treatmentbull 10487291048729 Aggressive surgical approachbull 10487291048729 Prevent deformitybull 10487291048729 Expect good outcome

bull Studies performed by the British Medical Research Council indicate that tuberculous spondylitis of the thoracolumbar spine should be treated with combination chemotherapy for 6-9 months According to a 1994 recommendation by the US Centers for Disease Control and Prevention this is the treatment of choice

What is Middle path regimebull Admission rest in bed bull Chemotherapy bull X-ray amp ESR once in 3 monthsbull MRI CT at 6 months interval for 2 yearsbull Craniovertebral cervicodorsal lumbosacralamp

sacroiliac jointsbull Gradual mobilizationbull 3-9 weeks- back extention exercise 5-10 min 3-4

timesbull Spinal brace--- 18 months-2 years

bull Abcesses ndash aspirate near surface bull Instille 1gm Streptomycin +- INH in solbull Sinus heals 6-12 weeksbull Neural complications if responds 3-4 weeks -

surgery unnecssarybull Excisional surgery for posterior spinal diseasebull Operative debridement for patients ndashif no arrest

after 3-6 months- spinal arthrodesis (recommended)

bull Post op--Spinal brace--- 18 months-2 years

Drugs in middle path

phase duration drug

Intensive 5-6 months

INH 300-400mg

Rifampicin ofloxacin400-600mg streptomycin

Continuation

7-8 months

-do 3-4mth Pyrazinamide 1500mg4-5mth Rifampicin

Prophylactic

4-5 months

-do Ethambutol 1200mg

Surgical indications1 No sign of Neurological recovery after trial of 3-4

weeks therapy2 Neurological complication during treatment3 Neuro deficit becoming worse4 Recurrence of neuro complication5 Prevertebral cervical abscessesneurological

signsamp difficulty in deglutitionamp respiration6 Advanced cases- Sphincter involvement

flaccid paralysisSevere flexor spasms

Other indicationsbull Recurrent paraplegiabull Painful paraplegiandash dt root compressionetcbull Posterior spinal disease--involving the post

elements of vertbbull Spinal tumor syndrome resulting in cord

compressionbull Rapid onset paraplegia due to thrombosistrauma

etcbull Severe paraplegiabull Secondary to cervical disease and bull cauda equina paralysis

1 Decompression +- fusion

Failed responseToo advanced

2 Debridement+- fusion

Failed response after 3-6 monthsDoubtful diagnosisInstability

3 Debridement +-DECOMP+- fusion

Recrudescence of disease

4 Debridement+- fusion

Prevent severe Kyphosis

5 Anterior transpostion

Severe Kyphosis +neural deficit

6 Laminectomy STSsecondary stenosis posterior disease

APPROACH1 Cervical spine ndash Anterior retropharyngeal

(smith-Robinsonrsquos) Anterior approach ndash AnteriorMedial

border of sternocleidomastoid2 Dorsal spine (D1 to L1) ndash

1 Transthoraccic transpleural 2 Anterolateral decompression(D2 ndash

L1)3 Lumbar spine ndash Anterolateral(Lumbovertebrotomy) Extraperitoneal Ant approach

Tulirsquos recommended approch

bull Cervical spine ndashT1 Anterior approchbull Dorsal spine ndashDL junction Antrolateral

approchbull Lumbar spine ampLumboscral junction

Extraperitoneal Transverse Vertebrotomy

Surgical technique

bull Costotransversectomyndash in tense paravertebral abscess

removendash transverse process rib ndash 2 inchs

Anterolateral decompressionbull Posterior part of ribbull Transverse processbull Pediclebull Part of the vertebral bodybull Griffith Seddon Roaf -- prone position

bull Tuli --- right lateral positionbull Advantage- 1 avoid venous congestion 2 avoid excessive bleeding 3 permits freer respiration 4 better look at site

Posterior Spinal Arthrodesisbull Byndash Albee amp Hibbsbull Albeendash tibial graft inserted longitudinally in to

the split spinous vertebral processbull Hibbsndash overlapping numerous small osseous flap

from contiguous laminae spinous process amp articular facets

bull Indicationsndash 1 mechanical instability 2 to stabilise craniovertebral region 3 as part of panvertebral operation

DYNAMIC CAGE GovenderampPrabhoo

SYNTHES PLATE WITHSAPCER

Yilmaz C Selek HY et al Anterior instrumentation for the Treatment of Spinal Tuberculosis J Bone and

Joint Surg 1999 81-A 1261-67

bull ldquowe feel that every attempt should be made to minimize this deformity with some form of instrumentation wherever indicated and preferably anteriorlyrsquordquo

Thank youThank you

  • Pottrsquos spine
  • Pottrsquos disease
  • Slide 3
  • Regional Distribution
  • Pathophysiology
  • Slide 6
  • Slide 7
  • Slide 8
  • Slide 9
  • Anatomically the lesion could be
  • History
  • Slide 12
  • Slide 13
  • Natural course of disease
  • Lab Studies
  • Slide 16
  • Slide 17
  • X Ray appearances
  • Slide 19
  • Slide 20
  • X-ray of the thoracolumbar spine (Lateral view) showing wedge collapse of L1 and L2 vertebral bodies
  • X-ray of the spine in a child showing complete destruction of D12 and L1 vertebral bodies leaving only the pedicles
  • Kumarrsquos clinico-radiological Classification
  • CT scanning
  • MRI
  • Slide 26
  • Myelography
  • Slide 28
  • Differentials
  • Complications of tuberculosis
  • Tb spine with PARAPLEGIA
  • Patho of Tuberculoses Paraplegia
  • Slide 33
  • Seddonrsquos Classification
  • Kumarrsquos classification of tuberculous paraplegia
  • Evolution of treatment
  • BASIC PRINCIPLES OF MANAGEMENT 10487291048729
  • Slide 38
  • What is Middle path regime
  • Slide 40
  • Drugs in middle path
  • Slide 43
  • Surgical indications
  • Other indications
  • Slide 46
  • APPROACH
  • Tulirsquos recommended approch
  • Surgical technique
  • Anterolateral decompression
  • Posterior Spinal Arthrodesis
  • DYNAMIC CAGE GovenderampPrabhoo
  • SYNTHES PLATE WITH SAPCER
  • Yilmaz C Selek HY et al Anterior instrumentation for the Treatment of Spinal Tuberculosis J Bone and Joint Surg 1999 81-A 1261-67
Page 7: Pott Disease

bull Paravertebral abscess formation occurs in almost every case With collapse of the vertebral body tuberculous granulation tissue caseous matter and necrotic bone and bone marrow are extruded through the bony cortex and accumulate beneath the anterior longitudinal ligament

bull These cold abscesses gravitate along the fascial planes and present externally at some distance from the site of the original lesion

bull In the lumbar region the abscess gravitates along the psoas fascial sheath and usually points into the groin just below the inguinal ligament

bull In the thoracic region the longitudinal ligaments limit the abscess which is seen in the radiogram as a fusiform radiopaque shadow at or just below the level of the involved vertebra

bull Thoracic abscess may reach the anterior chest wall in the parasternal area by tracking via the intercostal vessels

The lesion could bebull Florid - invasive and destructive lesion bull Non destructive - lesion suspected clinically but

identifiable by modern investigations like CT scan or MRI

bull Encysted disease bull Carries sicca bull Hypertrophied bull Periosteal lesion

bull Recently two distinct patterns of spinal TB can be identified the classic form called spondylodiscitis (SPD) a

bull atypical form characterized by spondylitis without disk involvement (SPwD)

bull SPwD seems to be the most common pattern of spinal TB

Anatomically the lesion could be 1 Paradiscal - destruction of

adjacent end plates and diminution of disc space

2 Appendeceal (Posterior) - involvement of pedicles laminae spinous process

3 Central - Cystic or lytic concertina collapse

4 Anterior ndashlongitudinal lig Aneurysmal phenomenon

5 Synovitis in post facet

History

bull Presentation depends on the following ndash Stage of disease ndash Site ndash Presence of complications such as neurologic deficits

abscesses or sinus tractsbull The reported average duration of symptoms at the time

of diagnosis is 3-4 months bull Back pain is the earliest and most common symptom

ndash Patients have usually had back pain for weeks prior to presentation

ndash Pain can be spinal or radicularbull Constitutional symptoms include fever and weight loss

bull Neurologic abnormalities occur in 50 of cases and can include spinal cord compression with paraplegia paresis impaired sensation nerve root pain or cauda equina syndrome

bull Cervical spine tuberculosis is a less common presentation is characterized by pain and stiffness

Patients with lower cervical spine disease can present with dysphagia or stridor

Symptoms can also include torticollis hoarseness and neurologic deficits

bull The clinical presentation of spinal tuberculosis in patients infected with the human immunodeficiency virus (HIV) is similar to that of patients who are HIV negative however the relative proportion of individuals who are HIV positive seems to be higher

Natural course of disease

bull 53 died within 10 yrs of onsetbull Early stage of healingndash focus surrounded by

sclerotic bone Ivory vertebrabull Early radiological sign of healingndash sharpening of

fuzzy paradiscal margins amp reappearance and minrralization of tuberculae

bull Several vertebrae destroyedndash fibrous tissuebull Disc space destroyed bony ankylosisbone

block formation

Lab Studiesbull Tuberculin skin test (purified protein derivative

[PPD]) demonstrates a positive finding in 84-95 of patients who are nonndashHIV-positive

bull Erythrocyte sedimentation rate (ESR) may be markedly elevated

bull The enzyme-linked immunosorbent assay (ELISA) has a reported sensitivity of 60 to 80 per cent

bull The polymerase chain reaction bull A brucella complement fixation test

bull IFN- Release Assays (IGRAs)bull Recently two in vitro assays that measure T

cell release of IFN- in response to stimulation with the highly tuberculosis-specific antigens ESAT-6 and CFP-10 have become commercially available

bull Microbiology studies to confirm diagnosis Obtain bone tissue or abscess samples to stain for acid-fast bacilli (AFB) and isolate organisms for culture and susceptibility CT-guided procedures can be used to guide percutaneous sampling of affected bone or soft tissue structures These study findings may be positive in only about 50 of the cases

X Ray appearances

bull Lytic destruction of anterior portion of vertebral body bull Increased anterior wedging bull Collapse of vertebral body bull Reactive sclerosis on a progressive lytic process bull Enlarged psoas shadow with or without calcificationbull Vertebral end plates are osteoporotic bull Intervertebral disks may be shrunk or destroyed bull Vertebral bodies show variable degrees of destruction bull Fusiform paravertebral shadows suggest abscess

formation bull Bone lesions may occur at more than one level

X Ray appearances

Discovertebral lesions detected in 93 of patients bull Localized fluffy osseous destruction with surrounding

osteoporosis is the earliest signs bull concentric collapse and may look like AVN bull Local lytic lesion may cause problem of diagnosis from

neoplasic lesion bull destruction of adjacent vertebrae Konstram (K) angle

appears and shows the progress on follow up bull Skipped lesion (10 cases) can be diagnosed on

suspicion and in correct size film

X-ray of the thoracolumbar spine (Lateral view) showing wedge collapse of L1 and L2 vertebral bodies

X-ray of the spine in a child showing complete destruction of D12 and L1 vertebral bodies leaving

only the pedicles

Kumarrsquos clinico-radiological Classification

stage features Usual duration

I Pre-destructive

Straightening spasm hyperemia in scinti

lt3 mo

II Early-destructive

Diminished space paradiscal erosion Knuckle lt10

2-4 mo

III Mild kyphos 2-3 verte k10-30 3-9 mo

IV Moderate kyphos

gt3 verte K30-60 6-24 mo

V Severe kyphos

gt3 verte Kgt60 gt2 years

CT scanning

bull CT scanning provides much better bony detail of irregular lytic lesions sclerosis disk collapse and disruption of bone circumference

bull Low-contrast resolution provides a better assessment of soft tissue particularly in epidural and paraspinal areas

bull It detects early lesions and is more effective for defining the shape and calcification of soft tissue abscesses

bull In contrast to pyogenic disease calcification is common in tuberculous lesions

MRI bull MRI is the criterion standard for evaluating disk

space infection and osteomyelitis of the spine bull MRI findings useful to differentiate tuberculous

spondylitis from pyogenic spondylitis include thin and smooth enhancement of the abscess wall and well-defined paraspinal abnormal signal

whereas thick and irregular enhancement of abscess wall and ill-defined paraspinal abnormal signal are suggestive of pyogenic spondylitis

bull contrast-enhanced MRI appears to be important in the differentiation of these two types of spondylitis

bull most effective for demonstrating neural compression

Myelographybull Spinal tumor syndromebull Multiple vertebral lesionsbull Patients not recovered after

decompression 1 Block present second decompression2 Block not present intrinsic damage

1Ischemic infarction 2Interstitial gliosis

3atrophy 4 tuberculous myelitis

5Myelomalacia

Differentials 1 Pyogenic infections2 Typhoid spine3 Brucella Spondylitis4 Mycotic Spondylitis5 Syphilitic6 Tumorous condition7 Primary malignant tumor 8 Multiple Myeloma9 Lymphomas10Secondary11Histocytosis-X12Spinal Osteochondrosis13Spondylolisthesis14Hydatid disease

Complications of tuberculosis

1 Paraplegia 2 Cold abscess3 Sinuses4 Secondary infection5 Amyloid disease6 Fatality

Tb spine with PARAPLEGIA

bull INCIDENCE 10-30bull Dorsal spine (MC)bull Motor functions affected before greater

than sensorybull Sense of position amp vibration last to

disappear

Patho of Tuberculoses Paraplegia1 Inflammatory Edema ndashvascular stasistoxin2 Extradural Mass ndash Tuberculous ostetis+

abscess3 Bony Disorder ndash Sequestra Internal Gibbus4 Meningeal changes ndash lsquodura as rule not

involvedrsquoExtradural grnulation --

contract cicatrization peridural fibrosis paraplegia

5 Infarction of spinal cord- Ant spinal artery

EndarteritisPeriarteritisThrombosis6 Changes in Spinal cord-

MyelomalacicSyringomyelic changeAtrophy ndashupto 50dec in dia-good functions

Seddonrsquos Classificationbull

GROUP A_-Early onset - This comes up in active stage of the disease within first 2 years

Compressive Agents are inflammatory edema granulation abscess casseous material sequestra and rarely ischaemic lesion

GROUP B -Late onset- Usually after 2 years of onset of the disease ndash due to recurrence or by mechanical pressure This can be better divided into

paraplegia with active disease and with healed disease

Active disease - Caseous material debris sequestrated disc or bone internal gibbus stenosis and deformity can cause compression

Healed disease - Usually internal gibbus and acute kyphotic deformity can also give late onset paraplegia Usually there is a continuous traction compression leading to paraplegia

Kumarrsquos classification oftuberculous paraplegia

stage Clinical features1 Negligible Unaware of neural deficit

Plantar extensor Ankle clonus2 Mild Walk with support

3 Moderate NonambulatoryParalysis in extentionsensory loss lt50

4 Severe 3+ paralysis in flexionsensory lossgt50 Sphinters involved

Evolution of treatment Pre-antitubercular erabull Artificial abscess- Pott in 1779bull Laminectomy amp laminotomy

chipault(1896 )bull Costo-transversectomy Menard in 1896bull Posterior mediastinotomybull Calves operation 1917bull Lateral rhachiotomy of carpener 1933bull Anterlateral decompression of Dottamp

Alexander1947

BASIC PRINCIPLES OFMANAGEMENT

10487291048729bull 10487291048729 Early diagnosisbull 10487291048729 Expeditious medical treatmentbull 10487291048729 Aggressive surgical approachbull 10487291048729 Prevent deformitybull 10487291048729 Expect good outcome

bull Studies performed by the British Medical Research Council indicate that tuberculous spondylitis of the thoracolumbar spine should be treated with combination chemotherapy for 6-9 months According to a 1994 recommendation by the US Centers for Disease Control and Prevention this is the treatment of choice

What is Middle path regimebull Admission rest in bed bull Chemotherapy bull X-ray amp ESR once in 3 monthsbull MRI CT at 6 months interval for 2 yearsbull Craniovertebral cervicodorsal lumbosacralamp

sacroiliac jointsbull Gradual mobilizationbull 3-9 weeks- back extention exercise 5-10 min 3-4

timesbull Spinal brace--- 18 months-2 years

bull Abcesses ndash aspirate near surface bull Instille 1gm Streptomycin +- INH in solbull Sinus heals 6-12 weeksbull Neural complications if responds 3-4 weeks -

surgery unnecssarybull Excisional surgery for posterior spinal diseasebull Operative debridement for patients ndashif no arrest

after 3-6 months- spinal arthrodesis (recommended)

bull Post op--Spinal brace--- 18 months-2 years

Drugs in middle path

phase duration drug

Intensive 5-6 months

INH 300-400mg

Rifampicin ofloxacin400-600mg streptomycin

Continuation

7-8 months

-do 3-4mth Pyrazinamide 1500mg4-5mth Rifampicin

Prophylactic

4-5 months

-do Ethambutol 1200mg

Surgical indications1 No sign of Neurological recovery after trial of 3-4

weeks therapy2 Neurological complication during treatment3 Neuro deficit becoming worse4 Recurrence of neuro complication5 Prevertebral cervical abscessesneurological

signsamp difficulty in deglutitionamp respiration6 Advanced cases- Sphincter involvement

flaccid paralysisSevere flexor spasms

Other indicationsbull Recurrent paraplegiabull Painful paraplegiandash dt root compressionetcbull Posterior spinal disease--involving the post

elements of vertbbull Spinal tumor syndrome resulting in cord

compressionbull Rapid onset paraplegia due to thrombosistrauma

etcbull Severe paraplegiabull Secondary to cervical disease and bull cauda equina paralysis

1 Decompression +- fusion

Failed responseToo advanced

2 Debridement+- fusion

Failed response after 3-6 monthsDoubtful diagnosisInstability

3 Debridement +-DECOMP+- fusion

Recrudescence of disease

4 Debridement+- fusion

Prevent severe Kyphosis

5 Anterior transpostion

Severe Kyphosis +neural deficit

6 Laminectomy STSsecondary stenosis posterior disease

APPROACH1 Cervical spine ndash Anterior retropharyngeal

(smith-Robinsonrsquos) Anterior approach ndash AnteriorMedial

border of sternocleidomastoid2 Dorsal spine (D1 to L1) ndash

1 Transthoraccic transpleural 2 Anterolateral decompression(D2 ndash

L1)3 Lumbar spine ndash Anterolateral(Lumbovertebrotomy) Extraperitoneal Ant approach

Tulirsquos recommended approch

bull Cervical spine ndashT1 Anterior approchbull Dorsal spine ndashDL junction Antrolateral

approchbull Lumbar spine ampLumboscral junction

Extraperitoneal Transverse Vertebrotomy

Surgical technique

bull Costotransversectomyndash in tense paravertebral abscess

removendash transverse process rib ndash 2 inchs

Anterolateral decompressionbull Posterior part of ribbull Transverse processbull Pediclebull Part of the vertebral bodybull Griffith Seddon Roaf -- prone position

bull Tuli --- right lateral positionbull Advantage- 1 avoid venous congestion 2 avoid excessive bleeding 3 permits freer respiration 4 better look at site

Posterior Spinal Arthrodesisbull Byndash Albee amp Hibbsbull Albeendash tibial graft inserted longitudinally in to

the split spinous vertebral processbull Hibbsndash overlapping numerous small osseous flap

from contiguous laminae spinous process amp articular facets

bull Indicationsndash 1 mechanical instability 2 to stabilise craniovertebral region 3 as part of panvertebral operation

DYNAMIC CAGE GovenderampPrabhoo

SYNTHES PLATE WITHSAPCER

Yilmaz C Selek HY et al Anterior instrumentation for the Treatment of Spinal Tuberculosis J Bone and

Joint Surg 1999 81-A 1261-67

bull ldquowe feel that every attempt should be made to minimize this deformity with some form of instrumentation wherever indicated and preferably anteriorlyrsquordquo

Thank youThank you

  • Pottrsquos spine
  • Pottrsquos disease
  • Slide 3
  • Regional Distribution
  • Pathophysiology
  • Slide 6
  • Slide 7
  • Slide 8
  • Slide 9
  • Anatomically the lesion could be
  • History
  • Slide 12
  • Slide 13
  • Natural course of disease
  • Lab Studies
  • Slide 16
  • Slide 17
  • X Ray appearances
  • Slide 19
  • Slide 20
  • X-ray of the thoracolumbar spine (Lateral view) showing wedge collapse of L1 and L2 vertebral bodies
  • X-ray of the spine in a child showing complete destruction of D12 and L1 vertebral bodies leaving only the pedicles
  • Kumarrsquos clinico-radiological Classification
  • CT scanning
  • MRI
  • Slide 26
  • Myelography
  • Slide 28
  • Differentials
  • Complications of tuberculosis
  • Tb spine with PARAPLEGIA
  • Patho of Tuberculoses Paraplegia
  • Slide 33
  • Seddonrsquos Classification
  • Kumarrsquos classification of tuberculous paraplegia
  • Evolution of treatment
  • BASIC PRINCIPLES OF MANAGEMENT 10487291048729
  • Slide 38
  • What is Middle path regime
  • Slide 40
  • Drugs in middle path
  • Slide 43
  • Surgical indications
  • Other indications
  • Slide 46
  • APPROACH
  • Tulirsquos recommended approch
  • Surgical technique
  • Anterolateral decompression
  • Posterior Spinal Arthrodesis
  • DYNAMIC CAGE GovenderampPrabhoo
  • SYNTHES PLATE WITH SAPCER
  • Yilmaz C Selek HY et al Anterior instrumentation for the Treatment of Spinal Tuberculosis J Bone and Joint Surg 1999 81-A 1261-67
Page 8: Pott Disease

The lesion could bebull Florid - invasive and destructive lesion bull Non destructive - lesion suspected clinically but

identifiable by modern investigations like CT scan or MRI

bull Encysted disease bull Carries sicca bull Hypertrophied bull Periosteal lesion

bull Recently two distinct patterns of spinal TB can be identified the classic form called spondylodiscitis (SPD) a

bull atypical form characterized by spondylitis without disk involvement (SPwD)

bull SPwD seems to be the most common pattern of spinal TB

Anatomically the lesion could be 1 Paradiscal - destruction of

adjacent end plates and diminution of disc space

2 Appendeceal (Posterior) - involvement of pedicles laminae spinous process

3 Central - Cystic or lytic concertina collapse

4 Anterior ndashlongitudinal lig Aneurysmal phenomenon

5 Synovitis in post facet

History

bull Presentation depends on the following ndash Stage of disease ndash Site ndash Presence of complications such as neurologic deficits

abscesses or sinus tractsbull The reported average duration of symptoms at the time

of diagnosis is 3-4 months bull Back pain is the earliest and most common symptom

ndash Patients have usually had back pain for weeks prior to presentation

ndash Pain can be spinal or radicularbull Constitutional symptoms include fever and weight loss

bull Neurologic abnormalities occur in 50 of cases and can include spinal cord compression with paraplegia paresis impaired sensation nerve root pain or cauda equina syndrome

bull Cervical spine tuberculosis is a less common presentation is characterized by pain and stiffness

Patients with lower cervical spine disease can present with dysphagia or stridor

Symptoms can also include torticollis hoarseness and neurologic deficits

bull The clinical presentation of spinal tuberculosis in patients infected with the human immunodeficiency virus (HIV) is similar to that of patients who are HIV negative however the relative proportion of individuals who are HIV positive seems to be higher

Natural course of disease

bull 53 died within 10 yrs of onsetbull Early stage of healingndash focus surrounded by

sclerotic bone Ivory vertebrabull Early radiological sign of healingndash sharpening of

fuzzy paradiscal margins amp reappearance and minrralization of tuberculae

bull Several vertebrae destroyedndash fibrous tissuebull Disc space destroyed bony ankylosisbone

block formation

Lab Studiesbull Tuberculin skin test (purified protein derivative

[PPD]) demonstrates a positive finding in 84-95 of patients who are nonndashHIV-positive

bull Erythrocyte sedimentation rate (ESR) may be markedly elevated

bull The enzyme-linked immunosorbent assay (ELISA) has a reported sensitivity of 60 to 80 per cent

bull The polymerase chain reaction bull A brucella complement fixation test

bull IFN- Release Assays (IGRAs)bull Recently two in vitro assays that measure T

cell release of IFN- in response to stimulation with the highly tuberculosis-specific antigens ESAT-6 and CFP-10 have become commercially available

bull Microbiology studies to confirm diagnosis Obtain bone tissue or abscess samples to stain for acid-fast bacilli (AFB) and isolate organisms for culture and susceptibility CT-guided procedures can be used to guide percutaneous sampling of affected bone or soft tissue structures These study findings may be positive in only about 50 of the cases

X Ray appearances

bull Lytic destruction of anterior portion of vertebral body bull Increased anterior wedging bull Collapse of vertebral body bull Reactive sclerosis on a progressive lytic process bull Enlarged psoas shadow with or without calcificationbull Vertebral end plates are osteoporotic bull Intervertebral disks may be shrunk or destroyed bull Vertebral bodies show variable degrees of destruction bull Fusiform paravertebral shadows suggest abscess

formation bull Bone lesions may occur at more than one level

X Ray appearances

Discovertebral lesions detected in 93 of patients bull Localized fluffy osseous destruction with surrounding

osteoporosis is the earliest signs bull concentric collapse and may look like AVN bull Local lytic lesion may cause problem of diagnosis from

neoplasic lesion bull destruction of adjacent vertebrae Konstram (K) angle

appears and shows the progress on follow up bull Skipped lesion (10 cases) can be diagnosed on

suspicion and in correct size film

X-ray of the thoracolumbar spine (Lateral view) showing wedge collapse of L1 and L2 vertebral bodies

X-ray of the spine in a child showing complete destruction of D12 and L1 vertebral bodies leaving

only the pedicles

Kumarrsquos clinico-radiological Classification

stage features Usual duration

I Pre-destructive

Straightening spasm hyperemia in scinti

lt3 mo

II Early-destructive

Diminished space paradiscal erosion Knuckle lt10

2-4 mo

III Mild kyphos 2-3 verte k10-30 3-9 mo

IV Moderate kyphos

gt3 verte K30-60 6-24 mo

V Severe kyphos

gt3 verte Kgt60 gt2 years

CT scanning

bull CT scanning provides much better bony detail of irregular lytic lesions sclerosis disk collapse and disruption of bone circumference

bull Low-contrast resolution provides a better assessment of soft tissue particularly in epidural and paraspinal areas

bull It detects early lesions and is more effective for defining the shape and calcification of soft tissue abscesses

bull In contrast to pyogenic disease calcification is common in tuberculous lesions

MRI bull MRI is the criterion standard for evaluating disk

space infection and osteomyelitis of the spine bull MRI findings useful to differentiate tuberculous

spondylitis from pyogenic spondylitis include thin and smooth enhancement of the abscess wall and well-defined paraspinal abnormal signal

whereas thick and irregular enhancement of abscess wall and ill-defined paraspinal abnormal signal are suggestive of pyogenic spondylitis

bull contrast-enhanced MRI appears to be important in the differentiation of these two types of spondylitis

bull most effective for demonstrating neural compression

Myelographybull Spinal tumor syndromebull Multiple vertebral lesionsbull Patients not recovered after

decompression 1 Block present second decompression2 Block not present intrinsic damage

1Ischemic infarction 2Interstitial gliosis

3atrophy 4 tuberculous myelitis

5Myelomalacia

Differentials 1 Pyogenic infections2 Typhoid spine3 Brucella Spondylitis4 Mycotic Spondylitis5 Syphilitic6 Tumorous condition7 Primary malignant tumor 8 Multiple Myeloma9 Lymphomas10Secondary11Histocytosis-X12Spinal Osteochondrosis13Spondylolisthesis14Hydatid disease

Complications of tuberculosis

1 Paraplegia 2 Cold abscess3 Sinuses4 Secondary infection5 Amyloid disease6 Fatality

Tb spine with PARAPLEGIA

bull INCIDENCE 10-30bull Dorsal spine (MC)bull Motor functions affected before greater

than sensorybull Sense of position amp vibration last to

disappear

Patho of Tuberculoses Paraplegia1 Inflammatory Edema ndashvascular stasistoxin2 Extradural Mass ndash Tuberculous ostetis+

abscess3 Bony Disorder ndash Sequestra Internal Gibbus4 Meningeal changes ndash lsquodura as rule not

involvedrsquoExtradural grnulation --

contract cicatrization peridural fibrosis paraplegia

5 Infarction of spinal cord- Ant spinal artery

EndarteritisPeriarteritisThrombosis6 Changes in Spinal cord-

MyelomalacicSyringomyelic changeAtrophy ndashupto 50dec in dia-good functions

Seddonrsquos Classificationbull

GROUP A_-Early onset - This comes up in active stage of the disease within first 2 years

Compressive Agents are inflammatory edema granulation abscess casseous material sequestra and rarely ischaemic lesion

GROUP B -Late onset- Usually after 2 years of onset of the disease ndash due to recurrence or by mechanical pressure This can be better divided into

paraplegia with active disease and with healed disease

Active disease - Caseous material debris sequestrated disc or bone internal gibbus stenosis and deformity can cause compression

Healed disease - Usually internal gibbus and acute kyphotic deformity can also give late onset paraplegia Usually there is a continuous traction compression leading to paraplegia

Kumarrsquos classification oftuberculous paraplegia

stage Clinical features1 Negligible Unaware of neural deficit

Plantar extensor Ankle clonus2 Mild Walk with support

3 Moderate NonambulatoryParalysis in extentionsensory loss lt50

4 Severe 3+ paralysis in flexionsensory lossgt50 Sphinters involved

Evolution of treatment Pre-antitubercular erabull Artificial abscess- Pott in 1779bull Laminectomy amp laminotomy

chipault(1896 )bull Costo-transversectomy Menard in 1896bull Posterior mediastinotomybull Calves operation 1917bull Lateral rhachiotomy of carpener 1933bull Anterlateral decompression of Dottamp

Alexander1947

BASIC PRINCIPLES OFMANAGEMENT

10487291048729bull 10487291048729 Early diagnosisbull 10487291048729 Expeditious medical treatmentbull 10487291048729 Aggressive surgical approachbull 10487291048729 Prevent deformitybull 10487291048729 Expect good outcome

bull Studies performed by the British Medical Research Council indicate that tuberculous spondylitis of the thoracolumbar spine should be treated with combination chemotherapy for 6-9 months According to a 1994 recommendation by the US Centers for Disease Control and Prevention this is the treatment of choice

What is Middle path regimebull Admission rest in bed bull Chemotherapy bull X-ray amp ESR once in 3 monthsbull MRI CT at 6 months interval for 2 yearsbull Craniovertebral cervicodorsal lumbosacralamp

sacroiliac jointsbull Gradual mobilizationbull 3-9 weeks- back extention exercise 5-10 min 3-4

timesbull Spinal brace--- 18 months-2 years

bull Abcesses ndash aspirate near surface bull Instille 1gm Streptomycin +- INH in solbull Sinus heals 6-12 weeksbull Neural complications if responds 3-4 weeks -

surgery unnecssarybull Excisional surgery for posterior spinal diseasebull Operative debridement for patients ndashif no arrest

after 3-6 months- spinal arthrodesis (recommended)

bull Post op--Spinal brace--- 18 months-2 years

Drugs in middle path

phase duration drug

Intensive 5-6 months

INH 300-400mg

Rifampicin ofloxacin400-600mg streptomycin

Continuation

7-8 months

-do 3-4mth Pyrazinamide 1500mg4-5mth Rifampicin

Prophylactic

4-5 months

-do Ethambutol 1200mg

Surgical indications1 No sign of Neurological recovery after trial of 3-4

weeks therapy2 Neurological complication during treatment3 Neuro deficit becoming worse4 Recurrence of neuro complication5 Prevertebral cervical abscessesneurological

signsamp difficulty in deglutitionamp respiration6 Advanced cases- Sphincter involvement

flaccid paralysisSevere flexor spasms

Other indicationsbull Recurrent paraplegiabull Painful paraplegiandash dt root compressionetcbull Posterior spinal disease--involving the post

elements of vertbbull Spinal tumor syndrome resulting in cord

compressionbull Rapid onset paraplegia due to thrombosistrauma

etcbull Severe paraplegiabull Secondary to cervical disease and bull cauda equina paralysis

1 Decompression +- fusion

Failed responseToo advanced

2 Debridement+- fusion

Failed response after 3-6 monthsDoubtful diagnosisInstability

3 Debridement +-DECOMP+- fusion

Recrudescence of disease

4 Debridement+- fusion

Prevent severe Kyphosis

5 Anterior transpostion

Severe Kyphosis +neural deficit

6 Laminectomy STSsecondary stenosis posterior disease

APPROACH1 Cervical spine ndash Anterior retropharyngeal

(smith-Robinsonrsquos) Anterior approach ndash AnteriorMedial

border of sternocleidomastoid2 Dorsal spine (D1 to L1) ndash

1 Transthoraccic transpleural 2 Anterolateral decompression(D2 ndash

L1)3 Lumbar spine ndash Anterolateral(Lumbovertebrotomy) Extraperitoneal Ant approach

Tulirsquos recommended approch

bull Cervical spine ndashT1 Anterior approchbull Dorsal spine ndashDL junction Antrolateral

approchbull Lumbar spine ampLumboscral junction

Extraperitoneal Transverse Vertebrotomy

Surgical technique

bull Costotransversectomyndash in tense paravertebral abscess

removendash transverse process rib ndash 2 inchs

Anterolateral decompressionbull Posterior part of ribbull Transverse processbull Pediclebull Part of the vertebral bodybull Griffith Seddon Roaf -- prone position

bull Tuli --- right lateral positionbull Advantage- 1 avoid venous congestion 2 avoid excessive bleeding 3 permits freer respiration 4 better look at site

Posterior Spinal Arthrodesisbull Byndash Albee amp Hibbsbull Albeendash tibial graft inserted longitudinally in to

the split spinous vertebral processbull Hibbsndash overlapping numerous small osseous flap

from contiguous laminae spinous process amp articular facets

bull Indicationsndash 1 mechanical instability 2 to stabilise craniovertebral region 3 as part of panvertebral operation

DYNAMIC CAGE GovenderampPrabhoo

SYNTHES PLATE WITHSAPCER

Yilmaz C Selek HY et al Anterior instrumentation for the Treatment of Spinal Tuberculosis J Bone and

Joint Surg 1999 81-A 1261-67

bull ldquowe feel that every attempt should be made to minimize this deformity with some form of instrumentation wherever indicated and preferably anteriorlyrsquordquo

Thank youThank you

  • Pottrsquos spine
  • Pottrsquos disease
  • Slide 3
  • Regional Distribution
  • Pathophysiology
  • Slide 6
  • Slide 7
  • Slide 8
  • Slide 9
  • Anatomically the lesion could be
  • History
  • Slide 12
  • Slide 13
  • Natural course of disease
  • Lab Studies
  • Slide 16
  • Slide 17
  • X Ray appearances
  • Slide 19
  • Slide 20
  • X-ray of the thoracolumbar spine (Lateral view) showing wedge collapse of L1 and L2 vertebral bodies
  • X-ray of the spine in a child showing complete destruction of D12 and L1 vertebral bodies leaving only the pedicles
  • Kumarrsquos clinico-radiological Classification
  • CT scanning
  • MRI
  • Slide 26
  • Myelography
  • Slide 28
  • Differentials
  • Complications of tuberculosis
  • Tb spine with PARAPLEGIA
  • Patho of Tuberculoses Paraplegia
  • Slide 33
  • Seddonrsquos Classification
  • Kumarrsquos classification of tuberculous paraplegia
  • Evolution of treatment
  • BASIC PRINCIPLES OF MANAGEMENT 10487291048729
  • Slide 38
  • What is Middle path regime
  • Slide 40
  • Drugs in middle path
  • Slide 43
  • Surgical indications
  • Other indications
  • Slide 46
  • APPROACH
  • Tulirsquos recommended approch
  • Surgical technique
  • Anterolateral decompression
  • Posterior Spinal Arthrodesis
  • DYNAMIC CAGE GovenderampPrabhoo
  • SYNTHES PLATE WITH SAPCER
  • Yilmaz C Selek HY et al Anterior instrumentation for the Treatment of Spinal Tuberculosis J Bone and Joint Surg 1999 81-A 1261-67
Page 9: Pott Disease

bull Recently two distinct patterns of spinal TB can be identified the classic form called spondylodiscitis (SPD) a

bull atypical form characterized by spondylitis without disk involvement (SPwD)

bull SPwD seems to be the most common pattern of spinal TB

Anatomically the lesion could be 1 Paradiscal - destruction of

adjacent end plates and diminution of disc space

2 Appendeceal (Posterior) - involvement of pedicles laminae spinous process

3 Central - Cystic or lytic concertina collapse

4 Anterior ndashlongitudinal lig Aneurysmal phenomenon

5 Synovitis in post facet

History

bull Presentation depends on the following ndash Stage of disease ndash Site ndash Presence of complications such as neurologic deficits

abscesses or sinus tractsbull The reported average duration of symptoms at the time

of diagnosis is 3-4 months bull Back pain is the earliest and most common symptom

ndash Patients have usually had back pain for weeks prior to presentation

ndash Pain can be spinal or radicularbull Constitutional symptoms include fever and weight loss

bull Neurologic abnormalities occur in 50 of cases and can include spinal cord compression with paraplegia paresis impaired sensation nerve root pain or cauda equina syndrome

bull Cervical spine tuberculosis is a less common presentation is characterized by pain and stiffness

Patients with lower cervical spine disease can present with dysphagia or stridor

Symptoms can also include torticollis hoarseness and neurologic deficits

bull The clinical presentation of spinal tuberculosis in patients infected with the human immunodeficiency virus (HIV) is similar to that of patients who are HIV negative however the relative proportion of individuals who are HIV positive seems to be higher

Natural course of disease

bull 53 died within 10 yrs of onsetbull Early stage of healingndash focus surrounded by

sclerotic bone Ivory vertebrabull Early radiological sign of healingndash sharpening of

fuzzy paradiscal margins amp reappearance and minrralization of tuberculae

bull Several vertebrae destroyedndash fibrous tissuebull Disc space destroyed bony ankylosisbone

block formation

Lab Studiesbull Tuberculin skin test (purified protein derivative

[PPD]) demonstrates a positive finding in 84-95 of patients who are nonndashHIV-positive

bull Erythrocyte sedimentation rate (ESR) may be markedly elevated

bull The enzyme-linked immunosorbent assay (ELISA) has a reported sensitivity of 60 to 80 per cent

bull The polymerase chain reaction bull A brucella complement fixation test

bull IFN- Release Assays (IGRAs)bull Recently two in vitro assays that measure T

cell release of IFN- in response to stimulation with the highly tuberculosis-specific antigens ESAT-6 and CFP-10 have become commercially available

bull Microbiology studies to confirm diagnosis Obtain bone tissue or abscess samples to stain for acid-fast bacilli (AFB) and isolate organisms for culture and susceptibility CT-guided procedures can be used to guide percutaneous sampling of affected bone or soft tissue structures These study findings may be positive in only about 50 of the cases

X Ray appearances

bull Lytic destruction of anterior portion of vertebral body bull Increased anterior wedging bull Collapse of vertebral body bull Reactive sclerosis on a progressive lytic process bull Enlarged psoas shadow with or without calcificationbull Vertebral end plates are osteoporotic bull Intervertebral disks may be shrunk or destroyed bull Vertebral bodies show variable degrees of destruction bull Fusiform paravertebral shadows suggest abscess

formation bull Bone lesions may occur at more than one level

X Ray appearances

Discovertebral lesions detected in 93 of patients bull Localized fluffy osseous destruction with surrounding

osteoporosis is the earliest signs bull concentric collapse and may look like AVN bull Local lytic lesion may cause problem of diagnosis from

neoplasic lesion bull destruction of adjacent vertebrae Konstram (K) angle

appears and shows the progress on follow up bull Skipped lesion (10 cases) can be diagnosed on

suspicion and in correct size film

X-ray of the thoracolumbar spine (Lateral view) showing wedge collapse of L1 and L2 vertebral bodies

X-ray of the spine in a child showing complete destruction of D12 and L1 vertebral bodies leaving

only the pedicles

Kumarrsquos clinico-radiological Classification

stage features Usual duration

I Pre-destructive

Straightening spasm hyperemia in scinti

lt3 mo

II Early-destructive

Diminished space paradiscal erosion Knuckle lt10

2-4 mo

III Mild kyphos 2-3 verte k10-30 3-9 mo

IV Moderate kyphos

gt3 verte K30-60 6-24 mo

V Severe kyphos

gt3 verte Kgt60 gt2 years

CT scanning

bull CT scanning provides much better bony detail of irregular lytic lesions sclerosis disk collapse and disruption of bone circumference

bull Low-contrast resolution provides a better assessment of soft tissue particularly in epidural and paraspinal areas

bull It detects early lesions and is more effective for defining the shape and calcification of soft tissue abscesses

bull In contrast to pyogenic disease calcification is common in tuberculous lesions

MRI bull MRI is the criterion standard for evaluating disk

space infection and osteomyelitis of the spine bull MRI findings useful to differentiate tuberculous

spondylitis from pyogenic spondylitis include thin and smooth enhancement of the abscess wall and well-defined paraspinal abnormal signal

whereas thick and irregular enhancement of abscess wall and ill-defined paraspinal abnormal signal are suggestive of pyogenic spondylitis

bull contrast-enhanced MRI appears to be important in the differentiation of these two types of spondylitis

bull most effective for demonstrating neural compression

Myelographybull Spinal tumor syndromebull Multiple vertebral lesionsbull Patients not recovered after

decompression 1 Block present second decompression2 Block not present intrinsic damage

1Ischemic infarction 2Interstitial gliosis

3atrophy 4 tuberculous myelitis

5Myelomalacia

Differentials 1 Pyogenic infections2 Typhoid spine3 Brucella Spondylitis4 Mycotic Spondylitis5 Syphilitic6 Tumorous condition7 Primary malignant tumor 8 Multiple Myeloma9 Lymphomas10Secondary11Histocytosis-X12Spinal Osteochondrosis13Spondylolisthesis14Hydatid disease

Complications of tuberculosis

1 Paraplegia 2 Cold abscess3 Sinuses4 Secondary infection5 Amyloid disease6 Fatality

Tb spine with PARAPLEGIA

bull INCIDENCE 10-30bull Dorsal spine (MC)bull Motor functions affected before greater

than sensorybull Sense of position amp vibration last to

disappear

Patho of Tuberculoses Paraplegia1 Inflammatory Edema ndashvascular stasistoxin2 Extradural Mass ndash Tuberculous ostetis+

abscess3 Bony Disorder ndash Sequestra Internal Gibbus4 Meningeal changes ndash lsquodura as rule not

involvedrsquoExtradural grnulation --

contract cicatrization peridural fibrosis paraplegia

5 Infarction of spinal cord- Ant spinal artery

EndarteritisPeriarteritisThrombosis6 Changes in Spinal cord-

MyelomalacicSyringomyelic changeAtrophy ndashupto 50dec in dia-good functions

Seddonrsquos Classificationbull

GROUP A_-Early onset - This comes up in active stage of the disease within first 2 years

Compressive Agents are inflammatory edema granulation abscess casseous material sequestra and rarely ischaemic lesion

GROUP B -Late onset- Usually after 2 years of onset of the disease ndash due to recurrence or by mechanical pressure This can be better divided into

paraplegia with active disease and with healed disease

Active disease - Caseous material debris sequestrated disc or bone internal gibbus stenosis and deformity can cause compression

Healed disease - Usually internal gibbus and acute kyphotic deformity can also give late onset paraplegia Usually there is a continuous traction compression leading to paraplegia

Kumarrsquos classification oftuberculous paraplegia

stage Clinical features1 Negligible Unaware of neural deficit

Plantar extensor Ankle clonus2 Mild Walk with support

3 Moderate NonambulatoryParalysis in extentionsensory loss lt50

4 Severe 3+ paralysis in flexionsensory lossgt50 Sphinters involved

Evolution of treatment Pre-antitubercular erabull Artificial abscess- Pott in 1779bull Laminectomy amp laminotomy

chipault(1896 )bull Costo-transversectomy Menard in 1896bull Posterior mediastinotomybull Calves operation 1917bull Lateral rhachiotomy of carpener 1933bull Anterlateral decompression of Dottamp

Alexander1947

BASIC PRINCIPLES OFMANAGEMENT

10487291048729bull 10487291048729 Early diagnosisbull 10487291048729 Expeditious medical treatmentbull 10487291048729 Aggressive surgical approachbull 10487291048729 Prevent deformitybull 10487291048729 Expect good outcome

bull Studies performed by the British Medical Research Council indicate that tuberculous spondylitis of the thoracolumbar spine should be treated with combination chemotherapy for 6-9 months According to a 1994 recommendation by the US Centers for Disease Control and Prevention this is the treatment of choice

What is Middle path regimebull Admission rest in bed bull Chemotherapy bull X-ray amp ESR once in 3 monthsbull MRI CT at 6 months interval for 2 yearsbull Craniovertebral cervicodorsal lumbosacralamp

sacroiliac jointsbull Gradual mobilizationbull 3-9 weeks- back extention exercise 5-10 min 3-4

timesbull Spinal brace--- 18 months-2 years

bull Abcesses ndash aspirate near surface bull Instille 1gm Streptomycin +- INH in solbull Sinus heals 6-12 weeksbull Neural complications if responds 3-4 weeks -

surgery unnecssarybull Excisional surgery for posterior spinal diseasebull Operative debridement for patients ndashif no arrest

after 3-6 months- spinal arthrodesis (recommended)

bull Post op--Spinal brace--- 18 months-2 years

Drugs in middle path

phase duration drug

Intensive 5-6 months

INH 300-400mg

Rifampicin ofloxacin400-600mg streptomycin

Continuation

7-8 months

-do 3-4mth Pyrazinamide 1500mg4-5mth Rifampicin

Prophylactic

4-5 months

-do Ethambutol 1200mg

Surgical indications1 No sign of Neurological recovery after trial of 3-4

weeks therapy2 Neurological complication during treatment3 Neuro deficit becoming worse4 Recurrence of neuro complication5 Prevertebral cervical abscessesneurological

signsamp difficulty in deglutitionamp respiration6 Advanced cases- Sphincter involvement

flaccid paralysisSevere flexor spasms

Other indicationsbull Recurrent paraplegiabull Painful paraplegiandash dt root compressionetcbull Posterior spinal disease--involving the post

elements of vertbbull Spinal tumor syndrome resulting in cord

compressionbull Rapid onset paraplegia due to thrombosistrauma

etcbull Severe paraplegiabull Secondary to cervical disease and bull cauda equina paralysis

1 Decompression +- fusion

Failed responseToo advanced

2 Debridement+- fusion

Failed response after 3-6 monthsDoubtful diagnosisInstability

3 Debridement +-DECOMP+- fusion

Recrudescence of disease

4 Debridement+- fusion

Prevent severe Kyphosis

5 Anterior transpostion

Severe Kyphosis +neural deficit

6 Laminectomy STSsecondary stenosis posterior disease

APPROACH1 Cervical spine ndash Anterior retropharyngeal

(smith-Robinsonrsquos) Anterior approach ndash AnteriorMedial

border of sternocleidomastoid2 Dorsal spine (D1 to L1) ndash

1 Transthoraccic transpleural 2 Anterolateral decompression(D2 ndash

L1)3 Lumbar spine ndash Anterolateral(Lumbovertebrotomy) Extraperitoneal Ant approach

Tulirsquos recommended approch

bull Cervical spine ndashT1 Anterior approchbull Dorsal spine ndashDL junction Antrolateral

approchbull Lumbar spine ampLumboscral junction

Extraperitoneal Transverse Vertebrotomy

Surgical technique

bull Costotransversectomyndash in tense paravertebral abscess

removendash transverse process rib ndash 2 inchs

Anterolateral decompressionbull Posterior part of ribbull Transverse processbull Pediclebull Part of the vertebral bodybull Griffith Seddon Roaf -- prone position

bull Tuli --- right lateral positionbull Advantage- 1 avoid venous congestion 2 avoid excessive bleeding 3 permits freer respiration 4 better look at site

Posterior Spinal Arthrodesisbull Byndash Albee amp Hibbsbull Albeendash tibial graft inserted longitudinally in to

the split spinous vertebral processbull Hibbsndash overlapping numerous small osseous flap

from contiguous laminae spinous process amp articular facets

bull Indicationsndash 1 mechanical instability 2 to stabilise craniovertebral region 3 as part of panvertebral operation

DYNAMIC CAGE GovenderampPrabhoo

SYNTHES PLATE WITHSAPCER

Yilmaz C Selek HY et al Anterior instrumentation for the Treatment of Spinal Tuberculosis J Bone and

Joint Surg 1999 81-A 1261-67

bull ldquowe feel that every attempt should be made to minimize this deformity with some form of instrumentation wherever indicated and preferably anteriorlyrsquordquo

Thank youThank you

  • Pottrsquos spine
  • Pottrsquos disease
  • Slide 3
  • Regional Distribution
  • Pathophysiology
  • Slide 6
  • Slide 7
  • Slide 8
  • Slide 9
  • Anatomically the lesion could be
  • History
  • Slide 12
  • Slide 13
  • Natural course of disease
  • Lab Studies
  • Slide 16
  • Slide 17
  • X Ray appearances
  • Slide 19
  • Slide 20
  • X-ray of the thoracolumbar spine (Lateral view) showing wedge collapse of L1 and L2 vertebral bodies
  • X-ray of the spine in a child showing complete destruction of D12 and L1 vertebral bodies leaving only the pedicles
  • Kumarrsquos clinico-radiological Classification
  • CT scanning
  • MRI
  • Slide 26
  • Myelography
  • Slide 28
  • Differentials
  • Complications of tuberculosis
  • Tb spine with PARAPLEGIA
  • Patho of Tuberculoses Paraplegia
  • Slide 33
  • Seddonrsquos Classification
  • Kumarrsquos classification of tuberculous paraplegia
  • Evolution of treatment
  • BASIC PRINCIPLES OF MANAGEMENT 10487291048729
  • Slide 38
  • What is Middle path regime
  • Slide 40
  • Drugs in middle path
  • Slide 43
  • Surgical indications
  • Other indications
  • Slide 46
  • APPROACH
  • Tulirsquos recommended approch
  • Surgical technique
  • Anterolateral decompression
  • Posterior Spinal Arthrodesis
  • DYNAMIC CAGE GovenderampPrabhoo
  • SYNTHES PLATE WITH SAPCER
  • Yilmaz C Selek HY et al Anterior instrumentation for the Treatment of Spinal Tuberculosis J Bone and Joint Surg 1999 81-A 1261-67
Page 10: Pott Disease

Anatomically the lesion could be 1 Paradiscal - destruction of

adjacent end plates and diminution of disc space

2 Appendeceal (Posterior) - involvement of pedicles laminae spinous process

3 Central - Cystic or lytic concertina collapse

4 Anterior ndashlongitudinal lig Aneurysmal phenomenon

5 Synovitis in post facet

History

bull Presentation depends on the following ndash Stage of disease ndash Site ndash Presence of complications such as neurologic deficits

abscesses or sinus tractsbull The reported average duration of symptoms at the time

of diagnosis is 3-4 months bull Back pain is the earliest and most common symptom

ndash Patients have usually had back pain for weeks prior to presentation

ndash Pain can be spinal or radicularbull Constitutional symptoms include fever and weight loss

bull Neurologic abnormalities occur in 50 of cases and can include spinal cord compression with paraplegia paresis impaired sensation nerve root pain or cauda equina syndrome

bull Cervical spine tuberculosis is a less common presentation is characterized by pain and stiffness

Patients with lower cervical spine disease can present with dysphagia or stridor

Symptoms can also include torticollis hoarseness and neurologic deficits

bull The clinical presentation of spinal tuberculosis in patients infected with the human immunodeficiency virus (HIV) is similar to that of patients who are HIV negative however the relative proportion of individuals who are HIV positive seems to be higher

Natural course of disease

bull 53 died within 10 yrs of onsetbull Early stage of healingndash focus surrounded by

sclerotic bone Ivory vertebrabull Early radiological sign of healingndash sharpening of

fuzzy paradiscal margins amp reappearance and minrralization of tuberculae

bull Several vertebrae destroyedndash fibrous tissuebull Disc space destroyed bony ankylosisbone

block formation

Lab Studiesbull Tuberculin skin test (purified protein derivative

[PPD]) demonstrates a positive finding in 84-95 of patients who are nonndashHIV-positive

bull Erythrocyte sedimentation rate (ESR) may be markedly elevated

bull The enzyme-linked immunosorbent assay (ELISA) has a reported sensitivity of 60 to 80 per cent

bull The polymerase chain reaction bull A brucella complement fixation test

bull IFN- Release Assays (IGRAs)bull Recently two in vitro assays that measure T

cell release of IFN- in response to stimulation with the highly tuberculosis-specific antigens ESAT-6 and CFP-10 have become commercially available

bull Microbiology studies to confirm diagnosis Obtain bone tissue or abscess samples to stain for acid-fast bacilli (AFB) and isolate organisms for culture and susceptibility CT-guided procedures can be used to guide percutaneous sampling of affected bone or soft tissue structures These study findings may be positive in only about 50 of the cases

X Ray appearances

bull Lytic destruction of anterior portion of vertebral body bull Increased anterior wedging bull Collapse of vertebral body bull Reactive sclerosis on a progressive lytic process bull Enlarged psoas shadow with or without calcificationbull Vertebral end plates are osteoporotic bull Intervertebral disks may be shrunk or destroyed bull Vertebral bodies show variable degrees of destruction bull Fusiform paravertebral shadows suggest abscess

formation bull Bone lesions may occur at more than one level

X Ray appearances

Discovertebral lesions detected in 93 of patients bull Localized fluffy osseous destruction with surrounding

osteoporosis is the earliest signs bull concentric collapse and may look like AVN bull Local lytic lesion may cause problem of diagnosis from

neoplasic lesion bull destruction of adjacent vertebrae Konstram (K) angle

appears and shows the progress on follow up bull Skipped lesion (10 cases) can be diagnosed on

suspicion and in correct size film

X-ray of the thoracolumbar spine (Lateral view) showing wedge collapse of L1 and L2 vertebral bodies

X-ray of the spine in a child showing complete destruction of D12 and L1 vertebral bodies leaving

only the pedicles

Kumarrsquos clinico-radiological Classification

stage features Usual duration

I Pre-destructive

Straightening spasm hyperemia in scinti

lt3 mo

II Early-destructive

Diminished space paradiscal erosion Knuckle lt10

2-4 mo

III Mild kyphos 2-3 verte k10-30 3-9 mo

IV Moderate kyphos

gt3 verte K30-60 6-24 mo

V Severe kyphos

gt3 verte Kgt60 gt2 years

CT scanning

bull CT scanning provides much better bony detail of irregular lytic lesions sclerosis disk collapse and disruption of bone circumference

bull Low-contrast resolution provides a better assessment of soft tissue particularly in epidural and paraspinal areas

bull It detects early lesions and is more effective for defining the shape and calcification of soft tissue abscesses

bull In contrast to pyogenic disease calcification is common in tuberculous lesions

MRI bull MRI is the criterion standard for evaluating disk

space infection and osteomyelitis of the spine bull MRI findings useful to differentiate tuberculous

spondylitis from pyogenic spondylitis include thin and smooth enhancement of the abscess wall and well-defined paraspinal abnormal signal

whereas thick and irregular enhancement of abscess wall and ill-defined paraspinal abnormal signal are suggestive of pyogenic spondylitis

bull contrast-enhanced MRI appears to be important in the differentiation of these two types of spondylitis

bull most effective for demonstrating neural compression

Myelographybull Spinal tumor syndromebull Multiple vertebral lesionsbull Patients not recovered after

decompression 1 Block present second decompression2 Block not present intrinsic damage

1Ischemic infarction 2Interstitial gliosis

3atrophy 4 tuberculous myelitis

5Myelomalacia

Differentials 1 Pyogenic infections2 Typhoid spine3 Brucella Spondylitis4 Mycotic Spondylitis5 Syphilitic6 Tumorous condition7 Primary malignant tumor 8 Multiple Myeloma9 Lymphomas10Secondary11Histocytosis-X12Spinal Osteochondrosis13Spondylolisthesis14Hydatid disease

Complications of tuberculosis

1 Paraplegia 2 Cold abscess3 Sinuses4 Secondary infection5 Amyloid disease6 Fatality

Tb spine with PARAPLEGIA

bull INCIDENCE 10-30bull Dorsal spine (MC)bull Motor functions affected before greater

than sensorybull Sense of position amp vibration last to

disappear

Patho of Tuberculoses Paraplegia1 Inflammatory Edema ndashvascular stasistoxin2 Extradural Mass ndash Tuberculous ostetis+

abscess3 Bony Disorder ndash Sequestra Internal Gibbus4 Meningeal changes ndash lsquodura as rule not

involvedrsquoExtradural grnulation --

contract cicatrization peridural fibrosis paraplegia

5 Infarction of spinal cord- Ant spinal artery

EndarteritisPeriarteritisThrombosis6 Changes in Spinal cord-

MyelomalacicSyringomyelic changeAtrophy ndashupto 50dec in dia-good functions

Seddonrsquos Classificationbull

GROUP A_-Early onset - This comes up in active stage of the disease within first 2 years

Compressive Agents are inflammatory edema granulation abscess casseous material sequestra and rarely ischaemic lesion

GROUP B -Late onset- Usually after 2 years of onset of the disease ndash due to recurrence or by mechanical pressure This can be better divided into

paraplegia with active disease and with healed disease

Active disease - Caseous material debris sequestrated disc or bone internal gibbus stenosis and deformity can cause compression

Healed disease - Usually internal gibbus and acute kyphotic deformity can also give late onset paraplegia Usually there is a continuous traction compression leading to paraplegia

Kumarrsquos classification oftuberculous paraplegia

stage Clinical features1 Negligible Unaware of neural deficit

Plantar extensor Ankle clonus2 Mild Walk with support

3 Moderate NonambulatoryParalysis in extentionsensory loss lt50

4 Severe 3+ paralysis in flexionsensory lossgt50 Sphinters involved

Evolution of treatment Pre-antitubercular erabull Artificial abscess- Pott in 1779bull Laminectomy amp laminotomy

chipault(1896 )bull Costo-transversectomy Menard in 1896bull Posterior mediastinotomybull Calves operation 1917bull Lateral rhachiotomy of carpener 1933bull Anterlateral decompression of Dottamp

Alexander1947

BASIC PRINCIPLES OFMANAGEMENT

10487291048729bull 10487291048729 Early diagnosisbull 10487291048729 Expeditious medical treatmentbull 10487291048729 Aggressive surgical approachbull 10487291048729 Prevent deformitybull 10487291048729 Expect good outcome

bull Studies performed by the British Medical Research Council indicate that tuberculous spondylitis of the thoracolumbar spine should be treated with combination chemotherapy for 6-9 months According to a 1994 recommendation by the US Centers for Disease Control and Prevention this is the treatment of choice

What is Middle path regimebull Admission rest in bed bull Chemotherapy bull X-ray amp ESR once in 3 monthsbull MRI CT at 6 months interval for 2 yearsbull Craniovertebral cervicodorsal lumbosacralamp

sacroiliac jointsbull Gradual mobilizationbull 3-9 weeks- back extention exercise 5-10 min 3-4

timesbull Spinal brace--- 18 months-2 years

bull Abcesses ndash aspirate near surface bull Instille 1gm Streptomycin +- INH in solbull Sinus heals 6-12 weeksbull Neural complications if responds 3-4 weeks -

surgery unnecssarybull Excisional surgery for posterior spinal diseasebull Operative debridement for patients ndashif no arrest

after 3-6 months- spinal arthrodesis (recommended)

bull Post op--Spinal brace--- 18 months-2 years

Drugs in middle path

phase duration drug

Intensive 5-6 months

INH 300-400mg

Rifampicin ofloxacin400-600mg streptomycin

Continuation

7-8 months

-do 3-4mth Pyrazinamide 1500mg4-5mth Rifampicin

Prophylactic

4-5 months

-do Ethambutol 1200mg

Surgical indications1 No sign of Neurological recovery after trial of 3-4

weeks therapy2 Neurological complication during treatment3 Neuro deficit becoming worse4 Recurrence of neuro complication5 Prevertebral cervical abscessesneurological

signsamp difficulty in deglutitionamp respiration6 Advanced cases- Sphincter involvement

flaccid paralysisSevere flexor spasms

Other indicationsbull Recurrent paraplegiabull Painful paraplegiandash dt root compressionetcbull Posterior spinal disease--involving the post

elements of vertbbull Spinal tumor syndrome resulting in cord

compressionbull Rapid onset paraplegia due to thrombosistrauma

etcbull Severe paraplegiabull Secondary to cervical disease and bull cauda equina paralysis

1 Decompression +- fusion

Failed responseToo advanced

2 Debridement+- fusion

Failed response after 3-6 monthsDoubtful diagnosisInstability

3 Debridement +-DECOMP+- fusion

Recrudescence of disease

4 Debridement+- fusion

Prevent severe Kyphosis

5 Anterior transpostion

Severe Kyphosis +neural deficit

6 Laminectomy STSsecondary stenosis posterior disease

APPROACH1 Cervical spine ndash Anterior retropharyngeal

(smith-Robinsonrsquos) Anterior approach ndash AnteriorMedial

border of sternocleidomastoid2 Dorsal spine (D1 to L1) ndash

1 Transthoraccic transpleural 2 Anterolateral decompression(D2 ndash

L1)3 Lumbar spine ndash Anterolateral(Lumbovertebrotomy) Extraperitoneal Ant approach

Tulirsquos recommended approch

bull Cervical spine ndashT1 Anterior approchbull Dorsal spine ndashDL junction Antrolateral

approchbull Lumbar spine ampLumboscral junction

Extraperitoneal Transverse Vertebrotomy

Surgical technique

bull Costotransversectomyndash in tense paravertebral abscess

removendash transverse process rib ndash 2 inchs

Anterolateral decompressionbull Posterior part of ribbull Transverse processbull Pediclebull Part of the vertebral bodybull Griffith Seddon Roaf -- prone position

bull Tuli --- right lateral positionbull Advantage- 1 avoid venous congestion 2 avoid excessive bleeding 3 permits freer respiration 4 better look at site

Posterior Spinal Arthrodesisbull Byndash Albee amp Hibbsbull Albeendash tibial graft inserted longitudinally in to

the split spinous vertebral processbull Hibbsndash overlapping numerous small osseous flap

from contiguous laminae spinous process amp articular facets

bull Indicationsndash 1 mechanical instability 2 to stabilise craniovertebral region 3 as part of panvertebral operation

DYNAMIC CAGE GovenderampPrabhoo

SYNTHES PLATE WITHSAPCER

Yilmaz C Selek HY et al Anterior instrumentation for the Treatment of Spinal Tuberculosis J Bone and

Joint Surg 1999 81-A 1261-67

bull ldquowe feel that every attempt should be made to minimize this deformity with some form of instrumentation wherever indicated and preferably anteriorlyrsquordquo

Thank youThank you

  • Pottrsquos spine
  • Pottrsquos disease
  • Slide 3
  • Regional Distribution
  • Pathophysiology
  • Slide 6
  • Slide 7
  • Slide 8
  • Slide 9
  • Anatomically the lesion could be
  • History
  • Slide 12
  • Slide 13
  • Natural course of disease
  • Lab Studies
  • Slide 16
  • Slide 17
  • X Ray appearances
  • Slide 19
  • Slide 20
  • X-ray of the thoracolumbar spine (Lateral view) showing wedge collapse of L1 and L2 vertebral bodies
  • X-ray of the spine in a child showing complete destruction of D12 and L1 vertebral bodies leaving only the pedicles
  • Kumarrsquos clinico-radiological Classification
  • CT scanning
  • MRI
  • Slide 26
  • Myelography
  • Slide 28
  • Differentials
  • Complications of tuberculosis
  • Tb spine with PARAPLEGIA
  • Patho of Tuberculoses Paraplegia
  • Slide 33
  • Seddonrsquos Classification
  • Kumarrsquos classification of tuberculous paraplegia
  • Evolution of treatment
  • BASIC PRINCIPLES OF MANAGEMENT 10487291048729
  • Slide 38
  • What is Middle path regime
  • Slide 40
  • Drugs in middle path
  • Slide 43
  • Surgical indications
  • Other indications
  • Slide 46
  • APPROACH
  • Tulirsquos recommended approch
  • Surgical technique
  • Anterolateral decompression
  • Posterior Spinal Arthrodesis
  • DYNAMIC CAGE GovenderampPrabhoo
  • SYNTHES PLATE WITH SAPCER
  • Yilmaz C Selek HY et al Anterior instrumentation for the Treatment of Spinal Tuberculosis J Bone and Joint Surg 1999 81-A 1261-67
Page 11: Pott Disease

History

bull Presentation depends on the following ndash Stage of disease ndash Site ndash Presence of complications such as neurologic deficits

abscesses or sinus tractsbull The reported average duration of symptoms at the time

of diagnosis is 3-4 months bull Back pain is the earliest and most common symptom

ndash Patients have usually had back pain for weeks prior to presentation

ndash Pain can be spinal or radicularbull Constitutional symptoms include fever and weight loss

bull Neurologic abnormalities occur in 50 of cases and can include spinal cord compression with paraplegia paresis impaired sensation nerve root pain or cauda equina syndrome

bull Cervical spine tuberculosis is a less common presentation is characterized by pain and stiffness

Patients with lower cervical spine disease can present with dysphagia or stridor

Symptoms can also include torticollis hoarseness and neurologic deficits

bull The clinical presentation of spinal tuberculosis in patients infected with the human immunodeficiency virus (HIV) is similar to that of patients who are HIV negative however the relative proportion of individuals who are HIV positive seems to be higher

Natural course of disease

bull 53 died within 10 yrs of onsetbull Early stage of healingndash focus surrounded by

sclerotic bone Ivory vertebrabull Early radiological sign of healingndash sharpening of

fuzzy paradiscal margins amp reappearance and minrralization of tuberculae

bull Several vertebrae destroyedndash fibrous tissuebull Disc space destroyed bony ankylosisbone

block formation

Lab Studiesbull Tuberculin skin test (purified protein derivative

[PPD]) demonstrates a positive finding in 84-95 of patients who are nonndashHIV-positive

bull Erythrocyte sedimentation rate (ESR) may be markedly elevated

bull The enzyme-linked immunosorbent assay (ELISA) has a reported sensitivity of 60 to 80 per cent

bull The polymerase chain reaction bull A brucella complement fixation test

bull IFN- Release Assays (IGRAs)bull Recently two in vitro assays that measure T

cell release of IFN- in response to stimulation with the highly tuberculosis-specific antigens ESAT-6 and CFP-10 have become commercially available

bull Microbiology studies to confirm diagnosis Obtain bone tissue or abscess samples to stain for acid-fast bacilli (AFB) and isolate organisms for culture and susceptibility CT-guided procedures can be used to guide percutaneous sampling of affected bone or soft tissue structures These study findings may be positive in only about 50 of the cases

X Ray appearances

bull Lytic destruction of anterior portion of vertebral body bull Increased anterior wedging bull Collapse of vertebral body bull Reactive sclerosis on a progressive lytic process bull Enlarged psoas shadow with or without calcificationbull Vertebral end plates are osteoporotic bull Intervertebral disks may be shrunk or destroyed bull Vertebral bodies show variable degrees of destruction bull Fusiform paravertebral shadows suggest abscess

formation bull Bone lesions may occur at more than one level

X Ray appearances

Discovertebral lesions detected in 93 of patients bull Localized fluffy osseous destruction with surrounding

osteoporosis is the earliest signs bull concentric collapse and may look like AVN bull Local lytic lesion may cause problem of diagnosis from

neoplasic lesion bull destruction of adjacent vertebrae Konstram (K) angle

appears and shows the progress on follow up bull Skipped lesion (10 cases) can be diagnosed on

suspicion and in correct size film

X-ray of the thoracolumbar spine (Lateral view) showing wedge collapse of L1 and L2 vertebral bodies

X-ray of the spine in a child showing complete destruction of D12 and L1 vertebral bodies leaving

only the pedicles

Kumarrsquos clinico-radiological Classification

stage features Usual duration

I Pre-destructive

Straightening spasm hyperemia in scinti

lt3 mo

II Early-destructive

Diminished space paradiscal erosion Knuckle lt10

2-4 mo

III Mild kyphos 2-3 verte k10-30 3-9 mo

IV Moderate kyphos

gt3 verte K30-60 6-24 mo

V Severe kyphos

gt3 verte Kgt60 gt2 years

CT scanning

bull CT scanning provides much better bony detail of irregular lytic lesions sclerosis disk collapse and disruption of bone circumference

bull Low-contrast resolution provides a better assessment of soft tissue particularly in epidural and paraspinal areas

bull It detects early lesions and is more effective for defining the shape and calcification of soft tissue abscesses

bull In contrast to pyogenic disease calcification is common in tuberculous lesions

MRI bull MRI is the criterion standard for evaluating disk

space infection and osteomyelitis of the spine bull MRI findings useful to differentiate tuberculous

spondylitis from pyogenic spondylitis include thin and smooth enhancement of the abscess wall and well-defined paraspinal abnormal signal

whereas thick and irregular enhancement of abscess wall and ill-defined paraspinal abnormal signal are suggestive of pyogenic spondylitis

bull contrast-enhanced MRI appears to be important in the differentiation of these two types of spondylitis

bull most effective for demonstrating neural compression

Myelographybull Spinal tumor syndromebull Multiple vertebral lesionsbull Patients not recovered after

decompression 1 Block present second decompression2 Block not present intrinsic damage

1Ischemic infarction 2Interstitial gliosis

3atrophy 4 tuberculous myelitis

5Myelomalacia

Differentials 1 Pyogenic infections2 Typhoid spine3 Brucella Spondylitis4 Mycotic Spondylitis5 Syphilitic6 Tumorous condition7 Primary malignant tumor 8 Multiple Myeloma9 Lymphomas10Secondary11Histocytosis-X12Spinal Osteochondrosis13Spondylolisthesis14Hydatid disease

Complications of tuberculosis

1 Paraplegia 2 Cold abscess3 Sinuses4 Secondary infection5 Amyloid disease6 Fatality

Tb spine with PARAPLEGIA

bull INCIDENCE 10-30bull Dorsal spine (MC)bull Motor functions affected before greater

than sensorybull Sense of position amp vibration last to

disappear

Patho of Tuberculoses Paraplegia1 Inflammatory Edema ndashvascular stasistoxin2 Extradural Mass ndash Tuberculous ostetis+

abscess3 Bony Disorder ndash Sequestra Internal Gibbus4 Meningeal changes ndash lsquodura as rule not

involvedrsquoExtradural grnulation --

contract cicatrization peridural fibrosis paraplegia

5 Infarction of spinal cord- Ant spinal artery

EndarteritisPeriarteritisThrombosis6 Changes in Spinal cord-

MyelomalacicSyringomyelic changeAtrophy ndashupto 50dec in dia-good functions

Seddonrsquos Classificationbull

GROUP A_-Early onset - This comes up in active stage of the disease within first 2 years

Compressive Agents are inflammatory edema granulation abscess casseous material sequestra and rarely ischaemic lesion

GROUP B -Late onset- Usually after 2 years of onset of the disease ndash due to recurrence or by mechanical pressure This can be better divided into

paraplegia with active disease and with healed disease

Active disease - Caseous material debris sequestrated disc or bone internal gibbus stenosis and deformity can cause compression

Healed disease - Usually internal gibbus and acute kyphotic deformity can also give late onset paraplegia Usually there is a continuous traction compression leading to paraplegia

Kumarrsquos classification oftuberculous paraplegia

stage Clinical features1 Negligible Unaware of neural deficit

Plantar extensor Ankle clonus2 Mild Walk with support

3 Moderate NonambulatoryParalysis in extentionsensory loss lt50

4 Severe 3+ paralysis in flexionsensory lossgt50 Sphinters involved

Evolution of treatment Pre-antitubercular erabull Artificial abscess- Pott in 1779bull Laminectomy amp laminotomy

chipault(1896 )bull Costo-transversectomy Menard in 1896bull Posterior mediastinotomybull Calves operation 1917bull Lateral rhachiotomy of carpener 1933bull Anterlateral decompression of Dottamp

Alexander1947

BASIC PRINCIPLES OFMANAGEMENT

10487291048729bull 10487291048729 Early diagnosisbull 10487291048729 Expeditious medical treatmentbull 10487291048729 Aggressive surgical approachbull 10487291048729 Prevent deformitybull 10487291048729 Expect good outcome

bull Studies performed by the British Medical Research Council indicate that tuberculous spondylitis of the thoracolumbar spine should be treated with combination chemotherapy for 6-9 months According to a 1994 recommendation by the US Centers for Disease Control and Prevention this is the treatment of choice

What is Middle path regimebull Admission rest in bed bull Chemotherapy bull X-ray amp ESR once in 3 monthsbull MRI CT at 6 months interval for 2 yearsbull Craniovertebral cervicodorsal lumbosacralamp

sacroiliac jointsbull Gradual mobilizationbull 3-9 weeks- back extention exercise 5-10 min 3-4

timesbull Spinal brace--- 18 months-2 years

bull Abcesses ndash aspirate near surface bull Instille 1gm Streptomycin +- INH in solbull Sinus heals 6-12 weeksbull Neural complications if responds 3-4 weeks -

surgery unnecssarybull Excisional surgery for posterior spinal diseasebull Operative debridement for patients ndashif no arrest

after 3-6 months- spinal arthrodesis (recommended)

bull Post op--Spinal brace--- 18 months-2 years

Drugs in middle path

phase duration drug

Intensive 5-6 months

INH 300-400mg

Rifampicin ofloxacin400-600mg streptomycin

Continuation

7-8 months

-do 3-4mth Pyrazinamide 1500mg4-5mth Rifampicin

Prophylactic

4-5 months

-do Ethambutol 1200mg

Surgical indications1 No sign of Neurological recovery after trial of 3-4

weeks therapy2 Neurological complication during treatment3 Neuro deficit becoming worse4 Recurrence of neuro complication5 Prevertebral cervical abscessesneurological

signsamp difficulty in deglutitionamp respiration6 Advanced cases- Sphincter involvement

flaccid paralysisSevere flexor spasms

Other indicationsbull Recurrent paraplegiabull Painful paraplegiandash dt root compressionetcbull Posterior spinal disease--involving the post

elements of vertbbull Spinal tumor syndrome resulting in cord

compressionbull Rapid onset paraplegia due to thrombosistrauma

etcbull Severe paraplegiabull Secondary to cervical disease and bull cauda equina paralysis

1 Decompression +- fusion

Failed responseToo advanced

2 Debridement+- fusion

Failed response after 3-6 monthsDoubtful diagnosisInstability

3 Debridement +-DECOMP+- fusion

Recrudescence of disease

4 Debridement+- fusion

Prevent severe Kyphosis

5 Anterior transpostion

Severe Kyphosis +neural deficit

6 Laminectomy STSsecondary stenosis posterior disease

APPROACH1 Cervical spine ndash Anterior retropharyngeal

(smith-Robinsonrsquos) Anterior approach ndash AnteriorMedial

border of sternocleidomastoid2 Dorsal spine (D1 to L1) ndash

1 Transthoraccic transpleural 2 Anterolateral decompression(D2 ndash

L1)3 Lumbar spine ndash Anterolateral(Lumbovertebrotomy) Extraperitoneal Ant approach

Tulirsquos recommended approch

bull Cervical spine ndashT1 Anterior approchbull Dorsal spine ndashDL junction Antrolateral

approchbull Lumbar spine ampLumboscral junction

Extraperitoneal Transverse Vertebrotomy

Surgical technique

bull Costotransversectomyndash in tense paravertebral abscess

removendash transverse process rib ndash 2 inchs

Anterolateral decompressionbull Posterior part of ribbull Transverse processbull Pediclebull Part of the vertebral bodybull Griffith Seddon Roaf -- prone position

bull Tuli --- right lateral positionbull Advantage- 1 avoid venous congestion 2 avoid excessive bleeding 3 permits freer respiration 4 better look at site

Posterior Spinal Arthrodesisbull Byndash Albee amp Hibbsbull Albeendash tibial graft inserted longitudinally in to

the split spinous vertebral processbull Hibbsndash overlapping numerous small osseous flap

from contiguous laminae spinous process amp articular facets

bull Indicationsndash 1 mechanical instability 2 to stabilise craniovertebral region 3 as part of panvertebral operation

DYNAMIC CAGE GovenderampPrabhoo

SYNTHES PLATE WITHSAPCER

Yilmaz C Selek HY et al Anterior instrumentation for the Treatment of Spinal Tuberculosis J Bone and

Joint Surg 1999 81-A 1261-67

bull ldquowe feel that every attempt should be made to minimize this deformity with some form of instrumentation wherever indicated and preferably anteriorlyrsquordquo

Thank youThank you

  • Pottrsquos spine
  • Pottrsquos disease
  • Slide 3
  • Regional Distribution
  • Pathophysiology
  • Slide 6
  • Slide 7
  • Slide 8
  • Slide 9
  • Anatomically the lesion could be
  • History
  • Slide 12
  • Slide 13
  • Natural course of disease
  • Lab Studies
  • Slide 16
  • Slide 17
  • X Ray appearances
  • Slide 19
  • Slide 20
  • X-ray of the thoracolumbar spine (Lateral view) showing wedge collapse of L1 and L2 vertebral bodies
  • X-ray of the spine in a child showing complete destruction of D12 and L1 vertebral bodies leaving only the pedicles
  • Kumarrsquos clinico-radiological Classification
  • CT scanning
  • MRI
  • Slide 26
  • Myelography
  • Slide 28
  • Differentials
  • Complications of tuberculosis
  • Tb spine with PARAPLEGIA
  • Patho of Tuberculoses Paraplegia
  • Slide 33
  • Seddonrsquos Classification
  • Kumarrsquos classification of tuberculous paraplegia
  • Evolution of treatment
  • BASIC PRINCIPLES OF MANAGEMENT 10487291048729
  • Slide 38
  • What is Middle path regime
  • Slide 40
  • Drugs in middle path
  • Slide 43
  • Surgical indications
  • Other indications
  • Slide 46
  • APPROACH
  • Tulirsquos recommended approch
  • Surgical technique
  • Anterolateral decompression
  • Posterior Spinal Arthrodesis
  • DYNAMIC CAGE GovenderampPrabhoo
  • SYNTHES PLATE WITH SAPCER
  • Yilmaz C Selek HY et al Anterior instrumentation for the Treatment of Spinal Tuberculosis J Bone and Joint Surg 1999 81-A 1261-67
Page 12: Pott Disease

bull Neurologic abnormalities occur in 50 of cases and can include spinal cord compression with paraplegia paresis impaired sensation nerve root pain or cauda equina syndrome

bull Cervical spine tuberculosis is a less common presentation is characterized by pain and stiffness

Patients with lower cervical spine disease can present with dysphagia or stridor

Symptoms can also include torticollis hoarseness and neurologic deficits

bull The clinical presentation of spinal tuberculosis in patients infected with the human immunodeficiency virus (HIV) is similar to that of patients who are HIV negative however the relative proportion of individuals who are HIV positive seems to be higher

Natural course of disease

bull 53 died within 10 yrs of onsetbull Early stage of healingndash focus surrounded by

sclerotic bone Ivory vertebrabull Early radiological sign of healingndash sharpening of

fuzzy paradiscal margins amp reappearance and minrralization of tuberculae

bull Several vertebrae destroyedndash fibrous tissuebull Disc space destroyed bony ankylosisbone

block formation

Lab Studiesbull Tuberculin skin test (purified protein derivative

[PPD]) demonstrates a positive finding in 84-95 of patients who are nonndashHIV-positive

bull Erythrocyte sedimentation rate (ESR) may be markedly elevated

bull The enzyme-linked immunosorbent assay (ELISA) has a reported sensitivity of 60 to 80 per cent

bull The polymerase chain reaction bull A brucella complement fixation test

bull IFN- Release Assays (IGRAs)bull Recently two in vitro assays that measure T

cell release of IFN- in response to stimulation with the highly tuberculosis-specific antigens ESAT-6 and CFP-10 have become commercially available

bull Microbiology studies to confirm diagnosis Obtain bone tissue or abscess samples to stain for acid-fast bacilli (AFB) and isolate organisms for culture and susceptibility CT-guided procedures can be used to guide percutaneous sampling of affected bone or soft tissue structures These study findings may be positive in only about 50 of the cases

X Ray appearances

bull Lytic destruction of anterior portion of vertebral body bull Increased anterior wedging bull Collapse of vertebral body bull Reactive sclerosis on a progressive lytic process bull Enlarged psoas shadow with or without calcificationbull Vertebral end plates are osteoporotic bull Intervertebral disks may be shrunk or destroyed bull Vertebral bodies show variable degrees of destruction bull Fusiform paravertebral shadows suggest abscess

formation bull Bone lesions may occur at more than one level

X Ray appearances

Discovertebral lesions detected in 93 of patients bull Localized fluffy osseous destruction with surrounding

osteoporosis is the earliest signs bull concentric collapse and may look like AVN bull Local lytic lesion may cause problem of diagnosis from

neoplasic lesion bull destruction of adjacent vertebrae Konstram (K) angle

appears and shows the progress on follow up bull Skipped lesion (10 cases) can be diagnosed on

suspicion and in correct size film

X-ray of the thoracolumbar spine (Lateral view) showing wedge collapse of L1 and L2 vertebral bodies

X-ray of the spine in a child showing complete destruction of D12 and L1 vertebral bodies leaving

only the pedicles

Kumarrsquos clinico-radiological Classification

stage features Usual duration

I Pre-destructive

Straightening spasm hyperemia in scinti

lt3 mo

II Early-destructive

Diminished space paradiscal erosion Knuckle lt10

2-4 mo

III Mild kyphos 2-3 verte k10-30 3-9 mo

IV Moderate kyphos

gt3 verte K30-60 6-24 mo

V Severe kyphos

gt3 verte Kgt60 gt2 years

CT scanning

bull CT scanning provides much better bony detail of irregular lytic lesions sclerosis disk collapse and disruption of bone circumference

bull Low-contrast resolution provides a better assessment of soft tissue particularly in epidural and paraspinal areas

bull It detects early lesions and is more effective for defining the shape and calcification of soft tissue abscesses

bull In contrast to pyogenic disease calcification is common in tuberculous lesions

MRI bull MRI is the criterion standard for evaluating disk

space infection and osteomyelitis of the spine bull MRI findings useful to differentiate tuberculous

spondylitis from pyogenic spondylitis include thin and smooth enhancement of the abscess wall and well-defined paraspinal abnormal signal

whereas thick and irregular enhancement of abscess wall and ill-defined paraspinal abnormal signal are suggestive of pyogenic spondylitis

bull contrast-enhanced MRI appears to be important in the differentiation of these two types of spondylitis

bull most effective for demonstrating neural compression

Myelographybull Spinal tumor syndromebull Multiple vertebral lesionsbull Patients not recovered after

decompression 1 Block present second decompression2 Block not present intrinsic damage

1Ischemic infarction 2Interstitial gliosis

3atrophy 4 tuberculous myelitis

5Myelomalacia

Differentials 1 Pyogenic infections2 Typhoid spine3 Brucella Spondylitis4 Mycotic Spondylitis5 Syphilitic6 Tumorous condition7 Primary malignant tumor 8 Multiple Myeloma9 Lymphomas10Secondary11Histocytosis-X12Spinal Osteochondrosis13Spondylolisthesis14Hydatid disease

Complications of tuberculosis

1 Paraplegia 2 Cold abscess3 Sinuses4 Secondary infection5 Amyloid disease6 Fatality

Tb spine with PARAPLEGIA

bull INCIDENCE 10-30bull Dorsal spine (MC)bull Motor functions affected before greater

than sensorybull Sense of position amp vibration last to

disappear

Patho of Tuberculoses Paraplegia1 Inflammatory Edema ndashvascular stasistoxin2 Extradural Mass ndash Tuberculous ostetis+

abscess3 Bony Disorder ndash Sequestra Internal Gibbus4 Meningeal changes ndash lsquodura as rule not

involvedrsquoExtradural grnulation --

contract cicatrization peridural fibrosis paraplegia

5 Infarction of spinal cord- Ant spinal artery

EndarteritisPeriarteritisThrombosis6 Changes in Spinal cord-

MyelomalacicSyringomyelic changeAtrophy ndashupto 50dec in dia-good functions

Seddonrsquos Classificationbull

GROUP A_-Early onset - This comes up in active stage of the disease within first 2 years

Compressive Agents are inflammatory edema granulation abscess casseous material sequestra and rarely ischaemic lesion

GROUP B -Late onset- Usually after 2 years of onset of the disease ndash due to recurrence or by mechanical pressure This can be better divided into

paraplegia with active disease and with healed disease

Active disease - Caseous material debris sequestrated disc or bone internal gibbus stenosis and deformity can cause compression

Healed disease - Usually internal gibbus and acute kyphotic deformity can also give late onset paraplegia Usually there is a continuous traction compression leading to paraplegia

Kumarrsquos classification oftuberculous paraplegia

stage Clinical features1 Negligible Unaware of neural deficit

Plantar extensor Ankle clonus2 Mild Walk with support

3 Moderate NonambulatoryParalysis in extentionsensory loss lt50

4 Severe 3+ paralysis in flexionsensory lossgt50 Sphinters involved

Evolution of treatment Pre-antitubercular erabull Artificial abscess- Pott in 1779bull Laminectomy amp laminotomy

chipault(1896 )bull Costo-transversectomy Menard in 1896bull Posterior mediastinotomybull Calves operation 1917bull Lateral rhachiotomy of carpener 1933bull Anterlateral decompression of Dottamp

Alexander1947

BASIC PRINCIPLES OFMANAGEMENT

10487291048729bull 10487291048729 Early diagnosisbull 10487291048729 Expeditious medical treatmentbull 10487291048729 Aggressive surgical approachbull 10487291048729 Prevent deformitybull 10487291048729 Expect good outcome

bull Studies performed by the British Medical Research Council indicate that tuberculous spondylitis of the thoracolumbar spine should be treated with combination chemotherapy for 6-9 months According to a 1994 recommendation by the US Centers for Disease Control and Prevention this is the treatment of choice

What is Middle path regimebull Admission rest in bed bull Chemotherapy bull X-ray amp ESR once in 3 monthsbull MRI CT at 6 months interval for 2 yearsbull Craniovertebral cervicodorsal lumbosacralamp

sacroiliac jointsbull Gradual mobilizationbull 3-9 weeks- back extention exercise 5-10 min 3-4

timesbull Spinal brace--- 18 months-2 years

bull Abcesses ndash aspirate near surface bull Instille 1gm Streptomycin +- INH in solbull Sinus heals 6-12 weeksbull Neural complications if responds 3-4 weeks -

surgery unnecssarybull Excisional surgery for posterior spinal diseasebull Operative debridement for patients ndashif no arrest

after 3-6 months- spinal arthrodesis (recommended)

bull Post op--Spinal brace--- 18 months-2 years

Drugs in middle path

phase duration drug

Intensive 5-6 months

INH 300-400mg

Rifampicin ofloxacin400-600mg streptomycin

Continuation

7-8 months

-do 3-4mth Pyrazinamide 1500mg4-5mth Rifampicin

Prophylactic

4-5 months

-do Ethambutol 1200mg

Surgical indications1 No sign of Neurological recovery after trial of 3-4

weeks therapy2 Neurological complication during treatment3 Neuro deficit becoming worse4 Recurrence of neuro complication5 Prevertebral cervical abscessesneurological

signsamp difficulty in deglutitionamp respiration6 Advanced cases- Sphincter involvement

flaccid paralysisSevere flexor spasms

Other indicationsbull Recurrent paraplegiabull Painful paraplegiandash dt root compressionetcbull Posterior spinal disease--involving the post

elements of vertbbull Spinal tumor syndrome resulting in cord

compressionbull Rapid onset paraplegia due to thrombosistrauma

etcbull Severe paraplegiabull Secondary to cervical disease and bull cauda equina paralysis

1 Decompression +- fusion

Failed responseToo advanced

2 Debridement+- fusion

Failed response after 3-6 monthsDoubtful diagnosisInstability

3 Debridement +-DECOMP+- fusion

Recrudescence of disease

4 Debridement+- fusion

Prevent severe Kyphosis

5 Anterior transpostion

Severe Kyphosis +neural deficit

6 Laminectomy STSsecondary stenosis posterior disease

APPROACH1 Cervical spine ndash Anterior retropharyngeal

(smith-Robinsonrsquos) Anterior approach ndash AnteriorMedial

border of sternocleidomastoid2 Dorsal spine (D1 to L1) ndash

1 Transthoraccic transpleural 2 Anterolateral decompression(D2 ndash

L1)3 Lumbar spine ndash Anterolateral(Lumbovertebrotomy) Extraperitoneal Ant approach

Tulirsquos recommended approch

bull Cervical spine ndashT1 Anterior approchbull Dorsal spine ndashDL junction Antrolateral

approchbull Lumbar spine ampLumboscral junction

Extraperitoneal Transverse Vertebrotomy

Surgical technique

bull Costotransversectomyndash in tense paravertebral abscess

removendash transverse process rib ndash 2 inchs

Anterolateral decompressionbull Posterior part of ribbull Transverse processbull Pediclebull Part of the vertebral bodybull Griffith Seddon Roaf -- prone position

bull Tuli --- right lateral positionbull Advantage- 1 avoid venous congestion 2 avoid excessive bleeding 3 permits freer respiration 4 better look at site

Posterior Spinal Arthrodesisbull Byndash Albee amp Hibbsbull Albeendash tibial graft inserted longitudinally in to

the split spinous vertebral processbull Hibbsndash overlapping numerous small osseous flap

from contiguous laminae spinous process amp articular facets

bull Indicationsndash 1 mechanical instability 2 to stabilise craniovertebral region 3 as part of panvertebral operation

DYNAMIC CAGE GovenderampPrabhoo

SYNTHES PLATE WITHSAPCER

Yilmaz C Selek HY et al Anterior instrumentation for the Treatment of Spinal Tuberculosis J Bone and

Joint Surg 1999 81-A 1261-67

bull ldquowe feel that every attempt should be made to minimize this deformity with some form of instrumentation wherever indicated and preferably anteriorlyrsquordquo

Thank youThank you

  • Pottrsquos spine
  • Pottrsquos disease
  • Slide 3
  • Regional Distribution
  • Pathophysiology
  • Slide 6
  • Slide 7
  • Slide 8
  • Slide 9
  • Anatomically the lesion could be
  • History
  • Slide 12
  • Slide 13
  • Natural course of disease
  • Lab Studies
  • Slide 16
  • Slide 17
  • X Ray appearances
  • Slide 19
  • Slide 20
  • X-ray of the thoracolumbar spine (Lateral view) showing wedge collapse of L1 and L2 vertebral bodies
  • X-ray of the spine in a child showing complete destruction of D12 and L1 vertebral bodies leaving only the pedicles
  • Kumarrsquos clinico-radiological Classification
  • CT scanning
  • MRI
  • Slide 26
  • Myelography
  • Slide 28
  • Differentials
  • Complications of tuberculosis
  • Tb spine with PARAPLEGIA
  • Patho of Tuberculoses Paraplegia
  • Slide 33
  • Seddonrsquos Classification
  • Kumarrsquos classification of tuberculous paraplegia
  • Evolution of treatment
  • BASIC PRINCIPLES OF MANAGEMENT 10487291048729
  • Slide 38
  • What is Middle path regime
  • Slide 40
  • Drugs in middle path
  • Slide 43
  • Surgical indications
  • Other indications
  • Slide 46
  • APPROACH
  • Tulirsquos recommended approch
  • Surgical technique
  • Anterolateral decompression
  • Posterior Spinal Arthrodesis
  • DYNAMIC CAGE GovenderampPrabhoo
  • SYNTHES PLATE WITH SAPCER
  • Yilmaz C Selek HY et al Anterior instrumentation for the Treatment of Spinal Tuberculosis J Bone and Joint Surg 1999 81-A 1261-67
Page 13: Pott Disease

Natural course of disease

bull 53 died within 10 yrs of onsetbull Early stage of healingndash focus surrounded by

sclerotic bone Ivory vertebrabull Early radiological sign of healingndash sharpening of

fuzzy paradiscal margins amp reappearance and minrralization of tuberculae

bull Several vertebrae destroyedndash fibrous tissuebull Disc space destroyed bony ankylosisbone

block formation

Lab Studiesbull Tuberculin skin test (purified protein derivative

[PPD]) demonstrates a positive finding in 84-95 of patients who are nonndashHIV-positive

bull Erythrocyte sedimentation rate (ESR) may be markedly elevated

bull The enzyme-linked immunosorbent assay (ELISA) has a reported sensitivity of 60 to 80 per cent

bull The polymerase chain reaction bull A brucella complement fixation test

bull IFN- Release Assays (IGRAs)bull Recently two in vitro assays that measure T

cell release of IFN- in response to stimulation with the highly tuberculosis-specific antigens ESAT-6 and CFP-10 have become commercially available

bull Microbiology studies to confirm diagnosis Obtain bone tissue or abscess samples to stain for acid-fast bacilli (AFB) and isolate organisms for culture and susceptibility CT-guided procedures can be used to guide percutaneous sampling of affected bone or soft tissue structures These study findings may be positive in only about 50 of the cases

X Ray appearances

bull Lytic destruction of anterior portion of vertebral body bull Increased anterior wedging bull Collapse of vertebral body bull Reactive sclerosis on a progressive lytic process bull Enlarged psoas shadow with or without calcificationbull Vertebral end plates are osteoporotic bull Intervertebral disks may be shrunk or destroyed bull Vertebral bodies show variable degrees of destruction bull Fusiform paravertebral shadows suggest abscess

formation bull Bone lesions may occur at more than one level

X Ray appearances

Discovertebral lesions detected in 93 of patients bull Localized fluffy osseous destruction with surrounding

osteoporosis is the earliest signs bull concentric collapse and may look like AVN bull Local lytic lesion may cause problem of diagnosis from

neoplasic lesion bull destruction of adjacent vertebrae Konstram (K) angle

appears and shows the progress on follow up bull Skipped lesion (10 cases) can be diagnosed on

suspicion and in correct size film

X-ray of the thoracolumbar spine (Lateral view) showing wedge collapse of L1 and L2 vertebral bodies

X-ray of the spine in a child showing complete destruction of D12 and L1 vertebral bodies leaving

only the pedicles

Kumarrsquos clinico-radiological Classification

stage features Usual duration

I Pre-destructive

Straightening spasm hyperemia in scinti

lt3 mo

II Early-destructive

Diminished space paradiscal erosion Knuckle lt10

2-4 mo

III Mild kyphos 2-3 verte k10-30 3-9 mo

IV Moderate kyphos

gt3 verte K30-60 6-24 mo

V Severe kyphos

gt3 verte Kgt60 gt2 years

CT scanning

bull CT scanning provides much better bony detail of irregular lytic lesions sclerosis disk collapse and disruption of bone circumference

bull Low-contrast resolution provides a better assessment of soft tissue particularly in epidural and paraspinal areas

bull It detects early lesions and is more effective for defining the shape and calcification of soft tissue abscesses

bull In contrast to pyogenic disease calcification is common in tuberculous lesions

MRI bull MRI is the criterion standard for evaluating disk

space infection and osteomyelitis of the spine bull MRI findings useful to differentiate tuberculous

spondylitis from pyogenic spondylitis include thin and smooth enhancement of the abscess wall and well-defined paraspinal abnormal signal

whereas thick and irregular enhancement of abscess wall and ill-defined paraspinal abnormal signal are suggestive of pyogenic spondylitis

bull contrast-enhanced MRI appears to be important in the differentiation of these two types of spondylitis

bull most effective for demonstrating neural compression

Myelographybull Spinal tumor syndromebull Multiple vertebral lesionsbull Patients not recovered after

decompression 1 Block present second decompression2 Block not present intrinsic damage

1Ischemic infarction 2Interstitial gliosis

3atrophy 4 tuberculous myelitis

5Myelomalacia

Differentials 1 Pyogenic infections2 Typhoid spine3 Brucella Spondylitis4 Mycotic Spondylitis5 Syphilitic6 Tumorous condition7 Primary malignant tumor 8 Multiple Myeloma9 Lymphomas10Secondary11Histocytosis-X12Spinal Osteochondrosis13Spondylolisthesis14Hydatid disease

Complications of tuberculosis

1 Paraplegia 2 Cold abscess3 Sinuses4 Secondary infection5 Amyloid disease6 Fatality

Tb spine with PARAPLEGIA

bull INCIDENCE 10-30bull Dorsal spine (MC)bull Motor functions affected before greater

than sensorybull Sense of position amp vibration last to

disappear

Patho of Tuberculoses Paraplegia1 Inflammatory Edema ndashvascular stasistoxin2 Extradural Mass ndash Tuberculous ostetis+

abscess3 Bony Disorder ndash Sequestra Internal Gibbus4 Meningeal changes ndash lsquodura as rule not

involvedrsquoExtradural grnulation --

contract cicatrization peridural fibrosis paraplegia

5 Infarction of spinal cord- Ant spinal artery

EndarteritisPeriarteritisThrombosis6 Changes in Spinal cord-

MyelomalacicSyringomyelic changeAtrophy ndashupto 50dec in dia-good functions

Seddonrsquos Classificationbull

GROUP A_-Early onset - This comes up in active stage of the disease within first 2 years

Compressive Agents are inflammatory edema granulation abscess casseous material sequestra and rarely ischaemic lesion

GROUP B -Late onset- Usually after 2 years of onset of the disease ndash due to recurrence or by mechanical pressure This can be better divided into

paraplegia with active disease and with healed disease

Active disease - Caseous material debris sequestrated disc or bone internal gibbus stenosis and deformity can cause compression

Healed disease - Usually internal gibbus and acute kyphotic deformity can also give late onset paraplegia Usually there is a continuous traction compression leading to paraplegia

Kumarrsquos classification oftuberculous paraplegia

stage Clinical features1 Negligible Unaware of neural deficit

Plantar extensor Ankle clonus2 Mild Walk with support

3 Moderate NonambulatoryParalysis in extentionsensory loss lt50

4 Severe 3+ paralysis in flexionsensory lossgt50 Sphinters involved

Evolution of treatment Pre-antitubercular erabull Artificial abscess- Pott in 1779bull Laminectomy amp laminotomy

chipault(1896 )bull Costo-transversectomy Menard in 1896bull Posterior mediastinotomybull Calves operation 1917bull Lateral rhachiotomy of carpener 1933bull Anterlateral decompression of Dottamp

Alexander1947

BASIC PRINCIPLES OFMANAGEMENT

10487291048729bull 10487291048729 Early diagnosisbull 10487291048729 Expeditious medical treatmentbull 10487291048729 Aggressive surgical approachbull 10487291048729 Prevent deformitybull 10487291048729 Expect good outcome

bull Studies performed by the British Medical Research Council indicate that tuberculous spondylitis of the thoracolumbar spine should be treated with combination chemotherapy for 6-9 months According to a 1994 recommendation by the US Centers for Disease Control and Prevention this is the treatment of choice

What is Middle path regimebull Admission rest in bed bull Chemotherapy bull X-ray amp ESR once in 3 monthsbull MRI CT at 6 months interval for 2 yearsbull Craniovertebral cervicodorsal lumbosacralamp

sacroiliac jointsbull Gradual mobilizationbull 3-9 weeks- back extention exercise 5-10 min 3-4

timesbull Spinal brace--- 18 months-2 years

bull Abcesses ndash aspirate near surface bull Instille 1gm Streptomycin +- INH in solbull Sinus heals 6-12 weeksbull Neural complications if responds 3-4 weeks -

surgery unnecssarybull Excisional surgery for posterior spinal diseasebull Operative debridement for patients ndashif no arrest

after 3-6 months- spinal arthrodesis (recommended)

bull Post op--Spinal brace--- 18 months-2 years

Drugs in middle path

phase duration drug

Intensive 5-6 months

INH 300-400mg

Rifampicin ofloxacin400-600mg streptomycin

Continuation

7-8 months

-do 3-4mth Pyrazinamide 1500mg4-5mth Rifampicin

Prophylactic

4-5 months

-do Ethambutol 1200mg

Surgical indications1 No sign of Neurological recovery after trial of 3-4

weeks therapy2 Neurological complication during treatment3 Neuro deficit becoming worse4 Recurrence of neuro complication5 Prevertebral cervical abscessesneurological

signsamp difficulty in deglutitionamp respiration6 Advanced cases- Sphincter involvement

flaccid paralysisSevere flexor spasms

Other indicationsbull Recurrent paraplegiabull Painful paraplegiandash dt root compressionetcbull Posterior spinal disease--involving the post

elements of vertbbull Spinal tumor syndrome resulting in cord

compressionbull Rapid onset paraplegia due to thrombosistrauma

etcbull Severe paraplegiabull Secondary to cervical disease and bull cauda equina paralysis

1 Decompression +- fusion

Failed responseToo advanced

2 Debridement+- fusion

Failed response after 3-6 monthsDoubtful diagnosisInstability

3 Debridement +-DECOMP+- fusion

Recrudescence of disease

4 Debridement+- fusion

Prevent severe Kyphosis

5 Anterior transpostion

Severe Kyphosis +neural deficit

6 Laminectomy STSsecondary stenosis posterior disease

APPROACH1 Cervical spine ndash Anterior retropharyngeal

(smith-Robinsonrsquos) Anterior approach ndash AnteriorMedial

border of sternocleidomastoid2 Dorsal spine (D1 to L1) ndash

1 Transthoraccic transpleural 2 Anterolateral decompression(D2 ndash

L1)3 Lumbar spine ndash Anterolateral(Lumbovertebrotomy) Extraperitoneal Ant approach

Tulirsquos recommended approch

bull Cervical spine ndashT1 Anterior approchbull Dorsal spine ndashDL junction Antrolateral

approchbull Lumbar spine ampLumboscral junction

Extraperitoneal Transverse Vertebrotomy

Surgical technique

bull Costotransversectomyndash in tense paravertebral abscess

removendash transverse process rib ndash 2 inchs

Anterolateral decompressionbull Posterior part of ribbull Transverse processbull Pediclebull Part of the vertebral bodybull Griffith Seddon Roaf -- prone position

bull Tuli --- right lateral positionbull Advantage- 1 avoid venous congestion 2 avoid excessive bleeding 3 permits freer respiration 4 better look at site

Posterior Spinal Arthrodesisbull Byndash Albee amp Hibbsbull Albeendash tibial graft inserted longitudinally in to

the split spinous vertebral processbull Hibbsndash overlapping numerous small osseous flap

from contiguous laminae spinous process amp articular facets

bull Indicationsndash 1 mechanical instability 2 to stabilise craniovertebral region 3 as part of panvertebral operation

DYNAMIC CAGE GovenderampPrabhoo

SYNTHES PLATE WITHSAPCER

Yilmaz C Selek HY et al Anterior instrumentation for the Treatment of Spinal Tuberculosis J Bone and

Joint Surg 1999 81-A 1261-67

bull ldquowe feel that every attempt should be made to minimize this deformity with some form of instrumentation wherever indicated and preferably anteriorlyrsquordquo

Thank youThank you

  • Pottrsquos spine
  • Pottrsquos disease
  • Slide 3
  • Regional Distribution
  • Pathophysiology
  • Slide 6
  • Slide 7
  • Slide 8
  • Slide 9
  • Anatomically the lesion could be
  • History
  • Slide 12
  • Slide 13
  • Natural course of disease
  • Lab Studies
  • Slide 16
  • Slide 17
  • X Ray appearances
  • Slide 19
  • Slide 20
  • X-ray of the thoracolumbar spine (Lateral view) showing wedge collapse of L1 and L2 vertebral bodies
  • X-ray of the spine in a child showing complete destruction of D12 and L1 vertebral bodies leaving only the pedicles
  • Kumarrsquos clinico-radiological Classification
  • CT scanning
  • MRI
  • Slide 26
  • Myelography
  • Slide 28
  • Differentials
  • Complications of tuberculosis
  • Tb spine with PARAPLEGIA
  • Patho of Tuberculoses Paraplegia
  • Slide 33
  • Seddonrsquos Classification
  • Kumarrsquos classification of tuberculous paraplegia
  • Evolution of treatment
  • BASIC PRINCIPLES OF MANAGEMENT 10487291048729
  • Slide 38
  • What is Middle path regime
  • Slide 40
  • Drugs in middle path
  • Slide 43
  • Surgical indications
  • Other indications
  • Slide 46
  • APPROACH
  • Tulirsquos recommended approch
  • Surgical technique
  • Anterolateral decompression
  • Posterior Spinal Arthrodesis
  • DYNAMIC CAGE GovenderampPrabhoo
  • SYNTHES PLATE WITH SAPCER
  • Yilmaz C Selek HY et al Anterior instrumentation for the Treatment of Spinal Tuberculosis J Bone and Joint Surg 1999 81-A 1261-67
Page 14: Pott Disease

Lab Studiesbull Tuberculin skin test (purified protein derivative

[PPD]) demonstrates a positive finding in 84-95 of patients who are nonndashHIV-positive

bull Erythrocyte sedimentation rate (ESR) may be markedly elevated

bull The enzyme-linked immunosorbent assay (ELISA) has a reported sensitivity of 60 to 80 per cent

bull The polymerase chain reaction bull A brucella complement fixation test

bull IFN- Release Assays (IGRAs)bull Recently two in vitro assays that measure T

cell release of IFN- in response to stimulation with the highly tuberculosis-specific antigens ESAT-6 and CFP-10 have become commercially available

bull Microbiology studies to confirm diagnosis Obtain bone tissue or abscess samples to stain for acid-fast bacilli (AFB) and isolate organisms for culture and susceptibility CT-guided procedures can be used to guide percutaneous sampling of affected bone or soft tissue structures These study findings may be positive in only about 50 of the cases

X Ray appearances

bull Lytic destruction of anterior portion of vertebral body bull Increased anterior wedging bull Collapse of vertebral body bull Reactive sclerosis on a progressive lytic process bull Enlarged psoas shadow with or without calcificationbull Vertebral end plates are osteoporotic bull Intervertebral disks may be shrunk or destroyed bull Vertebral bodies show variable degrees of destruction bull Fusiform paravertebral shadows suggest abscess

formation bull Bone lesions may occur at more than one level

X Ray appearances

Discovertebral lesions detected in 93 of patients bull Localized fluffy osseous destruction with surrounding

osteoporosis is the earliest signs bull concentric collapse and may look like AVN bull Local lytic lesion may cause problem of diagnosis from

neoplasic lesion bull destruction of adjacent vertebrae Konstram (K) angle

appears and shows the progress on follow up bull Skipped lesion (10 cases) can be diagnosed on

suspicion and in correct size film

X-ray of the thoracolumbar spine (Lateral view) showing wedge collapse of L1 and L2 vertebral bodies

X-ray of the spine in a child showing complete destruction of D12 and L1 vertebral bodies leaving

only the pedicles

Kumarrsquos clinico-radiological Classification

stage features Usual duration

I Pre-destructive

Straightening spasm hyperemia in scinti

lt3 mo

II Early-destructive

Diminished space paradiscal erosion Knuckle lt10

2-4 mo

III Mild kyphos 2-3 verte k10-30 3-9 mo

IV Moderate kyphos

gt3 verte K30-60 6-24 mo

V Severe kyphos

gt3 verte Kgt60 gt2 years

CT scanning

bull CT scanning provides much better bony detail of irregular lytic lesions sclerosis disk collapse and disruption of bone circumference

bull Low-contrast resolution provides a better assessment of soft tissue particularly in epidural and paraspinal areas

bull It detects early lesions and is more effective for defining the shape and calcification of soft tissue abscesses

bull In contrast to pyogenic disease calcification is common in tuberculous lesions

MRI bull MRI is the criterion standard for evaluating disk

space infection and osteomyelitis of the spine bull MRI findings useful to differentiate tuberculous

spondylitis from pyogenic spondylitis include thin and smooth enhancement of the abscess wall and well-defined paraspinal abnormal signal

whereas thick and irregular enhancement of abscess wall and ill-defined paraspinal abnormal signal are suggestive of pyogenic spondylitis

bull contrast-enhanced MRI appears to be important in the differentiation of these two types of spondylitis

bull most effective for demonstrating neural compression

Myelographybull Spinal tumor syndromebull Multiple vertebral lesionsbull Patients not recovered after

decompression 1 Block present second decompression2 Block not present intrinsic damage

1Ischemic infarction 2Interstitial gliosis

3atrophy 4 tuberculous myelitis

5Myelomalacia

Differentials 1 Pyogenic infections2 Typhoid spine3 Brucella Spondylitis4 Mycotic Spondylitis5 Syphilitic6 Tumorous condition7 Primary malignant tumor 8 Multiple Myeloma9 Lymphomas10Secondary11Histocytosis-X12Spinal Osteochondrosis13Spondylolisthesis14Hydatid disease

Complications of tuberculosis

1 Paraplegia 2 Cold abscess3 Sinuses4 Secondary infection5 Amyloid disease6 Fatality

Tb spine with PARAPLEGIA

bull INCIDENCE 10-30bull Dorsal spine (MC)bull Motor functions affected before greater

than sensorybull Sense of position amp vibration last to

disappear

Patho of Tuberculoses Paraplegia1 Inflammatory Edema ndashvascular stasistoxin2 Extradural Mass ndash Tuberculous ostetis+

abscess3 Bony Disorder ndash Sequestra Internal Gibbus4 Meningeal changes ndash lsquodura as rule not

involvedrsquoExtradural grnulation --

contract cicatrization peridural fibrosis paraplegia

5 Infarction of spinal cord- Ant spinal artery

EndarteritisPeriarteritisThrombosis6 Changes in Spinal cord-

MyelomalacicSyringomyelic changeAtrophy ndashupto 50dec in dia-good functions

Seddonrsquos Classificationbull

GROUP A_-Early onset - This comes up in active stage of the disease within first 2 years

Compressive Agents are inflammatory edema granulation abscess casseous material sequestra and rarely ischaemic lesion

GROUP B -Late onset- Usually after 2 years of onset of the disease ndash due to recurrence or by mechanical pressure This can be better divided into

paraplegia with active disease and with healed disease

Active disease - Caseous material debris sequestrated disc or bone internal gibbus stenosis and deformity can cause compression

Healed disease - Usually internal gibbus and acute kyphotic deformity can also give late onset paraplegia Usually there is a continuous traction compression leading to paraplegia

Kumarrsquos classification oftuberculous paraplegia

stage Clinical features1 Negligible Unaware of neural deficit

Plantar extensor Ankle clonus2 Mild Walk with support

3 Moderate NonambulatoryParalysis in extentionsensory loss lt50

4 Severe 3+ paralysis in flexionsensory lossgt50 Sphinters involved

Evolution of treatment Pre-antitubercular erabull Artificial abscess- Pott in 1779bull Laminectomy amp laminotomy

chipault(1896 )bull Costo-transversectomy Menard in 1896bull Posterior mediastinotomybull Calves operation 1917bull Lateral rhachiotomy of carpener 1933bull Anterlateral decompression of Dottamp

Alexander1947

BASIC PRINCIPLES OFMANAGEMENT

10487291048729bull 10487291048729 Early diagnosisbull 10487291048729 Expeditious medical treatmentbull 10487291048729 Aggressive surgical approachbull 10487291048729 Prevent deformitybull 10487291048729 Expect good outcome

bull Studies performed by the British Medical Research Council indicate that tuberculous spondylitis of the thoracolumbar spine should be treated with combination chemotherapy for 6-9 months According to a 1994 recommendation by the US Centers for Disease Control and Prevention this is the treatment of choice

What is Middle path regimebull Admission rest in bed bull Chemotherapy bull X-ray amp ESR once in 3 monthsbull MRI CT at 6 months interval for 2 yearsbull Craniovertebral cervicodorsal lumbosacralamp

sacroiliac jointsbull Gradual mobilizationbull 3-9 weeks- back extention exercise 5-10 min 3-4

timesbull Spinal brace--- 18 months-2 years

bull Abcesses ndash aspirate near surface bull Instille 1gm Streptomycin +- INH in solbull Sinus heals 6-12 weeksbull Neural complications if responds 3-4 weeks -

surgery unnecssarybull Excisional surgery for posterior spinal diseasebull Operative debridement for patients ndashif no arrest

after 3-6 months- spinal arthrodesis (recommended)

bull Post op--Spinal brace--- 18 months-2 years

Drugs in middle path

phase duration drug

Intensive 5-6 months

INH 300-400mg

Rifampicin ofloxacin400-600mg streptomycin

Continuation

7-8 months

-do 3-4mth Pyrazinamide 1500mg4-5mth Rifampicin

Prophylactic

4-5 months

-do Ethambutol 1200mg

Surgical indications1 No sign of Neurological recovery after trial of 3-4

weeks therapy2 Neurological complication during treatment3 Neuro deficit becoming worse4 Recurrence of neuro complication5 Prevertebral cervical abscessesneurological

signsamp difficulty in deglutitionamp respiration6 Advanced cases- Sphincter involvement

flaccid paralysisSevere flexor spasms

Other indicationsbull Recurrent paraplegiabull Painful paraplegiandash dt root compressionetcbull Posterior spinal disease--involving the post

elements of vertbbull Spinal tumor syndrome resulting in cord

compressionbull Rapid onset paraplegia due to thrombosistrauma

etcbull Severe paraplegiabull Secondary to cervical disease and bull cauda equina paralysis

1 Decompression +- fusion

Failed responseToo advanced

2 Debridement+- fusion

Failed response after 3-6 monthsDoubtful diagnosisInstability

3 Debridement +-DECOMP+- fusion

Recrudescence of disease

4 Debridement+- fusion

Prevent severe Kyphosis

5 Anterior transpostion

Severe Kyphosis +neural deficit

6 Laminectomy STSsecondary stenosis posterior disease

APPROACH1 Cervical spine ndash Anterior retropharyngeal

(smith-Robinsonrsquos) Anterior approach ndash AnteriorMedial

border of sternocleidomastoid2 Dorsal spine (D1 to L1) ndash

1 Transthoraccic transpleural 2 Anterolateral decompression(D2 ndash

L1)3 Lumbar spine ndash Anterolateral(Lumbovertebrotomy) Extraperitoneal Ant approach

Tulirsquos recommended approch

bull Cervical spine ndashT1 Anterior approchbull Dorsal spine ndashDL junction Antrolateral

approchbull Lumbar spine ampLumboscral junction

Extraperitoneal Transverse Vertebrotomy

Surgical technique

bull Costotransversectomyndash in tense paravertebral abscess

removendash transverse process rib ndash 2 inchs

Anterolateral decompressionbull Posterior part of ribbull Transverse processbull Pediclebull Part of the vertebral bodybull Griffith Seddon Roaf -- prone position

bull Tuli --- right lateral positionbull Advantage- 1 avoid venous congestion 2 avoid excessive bleeding 3 permits freer respiration 4 better look at site

Posterior Spinal Arthrodesisbull Byndash Albee amp Hibbsbull Albeendash tibial graft inserted longitudinally in to

the split spinous vertebral processbull Hibbsndash overlapping numerous small osseous flap

from contiguous laminae spinous process amp articular facets

bull Indicationsndash 1 mechanical instability 2 to stabilise craniovertebral region 3 as part of panvertebral operation

DYNAMIC CAGE GovenderampPrabhoo

SYNTHES PLATE WITHSAPCER

Yilmaz C Selek HY et al Anterior instrumentation for the Treatment of Spinal Tuberculosis J Bone and

Joint Surg 1999 81-A 1261-67

bull ldquowe feel that every attempt should be made to minimize this deformity with some form of instrumentation wherever indicated and preferably anteriorlyrsquordquo

Thank youThank you

  • Pottrsquos spine
  • Pottrsquos disease
  • Slide 3
  • Regional Distribution
  • Pathophysiology
  • Slide 6
  • Slide 7
  • Slide 8
  • Slide 9
  • Anatomically the lesion could be
  • History
  • Slide 12
  • Slide 13
  • Natural course of disease
  • Lab Studies
  • Slide 16
  • Slide 17
  • X Ray appearances
  • Slide 19
  • Slide 20
  • X-ray of the thoracolumbar spine (Lateral view) showing wedge collapse of L1 and L2 vertebral bodies
  • X-ray of the spine in a child showing complete destruction of D12 and L1 vertebral bodies leaving only the pedicles
  • Kumarrsquos clinico-radiological Classification
  • CT scanning
  • MRI
  • Slide 26
  • Myelography
  • Slide 28
  • Differentials
  • Complications of tuberculosis
  • Tb spine with PARAPLEGIA
  • Patho of Tuberculoses Paraplegia
  • Slide 33
  • Seddonrsquos Classification
  • Kumarrsquos classification of tuberculous paraplegia
  • Evolution of treatment
  • BASIC PRINCIPLES OF MANAGEMENT 10487291048729
  • Slide 38
  • What is Middle path regime
  • Slide 40
  • Drugs in middle path
  • Slide 43
  • Surgical indications
  • Other indications
  • Slide 46
  • APPROACH
  • Tulirsquos recommended approch
  • Surgical technique
  • Anterolateral decompression
  • Posterior Spinal Arthrodesis
  • DYNAMIC CAGE GovenderampPrabhoo
  • SYNTHES PLATE WITH SAPCER
  • Yilmaz C Selek HY et al Anterior instrumentation for the Treatment of Spinal Tuberculosis J Bone and Joint Surg 1999 81-A 1261-67
Page 15: Pott Disease

bull IFN- Release Assays (IGRAs)bull Recently two in vitro assays that measure T

cell release of IFN- in response to stimulation with the highly tuberculosis-specific antigens ESAT-6 and CFP-10 have become commercially available

bull Microbiology studies to confirm diagnosis Obtain bone tissue or abscess samples to stain for acid-fast bacilli (AFB) and isolate organisms for culture and susceptibility CT-guided procedures can be used to guide percutaneous sampling of affected bone or soft tissue structures These study findings may be positive in only about 50 of the cases

X Ray appearances

bull Lytic destruction of anterior portion of vertebral body bull Increased anterior wedging bull Collapse of vertebral body bull Reactive sclerosis on a progressive lytic process bull Enlarged psoas shadow with or without calcificationbull Vertebral end plates are osteoporotic bull Intervertebral disks may be shrunk or destroyed bull Vertebral bodies show variable degrees of destruction bull Fusiform paravertebral shadows suggest abscess

formation bull Bone lesions may occur at more than one level

X Ray appearances

Discovertebral lesions detected in 93 of patients bull Localized fluffy osseous destruction with surrounding

osteoporosis is the earliest signs bull concentric collapse and may look like AVN bull Local lytic lesion may cause problem of diagnosis from

neoplasic lesion bull destruction of adjacent vertebrae Konstram (K) angle

appears and shows the progress on follow up bull Skipped lesion (10 cases) can be diagnosed on

suspicion and in correct size film

X-ray of the thoracolumbar spine (Lateral view) showing wedge collapse of L1 and L2 vertebral bodies

X-ray of the spine in a child showing complete destruction of D12 and L1 vertebral bodies leaving

only the pedicles

Kumarrsquos clinico-radiological Classification

stage features Usual duration

I Pre-destructive

Straightening spasm hyperemia in scinti

lt3 mo

II Early-destructive

Diminished space paradiscal erosion Knuckle lt10

2-4 mo

III Mild kyphos 2-3 verte k10-30 3-9 mo

IV Moderate kyphos

gt3 verte K30-60 6-24 mo

V Severe kyphos

gt3 verte Kgt60 gt2 years

CT scanning

bull CT scanning provides much better bony detail of irregular lytic lesions sclerosis disk collapse and disruption of bone circumference

bull Low-contrast resolution provides a better assessment of soft tissue particularly in epidural and paraspinal areas

bull It detects early lesions and is more effective for defining the shape and calcification of soft tissue abscesses

bull In contrast to pyogenic disease calcification is common in tuberculous lesions

MRI bull MRI is the criterion standard for evaluating disk

space infection and osteomyelitis of the spine bull MRI findings useful to differentiate tuberculous

spondylitis from pyogenic spondylitis include thin and smooth enhancement of the abscess wall and well-defined paraspinal abnormal signal

whereas thick and irregular enhancement of abscess wall and ill-defined paraspinal abnormal signal are suggestive of pyogenic spondylitis

bull contrast-enhanced MRI appears to be important in the differentiation of these two types of spondylitis

bull most effective for demonstrating neural compression

Myelographybull Spinal tumor syndromebull Multiple vertebral lesionsbull Patients not recovered after

decompression 1 Block present second decompression2 Block not present intrinsic damage

1Ischemic infarction 2Interstitial gliosis

3atrophy 4 tuberculous myelitis

5Myelomalacia

Differentials 1 Pyogenic infections2 Typhoid spine3 Brucella Spondylitis4 Mycotic Spondylitis5 Syphilitic6 Tumorous condition7 Primary malignant tumor 8 Multiple Myeloma9 Lymphomas10Secondary11Histocytosis-X12Spinal Osteochondrosis13Spondylolisthesis14Hydatid disease

Complications of tuberculosis

1 Paraplegia 2 Cold abscess3 Sinuses4 Secondary infection5 Amyloid disease6 Fatality

Tb spine with PARAPLEGIA

bull INCIDENCE 10-30bull Dorsal spine (MC)bull Motor functions affected before greater

than sensorybull Sense of position amp vibration last to

disappear

Patho of Tuberculoses Paraplegia1 Inflammatory Edema ndashvascular stasistoxin2 Extradural Mass ndash Tuberculous ostetis+

abscess3 Bony Disorder ndash Sequestra Internal Gibbus4 Meningeal changes ndash lsquodura as rule not

involvedrsquoExtradural grnulation --

contract cicatrization peridural fibrosis paraplegia

5 Infarction of spinal cord- Ant spinal artery

EndarteritisPeriarteritisThrombosis6 Changes in Spinal cord-

MyelomalacicSyringomyelic changeAtrophy ndashupto 50dec in dia-good functions

Seddonrsquos Classificationbull

GROUP A_-Early onset - This comes up in active stage of the disease within first 2 years

Compressive Agents are inflammatory edema granulation abscess casseous material sequestra and rarely ischaemic lesion

GROUP B -Late onset- Usually after 2 years of onset of the disease ndash due to recurrence or by mechanical pressure This can be better divided into

paraplegia with active disease and with healed disease

Active disease - Caseous material debris sequestrated disc or bone internal gibbus stenosis and deformity can cause compression

Healed disease - Usually internal gibbus and acute kyphotic deformity can also give late onset paraplegia Usually there is a continuous traction compression leading to paraplegia

Kumarrsquos classification oftuberculous paraplegia

stage Clinical features1 Negligible Unaware of neural deficit

Plantar extensor Ankle clonus2 Mild Walk with support

3 Moderate NonambulatoryParalysis in extentionsensory loss lt50

4 Severe 3+ paralysis in flexionsensory lossgt50 Sphinters involved

Evolution of treatment Pre-antitubercular erabull Artificial abscess- Pott in 1779bull Laminectomy amp laminotomy

chipault(1896 )bull Costo-transversectomy Menard in 1896bull Posterior mediastinotomybull Calves operation 1917bull Lateral rhachiotomy of carpener 1933bull Anterlateral decompression of Dottamp

Alexander1947

BASIC PRINCIPLES OFMANAGEMENT

10487291048729bull 10487291048729 Early diagnosisbull 10487291048729 Expeditious medical treatmentbull 10487291048729 Aggressive surgical approachbull 10487291048729 Prevent deformitybull 10487291048729 Expect good outcome

bull Studies performed by the British Medical Research Council indicate that tuberculous spondylitis of the thoracolumbar spine should be treated with combination chemotherapy for 6-9 months According to a 1994 recommendation by the US Centers for Disease Control and Prevention this is the treatment of choice

What is Middle path regimebull Admission rest in bed bull Chemotherapy bull X-ray amp ESR once in 3 monthsbull MRI CT at 6 months interval for 2 yearsbull Craniovertebral cervicodorsal lumbosacralamp

sacroiliac jointsbull Gradual mobilizationbull 3-9 weeks- back extention exercise 5-10 min 3-4

timesbull Spinal brace--- 18 months-2 years

bull Abcesses ndash aspirate near surface bull Instille 1gm Streptomycin +- INH in solbull Sinus heals 6-12 weeksbull Neural complications if responds 3-4 weeks -

surgery unnecssarybull Excisional surgery for posterior spinal diseasebull Operative debridement for patients ndashif no arrest

after 3-6 months- spinal arthrodesis (recommended)

bull Post op--Spinal brace--- 18 months-2 years

Drugs in middle path

phase duration drug

Intensive 5-6 months

INH 300-400mg

Rifampicin ofloxacin400-600mg streptomycin

Continuation

7-8 months

-do 3-4mth Pyrazinamide 1500mg4-5mth Rifampicin

Prophylactic

4-5 months

-do Ethambutol 1200mg

Surgical indications1 No sign of Neurological recovery after trial of 3-4

weeks therapy2 Neurological complication during treatment3 Neuro deficit becoming worse4 Recurrence of neuro complication5 Prevertebral cervical abscessesneurological

signsamp difficulty in deglutitionamp respiration6 Advanced cases- Sphincter involvement

flaccid paralysisSevere flexor spasms

Other indicationsbull Recurrent paraplegiabull Painful paraplegiandash dt root compressionetcbull Posterior spinal disease--involving the post

elements of vertbbull Spinal tumor syndrome resulting in cord

compressionbull Rapid onset paraplegia due to thrombosistrauma

etcbull Severe paraplegiabull Secondary to cervical disease and bull cauda equina paralysis

1 Decompression +- fusion

Failed responseToo advanced

2 Debridement+- fusion

Failed response after 3-6 monthsDoubtful diagnosisInstability

3 Debridement +-DECOMP+- fusion

Recrudescence of disease

4 Debridement+- fusion

Prevent severe Kyphosis

5 Anterior transpostion

Severe Kyphosis +neural deficit

6 Laminectomy STSsecondary stenosis posterior disease

APPROACH1 Cervical spine ndash Anterior retropharyngeal

(smith-Robinsonrsquos) Anterior approach ndash AnteriorMedial

border of sternocleidomastoid2 Dorsal spine (D1 to L1) ndash

1 Transthoraccic transpleural 2 Anterolateral decompression(D2 ndash

L1)3 Lumbar spine ndash Anterolateral(Lumbovertebrotomy) Extraperitoneal Ant approach

Tulirsquos recommended approch

bull Cervical spine ndashT1 Anterior approchbull Dorsal spine ndashDL junction Antrolateral

approchbull Lumbar spine ampLumboscral junction

Extraperitoneal Transverse Vertebrotomy

Surgical technique

bull Costotransversectomyndash in tense paravertebral abscess

removendash transverse process rib ndash 2 inchs

Anterolateral decompressionbull Posterior part of ribbull Transverse processbull Pediclebull Part of the vertebral bodybull Griffith Seddon Roaf -- prone position

bull Tuli --- right lateral positionbull Advantage- 1 avoid venous congestion 2 avoid excessive bleeding 3 permits freer respiration 4 better look at site

Posterior Spinal Arthrodesisbull Byndash Albee amp Hibbsbull Albeendash tibial graft inserted longitudinally in to

the split spinous vertebral processbull Hibbsndash overlapping numerous small osseous flap

from contiguous laminae spinous process amp articular facets

bull Indicationsndash 1 mechanical instability 2 to stabilise craniovertebral region 3 as part of panvertebral operation

DYNAMIC CAGE GovenderampPrabhoo

SYNTHES PLATE WITHSAPCER

Yilmaz C Selek HY et al Anterior instrumentation for the Treatment of Spinal Tuberculosis J Bone and

Joint Surg 1999 81-A 1261-67

bull ldquowe feel that every attempt should be made to minimize this deformity with some form of instrumentation wherever indicated and preferably anteriorlyrsquordquo

Thank youThank you

  • Pottrsquos spine
  • Pottrsquos disease
  • Slide 3
  • Regional Distribution
  • Pathophysiology
  • Slide 6
  • Slide 7
  • Slide 8
  • Slide 9
  • Anatomically the lesion could be
  • History
  • Slide 12
  • Slide 13
  • Natural course of disease
  • Lab Studies
  • Slide 16
  • Slide 17
  • X Ray appearances
  • Slide 19
  • Slide 20
  • X-ray of the thoracolumbar spine (Lateral view) showing wedge collapse of L1 and L2 vertebral bodies
  • X-ray of the spine in a child showing complete destruction of D12 and L1 vertebral bodies leaving only the pedicles
  • Kumarrsquos clinico-radiological Classification
  • CT scanning
  • MRI
  • Slide 26
  • Myelography
  • Slide 28
  • Differentials
  • Complications of tuberculosis
  • Tb spine with PARAPLEGIA
  • Patho of Tuberculoses Paraplegia
  • Slide 33
  • Seddonrsquos Classification
  • Kumarrsquos classification of tuberculous paraplegia
  • Evolution of treatment
  • BASIC PRINCIPLES OF MANAGEMENT 10487291048729
  • Slide 38
  • What is Middle path regime
  • Slide 40
  • Drugs in middle path
  • Slide 43
  • Surgical indications
  • Other indications
  • Slide 46
  • APPROACH
  • Tulirsquos recommended approch
  • Surgical technique
  • Anterolateral decompression
  • Posterior Spinal Arthrodesis
  • DYNAMIC CAGE GovenderampPrabhoo
  • SYNTHES PLATE WITH SAPCER
  • Yilmaz C Selek HY et al Anterior instrumentation for the Treatment of Spinal Tuberculosis J Bone and Joint Surg 1999 81-A 1261-67
Page 16: Pott Disease

bull Microbiology studies to confirm diagnosis Obtain bone tissue or abscess samples to stain for acid-fast bacilli (AFB) and isolate organisms for culture and susceptibility CT-guided procedures can be used to guide percutaneous sampling of affected bone or soft tissue structures These study findings may be positive in only about 50 of the cases

X Ray appearances

bull Lytic destruction of anterior portion of vertebral body bull Increased anterior wedging bull Collapse of vertebral body bull Reactive sclerosis on a progressive lytic process bull Enlarged psoas shadow with or without calcificationbull Vertebral end plates are osteoporotic bull Intervertebral disks may be shrunk or destroyed bull Vertebral bodies show variable degrees of destruction bull Fusiform paravertebral shadows suggest abscess

formation bull Bone lesions may occur at more than one level

X Ray appearances

Discovertebral lesions detected in 93 of patients bull Localized fluffy osseous destruction with surrounding

osteoporosis is the earliest signs bull concentric collapse and may look like AVN bull Local lytic lesion may cause problem of diagnosis from

neoplasic lesion bull destruction of adjacent vertebrae Konstram (K) angle

appears and shows the progress on follow up bull Skipped lesion (10 cases) can be diagnosed on

suspicion and in correct size film

X-ray of the thoracolumbar spine (Lateral view) showing wedge collapse of L1 and L2 vertebral bodies

X-ray of the spine in a child showing complete destruction of D12 and L1 vertebral bodies leaving

only the pedicles

Kumarrsquos clinico-radiological Classification

stage features Usual duration

I Pre-destructive

Straightening spasm hyperemia in scinti

lt3 mo

II Early-destructive

Diminished space paradiscal erosion Knuckle lt10

2-4 mo

III Mild kyphos 2-3 verte k10-30 3-9 mo

IV Moderate kyphos

gt3 verte K30-60 6-24 mo

V Severe kyphos

gt3 verte Kgt60 gt2 years

CT scanning

bull CT scanning provides much better bony detail of irregular lytic lesions sclerosis disk collapse and disruption of bone circumference

bull Low-contrast resolution provides a better assessment of soft tissue particularly in epidural and paraspinal areas

bull It detects early lesions and is more effective for defining the shape and calcification of soft tissue abscesses

bull In contrast to pyogenic disease calcification is common in tuberculous lesions

MRI bull MRI is the criterion standard for evaluating disk

space infection and osteomyelitis of the spine bull MRI findings useful to differentiate tuberculous

spondylitis from pyogenic spondylitis include thin and smooth enhancement of the abscess wall and well-defined paraspinal abnormal signal

whereas thick and irregular enhancement of abscess wall and ill-defined paraspinal abnormal signal are suggestive of pyogenic spondylitis

bull contrast-enhanced MRI appears to be important in the differentiation of these two types of spondylitis

bull most effective for demonstrating neural compression

Myelographybull Spinal tumor syndromebull Multiple vertebral lesionsbull Patients not recovered after

decompression 1 Block present second decompression2 Block not present intrinsic damage

1Ischemic infarction 2Interstitial gliosis

3atrophy 4 tuberculous myelitis

5Myelomalacia

Differentials 1 Pyogenic infections2 Typhoid spine3 Brucella Spondylitis4 Mycotic Spondylitis5 Syphilitic6 Tumorous condition7 Primary malignant tumor 8 Multiple Myeloma9 Lymphomas10Secondary11Histocytosis-X12Spinal Osteochondrosis13Spondylolisthesis14Hydatid disease

Complications of tuberculosis

1 Paraplegia 2 Cold abscess3 Sinuses4 Secondary infection5 Amyloid disease6 Fatality

Tb spine with PARAPLEGIA

bull INCIDENCE 10-30bull Dorsal spine (MC)bull Motor functions affected before greater

than sensorybull Sense of position amp vibration last to

disappear

Patho of Tuberculoses Paraplegia1 Inflammatory Edema ndashvascular stasistoxin2 Extradural Mass ndash Tuberculous ostetis+

abscess3 Bony Disorder ndash Sequestra Internal Gibbus4 Meningeal changes ndash lsquodura as rule not

involvedrsquoExtradural grnulation --

contract cicatrization peridural fibrosis paraplegia

5 Infarction of spinal cord- Ant spinal artery

EndarteritisPeriarteritisThrombosis6 Changes in Spinal cord-

MyelomalacicSyringomyelic changeAtrophy ndashupto 50dec in dia-good functions

Seddonrsquos Classificationbull

GROUP A_-Early onset - This comes up in active stage of the disease within first 2 years

Compressive Agents are inflammatory edema granulation abscess casseous material sequestra and rarely ischaemic lesion

GROUP B -Late onset- Usually after 2 years of onset of the disease ndash due to recurrence or by mechanical pressure This can be better divided into

paraplegia with active disease and with healed disease

Active disease - Caseous material debris sequestrated disc or bone internal gibbus stenosis and deformity can cause compression

Healed disease - Usually internal gibbus and acute kyphotic deformity can also give late onset paraplegia Usually there is a continuous traction compression leading to paraplegia

Kumarrsquos classification oftuberculous paraplegia

stage Clinical features1 Negligible Unaware of neural deficit

Plantar extensor Ankle clonus2 Mild Walk with support

3 Moderate NonambulatoryParalysis in extentionsensory loss lt50

4 Severe 3+ paralysis in flexionsensory lossgt50 Sphinters involved

Evolution of treatment Pre-antitubercular erabull Artificial abscess- Pott in 1779bull Laminectomy amp laminotomy

chipault(1896 )bull Costo-transversectomy Menard in 1896bull Posterior mediastinotomybull Calves operation 1917bull Lateral rhachiotomy of carpener 1933bull Anterlateral decompression of Dottamp

Alexander1947

BASIC PRINCIPLES OFMANAGEMENT

10487291048729bull 10487291048729 Early diagnosisbull 10487291048729 Expeditious medical treatmentbull 10487291048729 Aggressive surgical approachbull 10487291048729 Prevent deformitybull 10487291048729 Expect good outcome

bull Studies performed by the British Medical Research Council indicate that tuberculous spondylitis of the thoracolumbar spine should be treated with combination chemotherapy for 6-9 months According to a 1994 recommendation by the US Centers for Disease Control and Prevention this is the treatment of choice

What is Middle path regimebull Admission rest in bed bull Chemotherapy bull X-ray amp ESR once in 3 monthsbull MRI CT at 6 months interval for 2 yearsbull Craniovertebral cervicodorsal lumbosacralamp

sacroiliac jointsbull Gradual mobilizationbull 3-9 weeks- back extention exercise 5-10 min 3-4

timesbull Spinal brace--- 18 months-2 years

bull Abcesses ndash aspirate near surface bull Instille 1gm Streptomycin +- INH in solbull Sinus heals 6-12 weeksbull Neural complications if responds 3-4 weeks -

surgery unnecssarybull Excisional surgery for posterior spinal diseasebull Operative debridement for patients ndashif no arrest

after 3-6 months- spinal arthrodesis (recommended)

bull Post op--Spinal brace--- 18 months-2 years

Drugs in middle path

phase duration drug

Intensive 5-6 months

INH 300-400mg

Rifampicin ofloxacin400-600mg streptomycin

Continuation

7-8 months

-do 3-4mth Pyrazinamide 1500mg4-5mth Rifampicin

Prophylactic

4-5 months

-do Ethambutol 1200mg

Surgical indications1 No sign of Neurological recovery after trial of 3-4

weeks therapy2 Neurological complication during treatment3 Neuro deficit becoming worse4 Recurrence of neuro complication5 Prevertebral cervical abscessesneurological

signsamp difficulty in deglutitionamp respiration6 Advanced cases- Sphincter involvement

flaccid paralysisSevere flexor spasms

Other indicationsbull Recurrent paraplegiabull Painful paraplegiandash dt root compressionetcbull Posterior spinal disease--involving the post

elements of vertbbull Spinal tumor syndrome resulting in cord

compressionbull Rapid onset paraplegia due to thrombosistrauma

etcbull Severe paraplegiabull Secondary to cervical disease and bull cauda equina paralysis

1 Decompression +- fusion

Failed responseToo advanced

2 Debridement+- fusion

Failed response after 3-6 monthsDoubtful diagnosisInstability

3 Debridement +-DECOMP+- fusion

Recrudescence of disease

4 Debridement+- fusion

Prevent severe Kyphosis

5 Anterior transpostion

Severe Kyphosis +neural deficit

6 Laminectomy STSsecondary stenosis posterior disease

APPROACH1 Cervical spine ndash Anterior retropharyngeal

(smith-Robinsonrsquos) Anterior approach ndash AnteriorMedial

border of sternocleidomastoid2 Dorsal spine (D1 to L1) ndash

1 Transthoraccic transpleural 2 Anterolateral decompression(D2 ndash

L1)3 Lumbar spine ndash Anterolateral(Lumbovertebrotomy) Extraperitoneal Ant approach

Tulirsquos recommended approch

bull Cervical spine ndashT1 Anterior approchbull Dorsal spine ndashDL junction Antrolateral

approchbull Lumbar spine ampLumboscral junction

Extraperitoneal Transverse Vertebrotomy

Surgical technique

bull Costotransversectomyndash in tense paravertebral abscess

removendash transverse process rib ndash 2 inchs

Anterolateral decompressionbull Posterior part of ribbull Transverse processbull Pediclebull Part of the vertebral bodybull Griffith Seddon Roaf -- prone position

bull Tuli --- right lateral positionbull Advantage- 1 avoid venous congestion 2 avoid excessive bleeding 3 permits freer respiration 4 better look at site

Posterior Spinal Arthrodesisbull Byndash Albee amp Hibbsbull Albeendash tibial graft inserted longitudinally in to

the split spinous vertebral processbull Hibbsndash overlapping numerous small osseous flap

from contiguous laminae spinous process amp articular facets

bull Indicationsndash 1 mechanical instability 2 to stabilise craniovertebral region 3 as part of panvertebral operation

DYNAMIC CAGE GovenderampPrabhoo

SYNTHES PLATE WITHSAPCER

Yilmaz C Selek HY et al Anterior instrumentation for the Treatment of Spinal Tuberculosis J Bone and

Joint Surg 1999 81-A 1261-67

bull ldquowe feel that every attempt should be made to minimize this deformity with some form of instrumentation wherever indicated and preferably anteriorlyrsquordquo

Thank youThank you

  • Pottrsquos spine
  • Pottrsquos disease
  • Slide 3
  • Regional Distribution
  • Pathophysiology
  • Slide 6
  • Slide 7
  • Slide 8
  • Slide 9
  • Anatomically the lesion could be
  • History
  • Slide 12
  • Slide 13
  • Natural course of disease
  • Lab Studies
  • Slide 16
  • Slide 17
  • X Ray appearances
  • Slide 19
  • Slide 20
  • X-ray of the thoracolumbar spine (Lateral view) showing wedge collapse of L1 and L2 vertebral bodies
  • X-ray of the spine in a child showing complete destruction of D12 and L1 vertebral bodies leaving only the pedicles
  • Kumarrsquos clinico-radiological Classification
  • CT scanning
  • MRI
  • Slide 26
  • Myelography
  • Slide 28
  • Differentials
  • Complications of tuberculosis
  • Tb spine with PARAPLEGIA
  • Patho of Tuberculoses Paraplegia
  • Slide 33
  • Seddonrsquos Classification
  • Kumarrsquos classification of tuberculous paraplegia
  • Evolution of treatment
  • BASIC PRINCIPLES OF MANAGEMENT 10487291048729
  • Slide 38
  • What is Middle path regime
  • Slide 40
  • Drugs in middle path
  • Slide 43
  • Surgical indications
  • Other indications
  • Slide 46
  • APPROACH
  • Tulirsquos recommended approch
  • Surgical technique
  • Anterolateral decompression
  • Posterior Spinal Arthrodesis
  • DYNAMIC CAGE GovenderampPrabhoo
  • SYNTHES PLATE WITH SAPCER
  • Yilmaz C Selek HY et al Anterior instrumentation for the Treatment of Spinal Tuberculosis J Bone and Joint Surg 1999 81-A 1261-67
Page 17: Pott Disease

X Ray appearances

bull Lytic destruction of anterior portion of vertebral body bull Increased anterior wedging bull Collapse of vertebral body bull Reactive sclerosis on a progressive lytic process bull Enlarged psoas shadow with or without calcificationbull Vertebral end plates are osteoporotic bull Intervertebral disks may be shrunk or destroyed bull Vertebral bodies show variable degrees of destruction bull Fusiform paravertebral shadows suggest abscess

formation bull Bone lesions may occur at more than one level

X Ray appearances

Discovertebral lesions detected in 93 of patients bull Localized fluffy osseous destruction with surrounding

osteoporosis is the earliest signs bull concentric collapse and may look like AVN bull Local lytic lesion may cause problem of diagnosis from

neoplasic lesion bull destruction of adjacent vertebrae Konstram (K) angle

appears and shows the progress on follow up bull Skipped lesion (10 cases) can be diagnosed on

suspicion and in correct size film

X-ray of the thoracolumbar spine (Lateral view) showing wedge collapse of L1 and L2 vertebral bodies

X-ray of the spine in a child showing complete destruction of D12 and L1 vertebral bodies leaving

only the pedicles

Kumarrsquos clinico-radiological Classification

stage features Usual duration

I Pre-destructive

Straightening spasm hyperemia in scinti

lt3 mo

II Early-destructive

Diminished space paradiscal erosion Knuckle lt10

2-4 mo

III Mild kyphos 2-3 verte k10-30 3-9 mo

IV Moderate kyphos

gt3 verte K30-60 6-24 mo

V Severe kyphos

gt3 verte Kgt60 gt2 years

CT scanning

bull CT scanning provides much better bony detail of irregular lytic lesions sclerosis disk collapse and disruption of bone circumference

bull Low-contrast resolution provides a better assessment of soft tissue particularly in epidural and paraspinal areas

bull It detects early lesions and is more effective for defining the shape and calcification of soft tissue abscesses

bull In contrast to pyogenic disease calcification is common in tuberculous lesions

MRI bull MRI is the criterion standard for evaluating disk

space infection and osteomyelitis of the spine bull MRI findings useful to differentiate tuberculous

spondylitis from pyogenic spondylitis include thin and smooth enhancement of the abscess wall and well-defined paraspinal abnormal signal

whereas thick and irregular enhancement of abscess wall and ill-defined paraspinal abnormal signal are suggestive of pyogenic spondylitis

bull contrast-enhanced MRI appears to be important in the differentiation of these two types of spondylitis

bull most effective for demonstrating neural compression

Myelographybull Spinal tumor syndromebull Multiple vertebral lesionsbull Patients not recovered after

decompression 1 Block present second decompression2 Block not present intrinsic damage

1Ischemic infarction 2Interstitial gliosis

3atrophy 4 tuberculous myelitis

5Myelomalacia

Differentials 1 Pyogenic infections2 Typhoid spine3 Brucella Spondylitis4 Mycotic Spondylitis5 Syphilitic6 Tumorous condition7 Primary malignant tumor 8 Multiple Myeloma9 Lymphomas10Secondary11Histocytosis-X12Spinal Osteochondrosis13Spondylolisthesis14Hydatid disease

Complications of tuberculosis

1 Paraplegia 2 Cold abscess3 Sinuses4 Secondary infection5 Amyloid disease6 Fatality

Tb spine with PARAPLEGIA

bull INCIDENCE 10-30bull Dorsal spine (MC)bull Motor functions affected before greater

than sensorybull Sense of position amp vibration last to

disappear

Patho of Tuberculoses Paraplegia1 Inflammatory Edema ndashvascular stasistoxin2 Extradural Mass ndash Tuberculous ostetis+

abscess3 Bony Disorder ndash Sequestra Internal Gibbus4 Meningeal changes ndash lsquodura as rule not

involvedrsquoExtradural grnulation --

contract cicatrization peridural fibrosis paraplegia

5 Infarction of spinal cord- Ant spinal artery

EndarteritisPeriarteritisThrombosis6 Changes in Spinal cord-

MyelomalacicSyringomyelic changeAtrophy ndashupto 50dec in dia-good functions

Seddonrsquos Classificationbull

GROUP A_-Early onset - This comes up in active stage of the disease within first 2 years

Compressive Agents are inflammatory edema granulation abscess casseous material sequestra and rarely ischaemic lesion

GROUP B -Late onset- Usually after 2 years of onset of the disease ndash due to recurrence or by mechanical pressure This can be better divided into

paraplegia with active disease and with healed disease

Active disease - Caseous material debris sequestrated disc or bone internal gibbus stenosis and deformity can cause compression

Healed disease - Usually internal gibbus and acute kyphotic deformity can also give late onset paraplegia Usually there is a continuous traction compression leading to paraplegia

Kumarrsquos classification oftuberculous paraplegia

stage Clinical features1 Negligible Unaware of neural deficit

Plantar extensor Ankle clonus2 Mild Walk with support

3 Moderate NonambulatoryParalysis in extentionsensory loss lt50

4 Severe 3+ paralysis in flexionsensory lossgt50 Sphinters involved

Evolution of treatment Pre-antitubercular erabull Artificial abscess- Pott in 1779bull Laminectomy amp laminotomy

chipault(1896 )bull Costo-transversectomy Menard in 1896bull Posterior mediastinotomybull Calves operation 1917bull Lateral rhachiotomy of carpener 1933bull Anterlateral decompression of Dottamp

Alexander1947

BASIC PRINCIPLES OFMANAGEMENT

10487291048729bull 10487291048729 Early diagnosisbull 10487291048729 Expeditious medical treatmentbull 10487291048729 Aggressive surgical approachbull 10487291048729 Prevent deformitybull 10487291048729 Expect good outcome

bull Studies performed by the British Medical Research Council indicate that tuberculous spondylitis of the thoracolumbar spine should be treated with combination chemotherapy for 6-9 months According to a 1994 recommendation by the US Centers for Disease Control and Prevention this is the treatment of choice

What is Middle path regimebull Admission rest in bed bull Chemotherapy bull X-ray amp ESR once in 3 monthsbull MRI CT at 6 months interval for 2 yearsbull Craniovertebral cervicodorsal lumbosacralamp

sacroiliac jointsbull Gradual mobilizationbull 3-9 weeks- back extention exercise 5-10 min 3-4

timesbull Spinal brace--- 18 months-2 years

bull Abcesses ndash aspirate near surface bull Instille 1gm Streptomycin +- INH in solbull Sinus heals 6-12 weeksbull Neural complications if responds 3-4 weeks -

surgery unnecssarybull Excisional surgery for posterior spinal diseasebull Operative debridement for patients ndashif no arrest

after 3-6 months- spinal arthrodesis (recommended)

bull Post op--Spinal brace--- 18 months-2 years

Drugs in middle path

phase duration drug

Intensive 5-6 months

INH 300-400mg

Rifampicin ofloxacin400-600mg streptomycin

Continuation

7-8 months

-do 3-4mth Pyrazinamide 1500mg4-5mth Rifampicin

Prophylactic

4-5 months

-do Ethambutol 1200mg

Surgical indications1 No sign of Neurological recovery after trial of 3-4

weeks therapy2 Neurological complication during treatment3 Neuro deficit becoming worse4 Recurrence of neuro complication5 Prevertebral cervical abscessesneurological

signsamp difficulty in deglutitionamp respiration6 Advanced cases- Sphincter involvement

flaccid paralysisSevere flexor spasms

Other indicationsbull Recurrent paraplegiabull Painful paraplegiandash dt root compressionetcbull Posterior spinal disease--involving the post

elements of vertbbull Spinal tumor syndrome resulting in cord

compressionbull Rapid onset paraplegia due to thrombosistrauma

etcbull Severe paraplegiabull Secondary to cervical disease and bull cauda equina paralysis

1 Decompression +- fusion

Failed responseToo advanced

2 Debridement+- fusion

Failed response after 3-6 monthsDoubtful diagnosisInstability

3 Debridement +-DECOMP+- fusion

Recrudescence of disease

4 Debridement+- fusion

Prevent severe Kyphosis

5 Anterior transpostion

Severe Kyphosis +neural deficit

6 Laminectomy STSsecondary stenosis posterior disease

APPROACH1 Cervical spine ndash Anterior retropharyngeal

(smith-Robinsonrsquos) Anterior approach ndash AnteriorMedial

border of sternocleidomastoid2 Dorsal spine (D1 to L1) ndash

1 Transthoraccic transpleural 2 Anterolateral decompression(D2 ndash

L1)3 Lumbar spine ndash Anterolateral(Lumbovertebrotomy) Extraperitoneal Ant approach

Tulirsquos recommended approch

bull Cervical spine ndashT1 Anterior approchbull Dorsal spine ndashDL junction Antrolateral

approchbull Lumbar spine ampLumboscral junction

Extraperitoneal Transverse Vertebrotomy

Surgical technique

bull Costotransversectomyndash in tense paravertebral abscess

removendash transverse process rib ndash 2 inchs

Anterolateral decompressionbull Posterior part of ribbull Transverse processbull Pediclebull Part of the vertebral bodybull Griffith Seddon Roaf -- prone position

bull Tuli --- right lateral positionbull Advantage- 1 avoid venous congestion 2 avoid excessive bleeding 3 permits freer respiration 4 better look at site

Posterior Spinal Arthrodesisbull Byndash Albee amp Hibbsbull Albeendash tibial graft inserted longitudinally in to

the split spinous vertebral processbull Hibbsndash overlapping numerous small osseous flap

from contiguous laminae spinous process amp articular facets

bull Indicationsndash 1 mechanical instability 2 to stabilise craniovertebral region 3 as part of panvertebral operation

DYNAMIC CAGE GovenderampPrabhoo

SYNTHES PLATE WITHSAPCER

Yilmaz C Selek HY et al Anterior instrumentation for the Treatment of Spinal Tuberculosis J Bone and

Joint Surg 1999 81-A 1261-67

bull ldquowe feel that every attempt should be made to minimize this deformity with some form of instrumentation wherever indicated and preferably anteriorlyrsquordquo

Thank youThank you

  • Pottrsquos spine
  • Pottrsquos disease
  • Slide 3
  • Regional Distribution
  • Pathophysiology
  • Slide 6
  • Slide 7
  • Slide 8
  • Slide 9
  • Anatomically the lesion could be
  • History
  • Slide 12
  • Slide 13
  • Natural course of disease
  • Lab Studies
  • Slide 16
  • Slide 17
  • X Ray appearances
  • Slide 19
  • Slide 20
  • X-ray of the thoracolumbar spine (Lateral view) showing wedge collapse of L1 and L2 vertebral bodies
  • X-ray of the spine in a child showing complete destruction of D12 and L1 vertebral bodies leaving only the pedicles
  • Kumarrsquos clinico-radiological Classification
  • CT scanning
  • MRI
  • Slide 26
  • Myelography
  • Slide 28
  • Differentials
  • Complications of tuberculosis
  • Tb spine with PARAPLEGIA
  • Patho of Tuberculoses Paraplegia
  • Slide 33
  • Seddonrsquos Classification
  • Kumarrsquos classification of tuberculous paraplegia
  • Evolution of treatment
  • BASIC PRINCIPLES OF MANAGEMENT 10487291048729
  • Slide 38
  • What is Middle path regime
  • Slide 40
  • Drugs in middle path
  • Slide 43
  • Surgical indications
  • Other indications
  • Slide 46
  • APPROACH
  • Tulirsquos recommended approch
  • Surgical technique
  • Anterolateral decompression
  • Posterior Spinal Arthrodesis
  • DYNAMIC CAGE GovenderampPrabhoo
  • SYNTHES PLATE WITH SAPCER
  • Yilmaz C Selek HY et al Anterior instrumentation for the Treatment of Spinal Tuberculosis J Bone and Joint Surg 1999 81-A 1261-67
Page 18: Pott Disease

X Ray appearances

Discovertebral lesions detected in 93 of patients bull Localized fluffy osseous destruction with surrounding

osteoporosis is the earliest signs bull concentric collapse and may look like AVN bull Local lytic lesion may cause problem of diagnosis from

neoplasic lesion bull destruction of adjacent vertebrae Konstram (K) angle

appears and shows the progress on follow up bull Skipped lesion (10 cases) can be diagnosed on

suspicion and in correct size film

X-ray of the thoracolumbar spine (Lateral view) showing wedge collapse of L1 and L2 vertebral bodies

X-ray of the spine in a child showing complete destruction of D12 and L1 vertebral bodies leaving

only the pedicles

Kumarrsquos clinico-radiological Classification

stage features Usual duration

I Pre-destructive

Straightening spasm hyperemia in scinti

lt3 mo

II Early-destructive

Diminished space paradiscal erosion Knuckle lt10

2-4 mo

III Mild kyphos 2-3 verte k10-30 3-9 mo

IV Moderate kyphos

gt3 verte K30-60 6-24 mo

V Severe kyphos

gt3 verte Kgt60 gt2 years

CT scanning

bull CT scanning provides much better bony detail of irregular lytic lesions sclerosis disk collapse and disruption of bone circumference

bull Low-contrast resolution provides a better assessment of soft tissue particularly in epidural and paraspinal areas

bull It detects early lesions and is more effective for defining the shape and calcification of soft tissue abscesses

bull In contrast to pyogenic disease calcification is common in tuberculous lesions

MRI bull MRI is the criterion standard for evaluating disk

space infection and osteomyelitis of the spine bull MRI findings useful to differentiate tuberculous

spondylitis from pyogenic spondylitis include thin and smooth enhancement of the abscess wall and well-defined paraspinal abnormal signal

whereas thick and irregular enhancement of abscess wall and ill-defined paraspinal abnormal signal are suggestive of pyogenic spondylitis

bull contrast-enhanced MRI appears to be important in the differentiation of these two types of spondylitis

bull most effective for demonstrating neural compression

Myelographybull Spinal tumor syndromebull Multiple vertebral lesionsbull Patients not recovered after

decompression 1 Block present second decompression2 Block not present intrinsic damage

1Ischemic infarction 2Interstitial gliosis

3atrophy 4 tuberculous myelitis

5Myelomalacia

Differentials 1 Pyogenic infections2 Typhoid spine3 Brucella Spondylitis4 Mycotic Spondylitis5 Syphilitic6 Tumorous condition7 Primary malignant tumor 8 Multiple Myeloma9 Lymphomas10Secondary11Histocytosis-X12Spinal Osteochondrosis13Spondylolisthesis14Hydatid disease

Complications of tuberculosis

1 Paraplegia 2 Cold abscess3 Sinuses4 Secondary infection5 Amyloid disease6 Fatality

Tb spine with PARAPLEGIA

bull INCIDENCE 10-30bull Dorsal spine (MC)bull Motor functions affected before greater

than sensorybull Sense of position amp vibration last to

disappear

Patho of Tuberculoses Paraplegia1 Inflammatory Edema ndashvascular stasistoxin2 Extradural Mass ndash Tuberculous ostetis+

abscess3 Bony Disorder ndash Sequestra Internal Gibbus4 Meningeal changes ndash lsquodura as rule not

involvedrsquoExtradural grnulation --

contract cicatrization peridural fibrosis paraplegia

5 Infarction of spinal cord- Ant spinal artery

EndarteritisPeriarteritisThrombosis6 Changes in Spinal cord-

MyelomalacicSyringomyelic changeAtrophy ndashupto 50dec in dia-good functions

Seddonrsquos Classificationbull

GROUP A_-Early onset - This comes up in active stage of the disease within first 2 years

Compressive Agents are inflammatory edema granulation abscess casseous material sequestra and rarely ischaemic lesion

GROUP B -Late onset- Usually after 2 years of onset of the disease ndash due to recurrence or by mechanical pressure This can be better divided into

paraplegia with active disease and with healed disease

Active disease - Caseous material debris sequestrated disc or bone internal gibbus stenosis and deformity can cause compression

Healed disease - Usually internal gibbus and acute kyphotic deformity can also give late onset paraplegia Usually there is a continuous traction compression leading to paraplegia

Kumarrsquos classification oftuberculous paraplegia

stage Clinical features1 Negligible Unaware of neural deficit

Plantar extensor Ankle clonus2 Mild Walk with support

3 Moderate NonambulatoryParalysis in extentionsensory loss lt50

4 Severe 3+ paralysis in flexionsensory lossgt50 Sphinters involved

Evolution of treatment Pre-antitubercular erabull Artificial abscess- Pott in 1779bull Laminectomy amp laminotomy

chipault(1896 )bull Costo-transversectomy Menard in 1896bull Posterior mediastinotomybull Calves operation 1917bull Lateral rhachiotomy of carpener 1933bull Anterlateral decompression of Dottamp

Alexander1947

BASIC PRINCIPLES OFMANAGEMENT

10487291048729bull 10487291048729 Early diagnosisbull 10487291048729 Expeditious medical treatmentbull 10487291048729 Aggressive surgical approachbull 10487291048729 Prevent deformitybull 10487291048729 Expect good outcome

bull Studies performed by the British Medical Research Council indicate that tuberculous spondylitis of the thoracolumbar spine should be treated with combination chemotherapy for 6-9 months According to a 1994 recommendation by the US Centers for Disease Control and Prevention this is the treatment of choice

What is Middle path regimebull Admission rest in bed bull Chemotherapy bull X-ray amp ESR once in 3 monthsbull MRI CT at 6 months interval for 2 yearsbull Craniovertebral cervicodorsal lumbosacralamp

sacroiliac jointsbull Gradual mobilizationbull 3-9 weeks- back extention exercise 5-10 min 3-4

timesbull Spinal brace--- 18 months-2 years

bull Abcesses ndash aspirate near surface bull Instille 1gm Streptomycin +- INH in solbull Sinus heals 6-12 weeksbull Neural complications if responds 3-4 weeks -

surgery unnecssarybull Excisional surgery for posterior spinal diseasebull Operative debridement for patients ndashif no arrest

after 3-6 months- spinal arthrodesis (recommended)

bull Post op--Spinal brace--- 18 months-2 years

Drugs in middle path

phase duration drug

Intensive 5-6 months

INH 300-400mg

Rifampicin ofloxacin400-600mg streptomycin

Continuation

7-8 months

-do 3-4mth Pyrazinamide 1500mg4-5mth Rifampicin

Prophylactic

4-5 months

-do Ethambutol 1200mg

Surgical indications1 No sign of Neurological recovery after trial of 3-4

weeks therapy2 Neurological complication during treatment3 Neuro deficit becoming worse4 Recurrence of neuro complication5 Prevertebral cervical abscessesneurological

signsamp difficulty in deglutitionamp respiration6 Advanced cases- Sphincter involvement

flaccid paralysisSevere flexor spasms

Other indicationsbull Recurrent paraplegiabull Painful paraplegiandash dt root compressionetcbull Posterior spinal disease--involving the post

elements of vertbbull Spinal tumor syndrome resulting in cord

compressionbull Rapid onset paraplegia due to thrombosistrauma

etcbull Severe paraplegiabull Secondary to cervical disease and bull cauda equina paralysis

1 Decompression +- fusion

Failed responseToo advanced

2 Debridement+- fusion

Failed response after 3-6 monthsDoubtful diagnosisInstability

3 Debridement +-DECOMP+- fusion

Recrudescence of disease

4 Debridement+- fusion

Prevent severe Kyphosis

5 Anterior transpostion

Severe Kyphosis +neural deficit

6 Laminectomy STSsecondary stenosis posterior disease

APPROACH1 Cervical spine ndash Anterior retropharyngeal

(smith-Robinsonrsquos) Anterior approach ndash AnteriorMedial

border of sternocleidomastoid2 Dorsal spine (D1 to L1) ndash

1 Transthoraccic transpleural 2 Anterolateral decompression(D2 ndash

L1)3 Lumbar spine ndash Anterolateral(Lumbovertebrotomy) Extraperitoneal Ant approach

Tulirsquos recommended approch

bull Cervical spine ndashT1 Anterior approchbull Dorsal spine ndashDL junction Antrolateral

approchbull Lumbar spine ampLumboscral junction

Extraperitoneal Transverse Vertebrotomy

Surgical technique

bull Costotransversectomyndash in tense paravertebral abscess

removendash transverse process rib ndash 2 inchs

Anterolateral decompressionbull Posterior part of ribbull Transverse processbull Pediclebull Part of the vertebral bodybull Griffith Seddon Roaf -- prone position

bull Tuli --- right lateral positionbull Advantage- 1 avoid venous congestion 2 avoid excessive bleeding 3 permits freer respiration 4 better look at site

Posterior Spinal Arthrodesisbull Byndash Albee amp Hibbsbull Albeendash tibial graft inserted longitudinally in to

the split spinous vertebral processbull Hibbsndash overlapping numerous small osseous flap

from contiguous laminae spinous process amp articular facets

bull Indicationsndash 1 mechanical instability 2 to stabilise craniovertebral region 3 as part of panvertebral operation

DYNAMIC CAGE GovenderampPrabhoo

SYNTHES PLATE WITHSAPCER

Yilmaz C Selek HY et al Anterior instrumentation for the Treatment of Spinal Tuberculosis J Bone and

Joint Surg 1999 81-A 1261-67

bull ldquowe feel that every attempt should be made to minimize this deformity with some form of instrumentation wherever indicated and preferably anteriorlyrsquordquo

Thank youThank you

  • Pottrsquos spine
  • Pottrsquos disease
  • Slide 3
  • Regional Distribution
  • Pathophysiology
  • Slide 6
  • Slide 7
  • Slide 8
  • Slide 9
  • Anatomically the lesion could be
  • History
  • Slide 12
  • Slide 13
  • Natural course of disease
  • Lab Studies
  • Slide 16
  • Slide 17
  • X Ray appearances
  • Slide 19
  • Slide 20
  • X-ray of the thoracolumbar spine (Lateral view) showing wedge collapse of L1 and L2 vertebral bodies
  • X-ray of the spine in a child showing complete destruction of D12 and L1 vertebral bodies leaving only the pedicles
  • Kumarrsquos clinico-radiological Classification
  • CT scanning
  • MRI
  • Slide 26
  • Myelography
  • Slide 28
  • Differentials
  • Complications of tuberculosis
  • Tb spine with PARAPLEGIA
  • Patho of Tuberculoses Paraplegia
  • Slide 33
  • Seddonrsquos Classification
  • Kumarrsquos classification of tuberculous paraplegia
  • Evolution of treatment
  • BASIC PRINCIPLES OF MANAGEMENT 10487291048729
  • Slide 38
  • What is Middle path regime
  • Slide 40
  • Drugs in middle path
  • Slide 43
  • Surgical indications
  • Other indications
  • Slide 46
  • APPROACH
  • Tulirsquos recommended approch
  • Surgical technique
  • Anterolateral decompression
  • Posterior Spinal Arthrodesis
  • DYNAMIC CAGE GovenderampPrabhoo
  • SYNTHES PLATE WITH SAPCER
  • Yilmaz C Selek HY et al Anterior instrumentation for the Treatment of Spinal Tuberculosis J Bone and Joint Surg 1999 81-A 1261-67
Page 19: Pott Disease

X-ray of the thoracolumbar spine (Lateral view) showing wedge collapse of L1 and L2 vertebral bodies

X-ray of the spine in a child showing complete destruction of D12 and L1 vertebral bodies leaving

only the pedicles

Kumarrsquos clinico-radiological Classification

stage features Usual duration

I Pre-destructive

Straightening spasm hyperemia in scinti

lt3 mo

II Early-destructive

Diminished space paradiscal erosion Knuckle lt10

2-4 mo

III Mild kyphos 2-3 verte k10-30 3-9 mo

IV Moderate kyphos

gt3 verte K30-60 6-24 mo

V Severe kyphos

gt3 verte Kgt60 gt2 years

CT scanning

bull CT scanning provides much better bony detail of irregular lytic lesions sclerosis disk collapse and disruption of bone circumference

bull Low-contrast resolution provides a better assessment of soft tissue particularly in epidural and paraspinal areas

bull It detects early lesions and is more effective for defining the shape and calcification of soft tissue abscesses

bull In contrast to pyogenic disease calcification is common in tuberculous lesions

MRI bull MRI is the criterion standard for evaluating disk

space infection and osteomyelitis of the spine bull MRI findings useful to differentiate tuberculous

spondylitis from pyogenic spondylitis include thin and smooth enhancement of the abscess wall and well-defined paraspinal abnormal signal

whereas thick and irregular enhancement of abscess wall and ill-defined paraspinal abnormal signal are suggestive of pyogenic spondylitis

bull contrast-enhanced MRI appears to be important in the differentiation of these two types of spondylitis

bull most effective for demonstrating neural compression

Myelographybull Spinal tumor syndromebull Multiple vertebral lesionsbull Patients not recovered after

decompression 1 Block present second decompression2 Block not present intrinsic damage

1Ischemic infarction 2Interstitial gliosis

3atrophy 4 tuberculous myelitis

5Myelomalacia

Differentials 1 Pyogenic infections2 Typhoid spine3 Brucella Spondylitis4 Mycotic Spondylitis5 Syphilitic6 Tumorous condition7 Primary malignant tumor 8 Multiple Myeloma9 Lymphomas10Secondary11Histocytosis-X12Spinal Osteochondrosis13Spondylolisthesis14Hydatid disease

Complications of tuberculosis

1 Paraplegia 2 Cold abscess3 Sinuses4 Secondary infection5 Amyloid disease6 Fatality

Tb spine with PARAPLEGIA

bull INCIDENCE 10-30bull Dorsal spine (MC)bull Motor functions affected before greater

than sensorybull Sense of position amp vibration last to

disappear

Patho of Tuberculoses Paraplegia1 Inflammatory Edema ndashvascular stasistoxin2 Extradural Mass ndash Tuberculous ostetis+

abscess3 Bony Disorder ndash Sequestra Internal Gibbus4 Meningeal changes ndash lsquodura as rule not

involvedrsquoExtradural grnulation --

contract cicatrization peridural fibrosis paraplegia

5 Infarction of spinal cord- Ant spinal artery

EndarteritisPeriarteritisThrombosis6 Changes in Spinal cord-

MyelomalacicSyringomyelic changeAtrophy ndashupto 50dec in dia-good functions

Seddonrsquos Classificationbull

GROUP A_-Early onset - This comes up in active stage of the disease within first 2 years

Compressive Agents are inflammatory edema granulation abscess casseous material sequestra and rarely ischaemic lesion

GROUP B -Late onset- Usually after 2 years of onset of the disease ndash due to recurrence or by mechanical pressure This can be better divided into

paraplegia with active disease and with healed disease

Active disease - Caseous material debris sequestrated disc or bone internal gibbus stenosis and deformity can cause compression

Healed disease - Usually internal gibbus and acute kyphotic deformity can also give late onset paraplegia Usually there is a continuous traction compression leading to paraplegia

Kumarrsquos classification oftuberculous paraplegia

stage Clinical features1 Negligible Unaware of neural deficit

Plantar extensor Ankle clonus2 Mild Walk with support

3 Moderate NonambulatoryParalysis in extentionsensory loss lt50

4 Severe 3+ paralysis in flexionsensory lossgt50 Sphinters involved

Evolution of treatment Pre-antitubercular erabull Artificial abscess- Pott in 1779bull Laminectomy amp laminotomy

chipault(1896 )bull Costo-transversectomy Menard in 1896bull Posterior mediastinotomybull Calves operation 1917bull Lateral rhachiotomy of carpener 1933bull Anterlateral decompression of Dottamp

Alexander1947

BASIC PRINCIPLES OFMANAGEMENT

10487291048729bull 10487291048729 Early diagnosisbull 10487291048729 Expeditious medical treatmentbull 10487291048729 Aggressive surgical approachbull 10487291048729 Prevent deformitybull 10487291048729 Expect good outcome

bull Studies performed by the British Medical Research Council indicate that tuberculous spondylitis of the thoracolumbar spine should be treated with combination chemotherapy for 6-9 months According to a 1994 recommendation by the US Centers for Disease Control and Prevention this is the treatment of choice

What is Middle path regimebull Admission rest in bed bull Chemotherapy bull X-ray amp ESR once in 3 monthsbull MRI CT at 6 months interval for 2 yearsbull Craniovertebral cervicodorsal lumbosacralamp

sacroiliac jointsbull Gradual mobilizationbull 3-9 weeks- back extention exercise 5-10 min 3-4

timesbull Spinal brace--- 18 months-2 years

bull Abcesses ndash aspirate near surface bull Instille 1gm Streptomycin +- INH in solbull Sinus heals 6-12 weeksbull Neural complications if responds 3-4 weeks -

surgery unnecssarybull Excisional surgery for posterior spinal diseasebull Operative debridement for patients ndashif no arrest

after 3-6 months- spinal arthrodesis (recommended)

bull Post op--Spinal brace--- 18 months-2 years

Drugs in middle path

phase duration drug

Intensive 5-6 months

INH 300-400mg

Rifampicin ofloxacin400-600mg streptomycin

Continuation

7-8 months

-do 3-4mth Pyrazinamide 1500mg4-5mth Rifampicin

Prophylactic

4-5 months

-do Ethambutol 1200mg

Surgical indications1 No sign of Neurological recovery after trial of 3-4

weeks therapy2 Neurological complication during treatment3 Neuro deficit becoming worse4 Recurrence of neuro complication5 Prevertebral cervical abscessesneurological

signsamp difficulty in deglutitionamp respiration6 Advanced cases- Sphincter involvement

flaccid paralysisSevere flexor spasms

Other indicationsbull Recurrent paraplegiabull Painful paraplegiandash dt root compressionetcbull Posterior spinal disease--involving the post

elements of vertbbull Spinal tumor syndrome resulting in cord

compressionbull Rapid onset paraplegia due to thrombosistrauma

etcbull Severe paraplegiabull Secondary to cervical disease and bull cauda equina paralysis

1 Decompression +- fusion

Failed responseToo advanced

2 Debridement+- fusion

Failed response after 3-6 monthsDoubtful diagnosisInstability

3 Debridement +-DECOMP+- fusion

Recrudescence of disease

4 Debridement+- fusion

Prevent severe Kyphosis

5 Anterior transpostion

Severe Kyphosis +neural deficit

6 Laminectomy STSsecondary stenosis posterior disease

APPROACH1 Cervical spine ndash Anterior retropharyngeal

(smith-Robinsonrsquos) Anterior approach ndash AnteriorMedial

border of sternocleidomastoid2 Dorsal spine (D1 to L1) ndash

1 Transthoraccic transpleural 2 Anterolateral decompression(D2 ndash

L1)3 Lumbar spine ndash Anterolateral(Lumbovertebrotomy) Extraperitoneal Ant approach

Tulirsquos recommended approch

bull Cervical spine ndashT1 Anterior approchbull Dorsal spine ndashDL junction Antrolateral

approchbull Lumbar spine ampLumboscral junction

Extraperitoneal Transverse Vertebrotomy

Surgical technique

bull Costotransversectomyndash in tense paravertebral abscess

removendash transverse process rib ndash 2 inchs

Anterolateral decompressionbull Posterior part of ribbull Transverse processbull Pediclebull Part of the vertebral bodybull Griffith Seddon Roaf -- prone position

bull Tuli --- right lateral positionbull Advantage- 1 avoid venous congestion 2 avoid excessive bleeding 3 permits freer respiration 4 better look at site

Posterior Spinal Arthrodesisbull Byndash Albee amp Hibbsbull Albeendash tibial graft inserted longitudinally in to

the split spinous vertebral processbull Hibbsndash overlapping numerous small osseous flap

from contiguous laminae spinous process amp articular facets

bull Indicationsndash 1 mechanical instability 2 to stabilise craniovertebral region 3 as part of panvertebral operation

DYNAMIC CAGE GovenderampPrabhoo

SYNTHES PLATE WITHSAPCER

Yilmaz C Selek HY et al Anterior instrumentation for the Treatment of Spinal Tuberculosis J Bone and

Joint Surg 1999 81-A 1261-67

bull ldquowe feel that every attempt should be made to minimize this deformity with some form of instrumentation wherever indicated and preferably anteriorlyrsquordquo

Thank youThank you

  • Pottrsquos spine
  • Pottrsquos disease
  • Slide 3
  • Regional Distribution
  • Pathophysiology
  • Slide 6
  • Slide 7
  • Slide 8
  • Slide 9
  • Anatomically the lesion could be
  • History
  • Slide 12
  • Slide 13
  • Natural course of disease
  • Lab Studies
  • Slide 16
  • Slide 17
  • X Ray appearances
  • Slide 19
  • Slide 20
  • X-ray of the thoracolumbar spine (Lateral view) showing wedge collapse of L1 and L2 vertebral bodies
  • X-ray of the spine in a child showing complete destruction of D12 and L1 vertebral bodies leaving only the pedicles
  • Kumarrsquos clinico-radiological Classification
  • CT scanning
  • MRI
  • Slide 26
  • Myelography
  • Slide 28
  • Differentials
  • Complications of tuberculosis
  • Tb spine with PARAPLEGIA
  • Patho of Tuberculoses Paraplegia
  • Slide 33
  • Seddonrsquos Classification
  • Kumarrsquos classification of tuberculous paraplegia
  • Evolution of treatment
  • BASIC PRINCIPLES OF MANAGEMENT 10487291048729
  • Slide 38
  • What is Middle path regime
  • Slide 40
  • Drugs in middle path
  • Slide 43
  • Surgical indications
  • Other indications
  • Slide 46
  • APPROACH
  • Tulirsquos recommended approch
  • Surgical technique
  • Anterolateral decompression
  • Posterior Spinal Arthrodesis
  • DYNAMIC CAGE GovenderampPrabhoo
  • SYNTHES PLATE WITH SAPCER
  • Yilmaz C Selek HY et al Anterior instrumentation for the Treatment of Spinal Tuberculosis J Bone and Joint Surg 1999 81-A 1261-67
Page 20: Pott Disease

X-ray of the spine in a child showing complete destruction of D12 and L1 vertebral bodies leaving

only the pedicles

Kumarrsquos clinico-radiological Classification

stage features Usual duration

I Pre-destructive

Straightening spasm hyperemia in scinti

lt3 mo

II Early-destructive

Diminished space paradiscal erosion Knuckle lt10

2-4 mo

III Mild kyphos 2-3 verte k10-30 3-9 mo

IV Moderate kyphos

gt3 verte K30-60 6-24 mo

V Severe kyphos

gt3 verte Kgt60 gt2 years

CT scanning

bull CT scanning provides much better bony detail of irregular lytic lesions sclerosis disk collapse and disruption of bone circumference

bull Low-contrast resolution provides a better assessment of soft tissue particularly in epidural and paraspinal areas

bull It detects early lesions and is more effective for defining the shape and calcification of soft tissue abscesses

bull In contrast to pyogenic disease calcification is common in tuberculous lesions

MRI bull MRI is the criterion standard for evaluating disk

space infection and osteomyelitis of the spine bull MRI findings useful to differentiate tuberculous

spondylitis from pyogenic spondylitis include thin and smooth enhancement of the abscess wall and well-defined paraspinal abnormal signal

whereas thick and irregular enhancement of abscess wall and ill-defined paraspinal abnormal signal are suggestive of pyogenic spondylitis

bull contrast-enhanced MRI appears to be important in the differentiation of these two types of spondylitis

bull most effective for demonstrating neural compression

Myelographybull Spinal tumor syndromebull Multiple vertebral lesionsbull Patients not recovered after

decompression 1 Block present second decompression2 Block not present intrinsic damage

1Ischemic infarction 2Interstitial gliosis

3atrophy 4 tuberculous myelitis

5Myelomalacia

Differentials 1 Pyogenic infections2 Typhoid spine3 Brucella Spondylitis4 Mycotic Spondylitis5 Syphilitic6 Tumorous condition7 Primary malignant tumor 8 Multiple Myeloma9 Lymphomas10Secondary11Histocytosis-X12Spinal Osteochondrosis13Spondylolisthesis14Hydatid disease

Complications of tuberculosis

1 Paraplegia 2 Cold abscess3 Sinuses4 Secondary infection5 Amyloid disease6 Fatality

Tb spine with PARAPLEGIA

bull INCIDENCE 10-30bull Dorsal spine (MC)bull Motor functions affected before greater

than sensorybull Sense of position amp vibration last to

disappear

Patho of Tuberculoses Paraplegia1 Inflammatory Edema ndashvascular stasistoxin2 Extradural Mass ndash Tuberculous ostetis+

abscess3 Bony Disorder ndash Sequestra Internal Gibbus4 Meningeal changes ndash lsquodura as rule not

involvedrsquoExtradural grnulation --

contract cicatrization peridural fibrosis paraplegia

5 Infarction of spinal cord- Ant spinal artery

EndarteritisPeriarteritisThrombosis6 Changes in Spinal cord-

MyelomalacicSyringomyelic changeAtrophy ndashupto 50dec in dia-good functions

Seddonrsquos Classificationbull

GROUP A_-Early onset - This comes up in active stage of the disease within first 2 years

Compressive Agents are inflammatory edema granulation abscess casseous material sequestra and rarely ischaemic lesion

GROUP B -Late onset- Usually after 2 years of onset of the disease ndash due to recurrence or by mechanical pressure This can be better divided into

paraplegia with active disease and with healed disease

Active disease - Caseous material debris sequestrated disc or bone internal gibbus stenosis and deformity can cause compression

Healed disease - Usually internal gibbus and acute kyphotic deformity can also give late onset paraplegia Usually there is a continuous traction compression leading to paraplegia

Kumarrsquos classification oftuberculous paraplegia

stage Clinical features1 Negligible Unaware of neural deficit

Plantar extensor Ankle clonus2 Mild Walk with support

3 Moderate NonambulatoryParalysis in extentionsensory loss lt50

4 Severe 3+ paralysis in flexionsensory lossgt50 Sphinters involved

Evolution of treatment Pre-antitubercular erabull Artificial abscess- Pott in 1779bull Laminectomy amp laminotomy

chipault(1896 )bull Costo-transversectomy Menard in 1896bull Posterior mediastinotomybull Calves operation 1917bull Lateral rhachiotomy of carpener 1933bull Anterlateral decompression of Dottamp

Alexander1947

BASIC PRINCIPLES OFMANAGEMENT

10487291048729bull 10487291048729 Early diagnosisbull 10487291048729 Expeditious medical treatmentbull 10487291048729 Aggressive surgical approachbull 10487291048729 Prevent deformitybull 10487291048729 Expect good outcome

bull Studies performed by the British Medical Research Council indicate that tuberculous spondylitis of the thoracolumbar spine should be treated with combination chemotherapy for 6-9 months According to a 1994 recommendation by the US Centers for Disease Control and Prevention this is the treatment of choice

What is Middle path regimebull Admission rest in bed bull Chemotherapy bull X-ray amp ESR once in 3 monthsbull MRI CT at 6 months interval for 2 yearsbull Craniovertebral cervicodorsal lumbosacralamp

sacroiliac jointsbull Gradual mobilizationbull 3-9 weeks- back extention exercise 5-10 min 3-4

timesbull Spinal brace--- 18 months-2 years

bull Abcesses ndash aspirate near surface bull Instille 1gm Streptomycin +- INH in solbull Sinus heals 6-12 weeksbull Neural complications if responds 3-4 weeks -

surgery unnecssarybull Excisional surgery for posterior spinal diseasebull Operative debridement for patients ndashif no arrest

after 3-6 months- spinal arthrodesis (recommended)

bull Post op--Spinal brace--- 18 months-2 years

Drugs in middle path

phase duration drug

Intensive 5-6 months

INH 300-400mg

Rifampicin ofloxacin400-600mg streptomycin

Continuation

7-8 months

-do 3-4mth Pyrazinamide 1500mg4-5mth Rifampicin

Prophylactic

4-5 months

-do Ethambutol 1200mg

Surgical indications1 No sign of Neurological recovery after trial of 3-4

weeks therapy2 Neurological complication during treatment3 Neuro deficit becoming worse4 Recurrence of neuro complication5 Prevertebral cervical abscessesneurological

signsamp difficulty in deglutitionamp respiration6 Advanced cases- Sphincter involvement

flaccid paralysisSevere flexor spasms

Other indicationsbull Recurrent paraplegiabull Painful paraplegiandash dt root compressionetcbull Posterior spinal disease--involving the post

elements of vertbbull Spinal tumor syndrome resulting in cord

compressionbull Rapid onset paraplegia due to thrombosistrauma

etcbull Severe paraplegiabull Secondary to cervical disease and bull cauda equina paralysis

1 Decompression +- fusion

Failed responseToo advanced

2 Debridement+- fusion

Failed response after 3-6 monthsDoubtful diagnosisInstability

3 Debridement +-DECOMP+- fusion

Recrudescence of disease

4 Debridement+- fusion

Prevent severe Kyphosis

5 Anterior transpostion

Severe Kyphosis +neural deficit

6 Laminectomy STSsecondary stenosis posterior disease

APPROACH1 Cervical spine ndash Anterior retropharyngeal

(smith-Robinsonrsquos) Anterior approach ndash AnteriorMedial

border of sternocleidomastoid2 Dorsal spine (D1 to L1) ndash

1 Transthoraccic transpleural 2 Anterolateral decompression(D2 ndash

L1)3 Lumbar spine ndash Anterolateral(Lumbovertebrotomy) Extraperitoneal Ant approach

Tulirsquos recommended approch

bull Cervical spine ndashT1 Anterior approchbull Dorsal spine ndashDL junction Antrolateral

approchbull Lumbar spine ampLumboscral junction

Extraperitoneal Transverse Vertebrotomy

Surgical technique

bull Costotransversectomyndash in tense paravertebral abscess

removendash transverse process rib ndash 2 inchs

Anterolateral decompressionbull Posterior part of ribbull Transverse processbull Pediclebull Part of the vertebral bodybull Griffith Seddon Roaf -- prone position

bull Tuli --- right lateral positionbull Advantage- 1 avoid venous congestion 2 avoid excessive bleeding 3 permits freer respiration 4 better look at site

Posterior Spinal Arthrodesisbull Byndash Albee amp Hibbsbull Albeendash tibial graft inserted longitudinally in to

the split spinous vertebral processbull Hibbsndash overlapping numerous small osseous flap

from contiguous laminae spinous process amp articular facets

bull Indicationsndash 1 mechanical instability 2 to stabilise craniovertebral region 3 as part of panvertebral operation

DYNAMIC CAGE GovenderampPrabhoo

SYNTHES PLATE WITHSAPCER

Yilmaz C Selek HY et al Anterior instrumentation for the Treatment of Spinal Tuberculosis J Bone and

Joint Surg 1999 81-A 1261-67

bull ldquowe feel that every attempt should be made to minimize this deformity with some form of instrumentation wherever indicated and preferably anteriorlyrsquordquo

Thank youThank you

  • Pottrsquos spine
  • Pottrsquos disease
  • Slide 3
  • Regional Distribution
  • Pathophysiology
  • Slide 6
  • Slide 7
  • Slide 8
  • Slide 9
  • Anatomically the lesion could be
  • History
  • Slide 12
  • Slide 13
  • Natural course of disease
  • Lab Studies
  • Slide 16
  • Slide 17
  • X Ray appearances
  • Slide 19
  • Slide 20
  • X-ray of the thoracolumbar spine (Lateral view) showing wedge collapse of L1 and L2 vertebral bodies
  • X-ray of the spine in a child showing complete destruction of D12 and L1 vertebral bodies leaving only the pedicles
  • Kumarrsquos clinico-radiological Classification
  • CT scanning
  • MRI
  • Slide 26
  • Myelography
  • Slide 28
  • Differentials
  • Complications of tuberculosis
  • Tb spine with PARAPLEGIA
  • Patho of Tuberculoses Paraplegia
  • Slide 33
  • Seddonrsquos Classification
  • Kumarrsquos classification of tuberculous paraplegia
  • Evolution of treatment
  • BASIC PRINCIPLES OF MANAGEMENT 10487291048729
  • Slide 38
  • What is Middle path regime
  • Slide 40
  • Drugs in middle path
  • Slide 43
  • Surgical indications
  • Other indications
  • Slide 46
  • APPROACH
  • Tulirsquos recommended approch
  • Surgical technique
  • Anterolateral decompression
  • Posterior Spinal Arthrodesis
  • DYNAMIC CAGE GovenderampPrabhoo
  • SYNTHES PLATE WITH SAPCER
  • Yilmaz C Selek HY et al Anterior instrumentation for the Treatment of Spinal Tuberculosis J Bone and Joint Surg 1999 81-A 1261-67
Page 21: Pott Disease

Kumarrsquos clinico-radiological Classification

stage features Usual duration

I Pre-destructive

Straightening spasm hyperemia in scinti

lt3 mo

II Early-destructive

Diminished space paradiscal erosion Knuckle lt10

2-4 mo

III Mild kyphos 2-3 verte k10-30 3-9 mo

IV Moderate kyphos

gt3 verte K30-60 6-24 mo

V Severe kyphos

gt3 verte Kgt60 gt2 years

CT scanning

bull CT scanning provides much better bony detail of irregular lytic lesions sclerosis disk collapse and disruption of bone circumference

bull Low-contrast resolution provides a better assessment of soft tissue particularly in epidural and paraspinal areas

bull It detects early lesions and is more effective for defining the shape and calcification of soft tissue abscesses

bull In contrast to pyogenic disease calcification is common in tuberculous lesions

MRI bull MRI is the criterion standard for evaluating disk

space infection and osteomyelitis of the spine bull MRI findings useful to differentiate tuberculous

spondylitis from pyogenic spondylitis include thin and smooth enhancement of the abscess wall and well-defined paraspinal abnormal signal

whereas thick and irregular enhancement of abscess wall and ill-defined paraspinal abnormal signal are suggestive of pyogenic spondylitis

bull contrast-enhanced MRI appears to be important in the differentiation of these two types of spondylitis

bull most effective for demonstrating neural compression

Myelographybull Spinal tumor syndromebull Multiple vertebral lesionsbull Patients not recovered after

decompression 1 Block present second decompression2 Block not present intrinsic damage

1Ischemic infarction 2Interstitial gliosis

3atrophy 4 tuberculous myelitis

5Myelomalacia

Differentials 1 Pyogenic infections2 Typhoid spine3 Brucella Spondylitis4 Mycotic Spondylitis5 Syphilitic6 Tumorous condition7 Primary malignant tumor 8 Multiple Myeloma9 Lymphomas10Secondary11Histocytosis-X12Spinal Osteochondrosis13Spondylolisthesis14Hydatid disease

Complications of tuberculosis

1 Paraplegia 2 Cold abscess3 Sinuses4 Secondary infection5 Amyloid disease6 Fatality

Tb spine with PARAPLEGIA

bull INCIDENCE 10-30bull Dorsal spine (MC)bull Motor functions affected before greater

than sensorybull Sense of position amp vibration last to

disappear

Patho of Tuberculoses Paraplegia1 Inflammatory Edema ndashvascular stasistoxin2 Extradural Mass ndash Tuberculous ostetis+

abscess3 Bony Disorder ndash Sequestra Internal Gibbus4 Meningeal changes ndash lsquodura as rule not

involvedrsquoExtradural grnulation --

contract cicatrization peridural fibrosis paraplegia

5 Infarction of spinal cord- Ant spinal artery

EndarteritisPeriarteritisThrombosis6 Changes in Spinal cord-

MyelomalacicSyringomyelic changeAtrophy ndashupto 50dec in dia-good functions

Seddonrsquos Classificationbull

GROUP A_-Early onset - This comes up in active stage of the disease within first 2 years

Compressive Agents are inflammatory edema granulation abscess casseous material sequestra and rarely ischaemic lesion

GROUP B -Late onset- Usually after 2 years of onset of the disease ndash due to recurrence or by mechanical pressure This can be better divided into

paraplegia with active disease and with healed disease

Active disease - Caseous material debris sequestrated disc or bone internal gibbus stenosis and deformity can cause compression

Healed disease - Usually internal gibbus and acute kyphotic deformity can also give late onset paraplegia Usually there is a continuous traction compression leading to paraplegia

Kumarrsquos classification oftuberculous paraplegia

stage Clinical features1 Negligible Unaware of neural deficit

Plantar extensor Ankle clonus2 Mild Walk with support

3 Moderate NonambulatoryParalysis in extentionsensory loss lt50

4 Severe 3+ paralysis in flexionsensory lossgt50 Sphinters involved

Evolution of treatment Pre-antitubercular erabull Artificial abscess- Pott in 1779bull Laminectomy amp laminotomy

chipault(1896 )bull Costo-transversectomy Menard in 1896bull Posterior mediastinotomybull Calves operation 1917bull Lateral rhachiotomy of carpener 1933bull Anterlateral decompression of Dottamp

Alexander1947

BASIC PRINCIPLES OFMANAGEMENT

10487291048729bull 10487291048729 Early diagnosisbull 10487291048729 Expeditious medical treatmentbull 10487291048729 Aggressive surgical approachbull 10487291048729 Prevent deformitybull 10487291048729 Expect good outcome

bull Studies performed by the British Medical Research Council indicate that tuberculous spondylitis of the thoracolumbar spine should be treated with combination chemotherapy for 6-9 months According to a 1994 recommendation by the US Centers for Disease Control and Prevention this is the treatment of choice

What is Middle path regimebull Admission rest in bed bull Chemotherapy bull X-ray amp ESR once in 3 monthsbull MRI CT at 6 months interval for 2 yearsbull Craniovertebral cervicodorsal lumbosacralamp

sacroiliac jointsbull Gradual mobilizationbull 3-9 weeks- back extention exercise 5-10 min 3-4

timesbull Spinal brace--- 18 months-2 years

bull Abcesses ndash aspirate near surface bull Instille 1gm Streptomycin +- INH in solbull Sinus heals 6-12 weeksbull Neural complications if responds 3-4 weeks -

surgery unnecssarybull Excisional surgery for posterior spinal diseasebull Operative debridement for patients ndashif no arrest

after 3-6 months- spinal arthrodesis (recommended)

bull Post op--Spinal brace--- 18 months-2 years

Drugs in middle path

phase duration drug

Intensive 5-6 months

INH 300-400mg

Rifampicin ofloxacin400-600mg streptomycin

Continuation

7-8 months

-do 3-4mth Pyrazinamide 1500mg4-5mth Rifampicin

Prophylactic

4-5 months

-do Ethambutol 1200mg

Surgical indications1 No sign of Neurological recovery after trial of 3-4

weeks therapy2 Neurological complication during treatment3 Neuro deficit becoming worse4 Recurrence of neuro complication5 Prevertebral cervical abscessesneurological

signsamp difficulty in deglutitionamp respiration6 Advanced cases- Sphincter involvement

flaccid paralysisSevere flexor spasms

Other indicationsbull Recurrent paraplegiabull Painful paraplegiandash dt root compressionetcbull Posterior spinal disease--involving the post

elements of vertbbull Spinal tumor syndrome resulting in cord

compressionbull Rapid onset paraplegia due to thrombosistrauma

etcbull Severe paraplegiabull Secondary to cervical disease and bull cauda equina paralysis

1 Decompression +- fusion

Failed responseToo advanced

2 Debridement+- fusion

Failed response after 3-6 monthsDoubtful diagnosisInstability

3 Debridement +-DECOMP+- fusion

Recrudescence of disease

4 Debridement+- fusion

Prevent severe Kyphosis

5 Anterior transpostion

Severe Kyphosis +neural deficit

6 Laminectomy STSsecondary stenosis posterior disease

APPROACH1 Cervical spine ndash Anterior retropharyngeal

(smith-Robinsonrsquos) Anterior approach ndash AnteriorMedial

border of sternocleidomastoid2 Dorsal spine (D1 to L1) ndash

1 Transthoraccic transpleural 2 Anterolateral decompression(D2 ndash

L1)3 Lumbar spine ndash Anterolateral(Lumbovertebrotomy) Extraperitoneal Ant approach

Tulirsquos recommended approch

bull Cervical spine ndashT1 Anterior approchbull Dorsal spine ndashDL junction Antrolateral

approchbull Lumbar spine ampLumboscral junction

Extraperitoneal Transverse Vertebrotomy

Surgical technique

bull Costotransversectomyndash in tense paravertebral abscess

removendash transverse process rib ndash 2 inchs

Anterolateral decompressionbull Posterior part of ribbull Transverse processbull Pediclebull Part of the vertebral bodybull Griffith Seddon Roaf -- prone position

bull Tuli --- right lateral positionbull Advantage- 1 avoid venous congestion 2 avoid excessive bleeding 3 permits freer respiration 4 better look at site

Posterior Spinal Arthrodesisbull Byndash Albee amp Hibbsbull Albeendash tibial graft inserted longitudinally in to

the split spinous vertebral processbull Hibbsndash overlapping numerous small osseous flap

from contiguous laminae spinous process amp articular facets

bull Indicationsndash 1 mechanical instability 2 to stabilise craniovertebral region 3 as part of panvertebral operation

DYNAMIC CAGE GovenderampPrabhoo

SYNTHES PLATE WITHSAPCER

Yilmaz C Selek HY et al Anterior instrumentation for the Treatment of Spinal Tuberculosis J Bone and

Joint Surg 1999 81-A 1261-67

bull ldquowe feel that every attempt should be made to minimize this deformity with some form of instrumentation wherever indicated and preferably anteriorlyrsquordquo

Thank youThank you

  • Pottrsquos spine
  • Pottrsquos disease
  • Slide 3
  • Regional Distribution
  • Pathophysiology
  • Slide 6
  • Slide 7
  • Slide 8
  • Slide 9
  • Anatomically the lesion could be
  • History
  • Slide 12
  • Slide 13
  • Natural course of disease
  • Lab Studies
  • Slide 16
  • Slide 17
  • X Ray appearances
  • Slide 19
  • Slide 20
  • X-ray of the thoracolumbar spine (Lateral view) showing wedge collapse of L1 and L2 vertebral bodies
  • X-ray of the spine in a child showing complete destruction of D12 and L1 vertebral bodies leaving only the pedicles
  • Kumarrsquos clinico-radiological Classification
  • CT scanning
  • MRI
  • Slide 26
  • Myelography
  • Slide 28
  • Differentials
  • Complications of tuberculosis
  • Tb spine with PARAPLEGIA
  • Patho of Tuberculoses Paraplegia
  • Slide 33
  • Seddonrsquos Classification
  • Kumarrsquos classification of tuberculous paraplegia
  • Evolution of treatment
  • BASIC PRINCIPLES OF MANAGEMENT 10487291048729
  • Slide 38
  • What is Middle path regime
  • Slide 40
  • Drugs in middle path
  • Slide 43
  • Surgical indications
  • Other indications
  • Slide 46
  • APPROACH
  • Tulirsquos recommended approch
  • Surgical technique
  • Anterolateral decompression
  • Posterior Spinal Arthrodesis
  • DYNAMIC CAGE GovenderampPrabhoo
  • SYNTHES PLATE WITH SAPCER
  • Yilmaz C Selek HY et al Anterior instrumentation for the Treatment of Spinal Tuberculosis J Bone and Joint Surg 1999 81-A 1261-67
Page 22: Pott Disease

CT scanning

bull CT scanning provides much better bony detail of irregular lytic lesions sclerosis disk collapse and disruption of bone circumference

bull Low-contrast resolution provides a better assessment of soft tissue particularly in epidural and paraspinal areas

bull It detects early lesions and is more effective for defining the shape and calcification of soft tissue abscesses

bull In contrast to pyogenic disease calcification is common in tuberculous lesions

MRI bull MRI is the criterion standard for evaluating disk

space infection and osteomyelitis of the spine bull MRI findings useful to differentiate tuberculous

spondylitis from pyogenic spondylitis include thin and smooth enhancement of the abscess wall and well-defined paraspinal abnormal signal

whereas thick and irregular enhancement of abscess wall and ill-defined paraspinal abnormal signal are suggestive of pyogenic spondylitis

bull contrast-enhanced MRI appears to be important in the differentiation of these two types of spondylitis

bull most effective for demonstrating neural compression

Myelographybull Spinal tumor syndromebull Multiple vertebral lesionsbull Patients not recovered after

decompression 1 Block present second decompression2 Block not present intrinsic damage

1Ischemic infarction 2Interstitial gliosis

3atrophy 4 tuberculous myelitis

5Myelomalacia

Differentials 1 Pyogenic infections2 Typhoid spine3 Brucella Spondylitis4 Mycotic Spondylitis5 Syphilitic6 Tumorous condition7 Primary malignant tumor 8 Multiple Myeloma9 Lymphomas10Secondary11Histocytosis-X12Spinal Osteochondrosis13Spondylolisthesis14Hydatid disease

Complications of tuberculosis

1 Paraplegia 2 Cold abscess3 Sinuses4 Secondary infection5 Amyloid disease6 Fatality

Tb spine with PARAPLEGIA

bull INCIDENCE 10-30bull Dorsal spine (MC)bull Motor functions affected before greater

than sensorybull Sense of position amp vibration last to

disappear

Patho of Tuberculoses Paraplegia1 Inflammatory Edema ndashvascular stasistoxin2 Extradural Mass ndash Tuberculous ostetis+

abscess3 Bony Disorder ndash Sequestra Internal Gibbus4 Meningeal changes ndash lsquodura as rule not

involvedrsquoExtradural grnulation --

contract cicatrization peridural fibrosis paraplegia

5 Infarction of spinal cord- Ant spinal artery

EndarteritisPeriarteritisThrombosis6 Changes in Spinal cord-

MyelomalacicSyringomyelic changeAtrophy ndashupto 50dec in dia-good functions

Seddonrsquos Classificationbull

GROUP A_-Early onset - This comes up in active stage of the disease within first 2 years

Compressive Agents are inflammatory edema granulation abscess casseous material sequestra and rarely ischaemic lesion

GROUP B -Late onset- Usually after 2 years of onset of the disease ndash due to recurrence or by mechanical pressure This can be better divided into

paraplegia with active disease and with healed disease

Active disease - Caseous material debris sequestrated disc or bone internal gibbus stenosis and deformity can cause compression

Healed disease - Usually internal gibbus and acute kyphotic deformity can also give late onset paraplegia Usually there is a continuous traction compression leading to paraplegia

Kumarrsquos classification oftuberculous paraplegia

stage Clinical features1 Negligible Unaware of neural deficit

Plantar extensor Ankle clonus2 Mild Walk with support

3 Moderate NonambulatoryParalysis in extentionsensory loss lt50

4 Severe 3+ paralysis in flexionsensory lossgt50 Sphinters involved

Evolution of treatment Pre-antitubercular erabull Artificial abscess- Pott in 1779bull Laminectomy amp laminotomy

chipault(1896 )bull Costo-transversectomy Menard in 1896bull Posterior mediastinotomybull Calves operation 1917bull Lateral rhachiotomy of carpener 1933bull Anterlateral decompression of Dottamp

Alexander1947

BASIC PRINCIPLES OFMANAGEMENT

10487291048729bull 10487291048729 Early diagnosisbull 10487291048729 Expeditious medical treatmentbull 10487291048729 Aggressive surgical approachbull 10487291048729 Prevent deformitybull 10487291048729 Expect good outcome

bull Studies performed by the British Medical Research Council indicate that tuberculous spondylitis of the thoracolumbar spine should be treated with combination chemotherapy for 6-9 months According to a 1994 recommendation by the US Centers for Disease Control and Prevention this is the treatment of choice

What is Middle path regimebull Admission rest in bed bull Chemotherapy bull X-ray amp ESR once in 3 monthsbull MRI CT at 6 months interval for 2 yearsbull Craniovertebral cervicodorsal lumbosacralamp

sacroiliac jointsbull Gradual mobilizationbull 3-9 weeks- back extention exercise 5-10 min 3-4

timesbull Spinal brace--- 18 months-2 years

bull Abcesses ndash aspirate near surface bull Instille 1gm Streptomycin +- INH in solbull Sinus heals 6-12 weeksbull Neural complications if responds 3-4 weeks -

surgery unnecssarybull Excisional surgery for posterior spinal diseasebull Operative debridement for patients ndashif no arrest

after 3-6 months- spinal arthrodesis (recommended)

bull Post op--Spinal brace--- 18 months-2 years

Drugs in middle path

phase duration drug

Intensive 5-6 months

INH 300-400mg

Rifampicin ofloxacin400-600mg streptomycin

Continuation

7-8 months

-do 3-4mth Pyrazinamide 1500mg4-5mth Rifampicin

Prophylactic

4-5 months

-do Ethambutol 1200mg

Surgical indications1 No sign of Neurological recovery after trial of 3-4

weeks therapy2 Neurological complication during treatment3 Neuro deficit becoming worse4 Recurrence of neuro complication5 Prevertebral cervical abscessesneurological

signsamp difficulty in deglutitionamp respiration6 Advanced cases- Sphincter involvement

flaccid paralysisSevere flexor spasms

Other indicationsbull Recurrent paraplegiabull Painful paraplegiandash dt root compressionetcbull Posterior spinal disease--involving the post

elements of vertbbull Spinal tumor syndrome resulting in cord

compressionbull Rapid onset paraplegia due to thrombosistrauma

etcbull Severe paraplegiabull Secondary to cervical disease and bull cauda equina paralysis

1 Decompression +- fusion

Failed responseToo advanced

2 Debridement+- fusion

Failed response after 3-6 monthsDoubtful diagnosisInstability

3 Debridement +-DECOMP+- fusion

Recrudescence of disease

4 Debridement+- fusion

Prevent severe Kyphosis

5 Anterior transpostion

Severe Kyphosis +neural deficit

6 Laminectomy STSsecondary stenosis posterior disease

APPROACH1 Cervical spine ndash Anterior retropharyngeal

(smith-Robinsonrsquos) Anterior approach ndash AnteriorMedial

border of sternocleidomastoid2 Dorsal spine (D1 to L1) ndash

1 Transthoraccic transpleural 2 Anterolateral decompression(D2 ndash

L1)3 Lumbar spine ndash Anterolateral(Lumbovertebrotomy) Extraperitoneal Ant approach

Tulirsquos recommended approch

bull Cervical spine ndashT1 Anterior approchbull Dorsal spine ndashDL junction Antrolateral

approchbull Lumbar spine ampLumboscral junction

Extraperitoneal Transverse Vertebrotomy

Surgical technique

bull Costotransversectomyndash in tense paravertebral abscess

removendash transverse process rib ndash 2 inchs

Anterolateral decompressionbull Posterior part of ribbull Transverse processbull Pediclebull Part of the vertebral bodybull Griffith Seddon Roaf -- prone position

bull Tuli --- right lateral positionbull Advantage- 1 avoid venous congestion 2 avoid excessive bleeding 3 permits freer respiration 4 better look at site

Posterior Spinal Arthrodesisbull Byndash Albee amp Hibbsbull Albeendash tibial graft inserted longitudinally in to

the split spinous vertebral processbull Hibbsndash overlapping numerous small osseous flap

from contiguous laminae spinous process amp articular facets

bull Indicationsndash 1 mechanical instability 2 to stabilise craniovertebral region 3 as part of panvertebral operation

DYNAMIC CAGE GovenderampPrabhoo

SYNTHES PLATE WITHSAPCER

Yilmaz C Selek HY et al Anterior instrumentation for the Treatment of Spinal Tuberculosis J Bone and

Joint Surg 1999 81-A 1261-67

bull ldquowe feel that every attempt should be made to minimize this deformity with some form of instrumentation wherever indicated and preferably anteriorlyrsquordquo

Thank youThank you

  • Pottrsquos spine
  • Pottrsquos disease
  • Slide 3
  • Regional Distribution
  • Pathophysiology
  • Slide 6
  • Slide 7
  • Slide 8
  • Slide 9
  • Anatomically the lesion could be
  • History
  • Slide 12
  • Slide 13
  • Natural course of disease
  • Lab Studies
  • Slide 16
  • Slide 17
  • X Ray appearances
  • Slide 19
  • Slide 20
  • X-ray of the thoracolumbar spine (Lateral view) showing wedge collapse of L1 and L2 vertebral bodies
  • X-ray of the spine in a child showing complete destruction of D12 and L1 vertebral bodies leaving only the pedicles
  • Kumarrsquos clinico-radiological Classification
  • CT scanning
  • MRI
  • Slide 26
  • Myelography
  • Slide 28
  • Differentials
  • Complications of tuberculosis
  • Tb spine with PARAPLEGIA
  • Patho of Tuberculoses Paraplegia
  • Slide 33
  • Seddonrsquos Classification
  • Kumarrsquos classification of tuberculous paraplegia
  • Evolution of treatment
  • BASIC PRINCIPLES OF MANAGEMENT 10487291048729
  • Slide 38
  • What is Middle path regime
  • Slide 40
  • Drugs in middle path
  • Slide 43
  • Surgical indications
  • Other indications
  • Slide 46
  • APPROACH
  • Tulirsquos recommended approch
  • Surgical technique
  • Anterolateral decompression
  • Posterior Spinal Arthrodesis
  • DYNAMIC CAGE GovenderampPrabhoo
  • SYNTHES PLATE WITH SAPCER
  • Yilmaz C Selek HY et al Anterior instrumentation for the Treatment of Spinal Tuberculosis J Bone and Joint Surg 1999 81-A 1261-67
Page 23: Pott Disease

MRI bull MRI is the criterion standard for evaluating disk

space infection and osteomyelitis of the spine bull MRI findings useful to differentiate tuberculous

spondylitis from pyogenic spondylitis include thin and smooth enhancement of the abscess wall and well-defined paraspinal abnormal signal

whereas thick and irregular enhancement of abscess wall and ill-defined paraspinal abnormal signal are suggestive of pyogenic spondylitis

bull contrast-enhanced MRI appears to be important in the differentiation of these two types of spondylitis

bull most effective for demonstrating neural compression

Myelographybull Spinal tumor syndromebull Multiple vertebral lesionsbull Patients not recovered after

decompression 1 Block present second decompression2 Block not present intrinsic damage

1Ischemic infarction 2Interstitial gliosis

3atrophy 4 tuberculous myelitis

5Myelomalacia

Differentials 1 Pyogenic infections2 Typhoid spine3 Brucella Spondylitis4 Mycotic Spondylitis5 Syphilitic6 Tumorous condition7 Primary malignant tumor 8 Multiple Myeloma9 Lymphomas10Secondary11Histocytosis-X12Spinal Osteochondrosis13Spondylolisthesis14Hydatid disease

Complications of tuberculosis

1 Paraplegia 2 Cold abscess3 Sinuses4 Secondary infection5 Amyloid disease6 Fatality

Tb spine with PARAPLEGIA

bull INCIDENCE 10-30bull Dorsal spine (MC)bull Motor functions affected before greater

than sensorybull Sense of position amp vibration last to

disappear

Patho of Tuberculoses Paraplegia1 Inflammatory Edema ndashvascular stasistoxin2 Extradural Mass ndash Tuberculous ostetis+

abscess3 Bony Disorder ndash Sequestra Internal Gibbus4 Meningeal changes ndash lsquodura as rule not

involvedrsquoExtradural grnulation --

contract cicatrization peridural fibrosis paraplegia

5 Infarction of spinal cord- Ant spinal artery

EndarteritisPeriarteritisThrombosis6 Changes in Spinal cord-

MyelomalacicSyringomyelic changeAtrophy ndashupto 50dec in dia-good functions

Seddonrsquos Classificationbull

GROUP A_-Early onset - This comes up in active stage of the disease within first 2 years

Compressive Agents are inflammatory edema granulation abscess casseous material sequestra and rarely ischaemic lesion

GROUP B -Late onset- Usually after 2 years of onset of the disease ndash due to recurrence or by mechanical pressure This can be better divided into

paraplegia with active disease and with healed disease

Active disease - Caseous material debris sequestrated disc or bone internal gibbus stenosis and deformity can cause compression

Healed disease - Usually internal gibbus and acute kyphotic deformity can also give late onset paraplegia Usually there is a continuous traction compression leading to paraplegia

Kumarrsquos classification oftuberculous paraplegia

stage Clinical features1 Negligible Unaware of neural deficit

Plantar extensor Ankle clonus2 Mild Walk with support

3 Moderate NonambulatoryParalysis in extentionsensory loss lt50

4 Severe 3+ paralysis in flexionsensory lossgt50 Sphinters involved

Evolution of treatment Pre-antitubercular erabull Artificial abscess- Pott in 1779bull Laminectomy amp laminotomy

chipault(1896 )bull Costo-transversectomy Menard in 1896bull Posterior mediastinotomybull Calves operation 1917bull Lateral rhachiotomy of carpener 1933bull Anterlateral decompression of Dottamp

Alexander1947

BASIC PRINCIPLES OFMANAGEMENT

10487291048729bull 10487291048729 Early diagnosisbull 10487291048729 Expeditious medical treatmentbull 10487291048729 Aggressive surgical approachbull 10487291048729 Prevent deformitybull 10487291048729 Expect good outcome

bull Studies performed by the British Medical Research Council indicate that tuberculous spondylitis of the thoracolumbar spine should be treated with combination chemotherapy for 6-9 months According to a 1994 recommendation by the US Centers for Disease Control and Prevention this is the treatment of choice

What is Middle path regimebull Admission rest in bed bull Chemotherapy bull X-ray amp ESR once in 3 monthsbull MRI CT at 6 months interval for 2 yearsbull Craniovertebral cervicodorsal lumbosacralamp

sacroiliac jointsbull Gradual mobilizationbull 3-9 weeks- back extention exercise 5-10 min 3-4

timesbull Spinal brace--- 18 months-2 years

bull Abcesses ndash aspirate near surface bull Instille 1gm Streptomycin +- INH in solbull Sinus heals 6-12 weeksbull Neural complications if responds 3-4 weeks -

surgery unnecssarybull Excisional surgery for posterior spinal diseasebull Operative debridement for patients ndashif no arrest

after 3-6 months- spinal arthrodesis (recommended)

bull Post op--Spinal brace--- 18 months-2 years

Drugs in middle path

phase duration drug

Intensive 5-6 months

INH 300-400mg

Rifampicin ofloxacin400-600mg streptomycin

Continuation

7-8 months

-do 3-4mth Pyrazinamide 1500mg4-5mth Rifampicin

Prophylactic

4-5 months

-do Ethambutol 1200mg

Surgical indications1 No sign of Neurological recovery after trial of 3-4

weeks therapy2 Neurological complication during treatment3 Neuro deficit becoming worse4 Recurrence of neuro complication5 Prevertebral cervical abscessesneurological

signsamp difficulty in deglutitionamp respiration6 Advanced cases- Sphincter involvement

flaccid paralysisSevere flexor spasms

Other indicationsbull Recurrent paraplegiabull Painful paraplegiandash dt root compressionetcbull Posterior spinal disease--involving the post

elements of vertbbull Spinal tumor syndrome resulting in cord

compressionbull Rapid onset paraplegia due to thrombosistrauma

etcbull Severe paraplegiabull Secondary to cervical disease and bull cauda equina paralysis

1 Decompression +- fusion

Failed responseToo advanced

2 Debridement+- fusion

Failed response after 3-6 monthsDoubtful diagnosisInstability

3 Debridement +-DECOMP+- fusion

Recrudescence of disease

4 Debridement+- fusion

Prevent severe Kyphosis

5 Anterior transpostion

Severe Kyphosis +neural deficit

6 Laminectomy STSsecondary stenosis posterior disease

APPROACH1 Cervical spine ndash Anterior retropharyngeal

(smith-Robinsonrsquos) Anterior approach ndash AnteriorMedial

border of sternocleidomastoid2 Dorsal spine (D1 to L1) ndash

1 Transthoraccic transpleural 2 Anterolateral decompression(D2 ndash

L1)3 Lumbar spine ndash Anterolateral(Lumbovertebrotomy) Extraperitoneal Ant approach

Tulirsquos recommended approch

bull Cervical spine ndashT1 Anterior approchbull Dorsal spine ndashDL junction Antrolateral

approchbull Lumbar spine ampLumboscral junction

Extraperitoneal Transverse Vertebrotomy

Surgical technique

bull Costotransversectomyndash in tense paravertebral abscess

removendash transverse process rib ndash 2 inchs

Anterolateral decompressionbull Posterior part of ribbull Transverse processbull Pediclebull Part of the vertebral bodybull Griffith Seddon Roaf -- prone position

bull Tuli --- right lateral positionbull Advantage- 1 avoid venous congestion 2 avoid excessive bleeding 3 permits freer respiration 4 better look at site

Posterior Spinal Arthrodesisbull Byndash Albee amp Hibbsbull Albeendash tibial graft inserted longitudinally in to

the split spinous vertebral processbull Hibbsndash overlapping numerous small osseous flap

from contiguous laminae spinous process amp articular facets

bull Indicationsndash 1 mechanical instability 2 to stabilise craniovertebral region 3 as part of panvertebral operation

DYNAMIC CAGE GovenderampPrabhoo

SYNTHES PLATE WITHSAPCER

Yilmaz C Selek HY et al Anterior instrumentation for the Treatment of Spinal Tuberculosis J Bone and

Joint Surg 1999 81-A 1261-67

bull ldquowe feel that every attempt should be made to minimize this deformity with some form of instrumentation wherever indicated and preferably anteriorlyrsquordquo

Thank youThank you

  • Pottrsquos spine
  • Pottrsquos disease
  • Slide 3
  • Regional Distribution
  • Pathophysiology
  • Slide 6
  • Slide 7
  • Slide 8
  • Slide 9
  • Anatomically the lesion could be
  • History
  • Slide 12
  • Slide 13
  • Natural course of disease
  • Lab Studies
  • Slide 16
  • Slide 17
  • X Ray appearances
  • Slide 19
  • Slide 20
  • X-ray of the thoracolumbar spine (Lateral view) showing wedge collapse of L1 and L2 vertebral bodies
  • X-ray of the spine in a child showing complete destruction of D12 and L1 vertebral bodies leaving only the pedicles
  • Kumarrsquos clinico-radiological Classification
  • CT scanning
  • MRI
  • Slide 26
  • Myelography
  • Slide 28
  • Differentials
  • Complications of tuberculosis
  • Tb spine with PARAPLEGIA
  • Patho of Tuberculoses Paraplegia
  • Slide 33
  • Seddonrsquos Classification
  • Kumarrsquos classification of tuberculous paraplegia
  • Evolution of treatment
  • BASIC PRINCIPLES OF MANAGEMENT 10487291048729
  • Slide 38
  • What is Middle path regime
  • Slide 40
  • Drugs in middle path
  • Slide 43
  • Surgical indications
  • Other indications
  • Slide 46
  • APPROACH
  • Tulirsquos recommended approch
  • Surgical technique
  • Anterolateral decompression
  • Posterior Spinal Arthrodesis
  • DYNAMIC CAGE GovenderampPrabhoo
  • SYNTHES PLATE WITH SAPCER
  • Yilmaz C Selek HY et al Anterior instrumentation for the Treatment of Spinal Tuberculosis J Bone and Joint Surg 1999 81-A 1261-67
Page 24: Pott Disease

Myelographybull Spinal tumor syndromebull Multiple vertebral lesionsbull Patients not recovered after

decompression 1 Block present second decompression2 Block not present intrinsic damage

1Ischemic infarction 2Interstitial gliosis

3atrophy 4 tuberculous myelitis

5Myelomalacia

Differentials 1 Pyogenic infections2 Typhoid spine3 Brucella Spondylitis4 Mycotic Spondylitis5 Syphilitic6 Tumorous condition7 Primary malignant tumor 8 Multiple Myeloma9 Lymphomas10Secondary11Histocytosis-X12Spinal Osteochondrosis13Spondylolisthesis14Hydatid disease

Complications of tuberculosis

1 Paraplegia 2 Cold abscess3 Sinuses4 Secondary infection5 Amyloid disease6 Fatality

Tb spine with PARAPLEGIA

bull INCIDENCE 10-30bull Dorsal spine (MC)bull Motor functions affected before greater

than sensorybull Sense of position amp vibration last to

disappear

Patho of Tuberculoses Paraplegia1 Inflammatory Edema ndashvascular stasistoxin2 Extradural Mass ndash Tuberculous ostetis+

abscess3 Bony Disorder ndash Sequestra Internal Gibbus4 Meningeal changes ndash lsquodura as rule not

involvedrsquoExtradural grnulation --

contract cicatrization peridural fibrosis paraplegia

5 Infarction of spinal cord- Ant spinal artery

EndarteritisPeriarteritisThrombosis6 Changes in Spinal cord-

MyelomalacicSyringomyelic changeAtrophy ndashupto 50dec in dia-good functions

Seddonrsquos Classificationbull

GROUP A_-Early onset - This comes up in active stage of the disease within first 2 years

Compressive Agents are inflammatory edema granulation abscess casseous material sequestra and rarely ischaemic lesion

GROUP B -Late onset- Usually after 2 years of onset of the disease ndash due to recurrence or by mechanical pressure This can be better divided into

paraplegia with active disease and with healed disease

Active disease - Caseous material debris sequestrated disc or bone internal gibbus stenosis and deformity can cause compression

Healed disease - Usually internal gibbus and acute kyphotic deformity can also give late onset paraplegia Usually there is a continuous traction compression leading to paraplegia

Kumarrsquos classification oftuberculous paraplegia

stage Clinical features1 Negligible Unaware of neural deficit

Plantar extensor Ankle clonus2 Mild Walk with support

3 Moderate NonambulatoryParalysis in extentionsensory loss lt50

4 Severe 3+ paralysis in flexionsensory lossgt50 Sphinters involved

Evolution of treatment Pre-antitubercular erabull Artificial abscess- Pott in 1779bull Laminectomy amp laminotomy

chipault(1896 )bull Costo-transversectomy Menard in 1896bull Posterior mediastinotomybull Calves operation 1917bull Lateral rhachiotomy of carpener 1933bull Anterlateral decompression of Dottamp

Alexander1947

BASIC PRINCIPLES OFMANAGEMENT

10487291048729bull 10487291048729 Early diagnosisbull 10487291048729 Expeditious medical treatmentbull 10487291048729 Aggressive surgical approachbull 10487291048729 Prevent deformitybull 10487291048729 Expect good outcome

bull Studies performed by the British Medical Research Council indicate that tuberculous spondylitis of the thoracolumbar spine should be treated with combination chemotherapy for 6-9 months According to a 1994 recommendation by the US Centers for Disease Control and Prevention this is the treatment of choice

What is Middle path regimebull Admission rest in bed bull Chemotherapy bull X-ray amp ESR once in 3 monthsbull MRI CT at 6 months interval for 2 yearsbull Craniovertebral cervicodorsal lumbosacralamp

sacroiliac jointsbull Gradual mobilizationbull 3-9 weeks- back extention exercise 5-10 min 3-4

timesbull Spinal brace--- 18 months-2 years

bull Abcesses ndash aspirate near surface bull Instille 1gm Streptomycin +- INH in solbull Sinus heals 6-12 weeksbull Neural complications if responds 3-4 weeks -

surgery unnecssarybull Excisional surgery for posterior spinal diseasebull Operative debridement for patients ndashif no arrest

after 3-6 months- spinal arthrodesis (recommended)

bull Post op--Spinal brace--- 18 months-2 years

Drugs in middle path

phase duration drug

Intensive 5-6 months

INH 300-400mg

Rifampicin ofloxacin400-600mg streptomycin

Continuation

7-8 months

-do 3-4mth Pyrazinamide 1500mg4-5mth Rifampicin

Prophylactic

4-5 months

-do Ethambutol 1200mg

Surgical indications1 No sign of Neurological recovery after trial of 3-4

weeks therapy2 Neurological complication during treatment3 Neuro deficit becoming worse4 Recurrence of neuro complication5 Prevertebral cervical abscessesneurological

signsamp difficulty in deglutitionamp respiration6 Advanced cases- Sphincter involvement

flaccid paralysisSevere flexor spasms

Other indicationsbull Recurrent paraplegiabull Painful paraplegiandash dt root compressionetcbull Posterior spinal disease--involving the post

elements of vertbbull Spinal tumor syndrome resulting in cord

compressionbull Rapid onset paraplegia due to thrombosistrauma

etcbull Severe paraplegiabull Secondary to cervical disease and bull cauda equina paralysis

1 Decompression +- fusion

Failed responseToo advanced

2 Debridement+- fusion

Failed response after 3-6 monthsDoubtful diagnosisInstability

3 Debridement +-DECOMP+- fusion

Recrudescence of disease

4 Debridement+- fusion

Prevent severe Kyphosis

5 Anterior transpostion

Severe Kyphosis +neural deficit

6 Laminectomy STSsecondary stenosis posterior disease

APPROACH1 Cervical spine ndash Anterior retropharyngeal

(smith-Robinsonrsquos) Anterior approach ndash AnteriorMedial

border of sternocleidomastoid2 Dorsal spine (D1 to L1) ndash

1 Transthoraccic transpleural 2 Anterolateral decompression(D2 ndash

L1)3 Lumbar spine ndash Anterolateral(Lumbovertebrotomy) Extraperitoneal Ant approach

Tulirsquos recommended approch

bull Cervical spine ndashT1 Anterior approchbull Dorsal spine ndashDL junction Antrolateral

approchbull Lumbar spine ampLumboscral junction

Extraperitoneal Transverse Vertebrotomy

Surgical technique

bull Costotransversectomyndash in tense paravertebral abscess

removendash transverse process rib ndash 2 inchs

Anterolateral decompressionbull Posterior part of ribbull Transverse processbull Pediclebull Part of the vertebral bodybull Griffith Seddon Roaf -- prone position

bull Tuli --- right lateral positionbull Advantage- 1 avoid venous congestion 2 avoid excessive bleeding 3 permits freer respiration 4 better look at site

Posterior Spinal Arthrodesisbull Byndash Albee amp Hibbsbull Albeendash tibial graft inserted longitudinally in to

the split spinous vertebral processbull Hibbsndash overlapping numerous small osseous flap

from contiguous laminae spinous process amp articular facets

bull Indicationsndash 1 mechanical instability 2 to stabilise craniovertebral region 3 as part of panvertebral operation

DYNAMIC CAGE GovenderampPrabhoo

SYNTHES PLATE WITHSAPCER

Yilmaz C Selek HY et al Anterior instrumentation for the Treatment of Spinal Tuberculosis J Bone and

Joint Surg 1999 81-A 1261-67

bull ldquowe feel that every attempt should be made to minimize this deformity with some form of instrumentation wherever indicated and preferably anteriorlyrsquordquo

Thank youThank you

  • Pottrsquos spine
  • Pottrsquos disease
  • Slide 3
  • Regional Distribution
  • Pathophysiology
  • Slide 6
  • Slide 7
  • Slide 8
  • Slide 9
  • Anatomically the lesion could be
  • History
  • Slide 12
  • Slide 13
  • Natural course of disease
  • Lab Studies
  • Slide 16
  • Slide 17
  • X Ray appearances
  • Slide 19
  • Slide 20
  • X-ray of the thoracolumbar spine (Lateral view) showing wedge collapse of L1 and L2 vertebral bodies
  • X-ray of the spine in a child showing complete destruction of D12 and L1 vertebral bodies leaving only the pedicles
  • Kumarrsquos clinico-radiological Classification
  • CT scanning
  • MRI
  • Slide 26
  • Myelography
  • Slide 28
  • Differentials
  • Complications of tuberculosis
  • Tb spine with PARAPLEGIA
  • Patho of Tuberculoses Paraplegia
  • Slide 33
  • Seddonrsquos Classification
  • Kumarrsquos classification of tuberculous paraplegia
  • Evolution of treatment
  • BASIC PRINCIPLES OF MANAGEMENT 10487291048729
  • Slide 38
  • What is Middle path regime
  • Slide 40
  • Drugs in middle path
  • Slide 43
  • Surgical indications
  • Other indications
  • Slide 46
  • APPROACH
  • Tulirsquos recommended approch
  • Surgical technique
  • Anterolateral decompression
  • Posterior Spinal Arthrodesis
  • DYNAMIC CAGE GovenderampPrabhoo
  • SYNTHES PLATE WITH SAPCER
  • Yilmaz C Selek HY et al Anterior instrumentation for the Treatment of Spinal Tuberculosis J Bone and Joint Surg 1999 81-A 1261-67
Page 25: Pott Disease

Differentials 1 Pyogenic infections2 Typhoid spine3 Brucella Spondylitis4 Mycotic Spondylitis5 Syphilitic6 Tumorous condition7 Primary malignant tumor 8 Multiple Myeloma9 Lymphomas10Secondary11Histocytosis-X12Spinal Osteochondrosis13Spondylolisthesis14Hydatid disease

Complications of tuberculosis

1 Paraplegia 2 Cold abscess3 Sinuses4 Secondary infection5 Amyloid disease6 Fatality

Tb spine with PARAPLEGIA

bull INCIDENCE 10-30bull Dorsal spine (MC)bull Motor functions affected before greater

than sensorybull Sense of position amp vibration last to

disappear

Patho of Tuberculoses Paraplegia1 Inflammatory Edema ndashvascular stasistoxin2 Extradural Mass ndash Tuberculous ostetis+

abscess3 Bony Disorder ndash Sequestra Internal Gibbus4 Meningeal changes ndash lsquodura as rule not

involvedrsquoExtradural grnulation --

contract cicatrization peridural fibrosis paraplegia

5 Infarction of spinal cord- Ant spinal artery

EndarteritisPeriarteritisThrombosis6 Changes in Spinal cord-

MyelomalacicSyringomyelic changeAtrophy ndashupto 50dec in dia-good functions

Seddonrsquos Classificationbull

GROUP A_-Early onset - This comes up in active stage of the disease within first 2 years

Compressive Agents are inflammatory edema granulation abscess casseous material sequestra and rarely ischaemic lesion

GROUP B -Late onset- Usually after 2 years of onset of the disease ndash due to recurrence or by mechanical pressure This can be better divided into

paraplegia with active disease and with healed disease

Active disease - Caseous material debris sequestrated disc or bone internal gibbus stenosis and deformity can cause compression

Healed disease - Usually internal gibbus and acute kyphotic deformity can also give late onset paraplegia Usually there is a continuous traction compression leading to paraplegia

Kumarrsquos classification oftuberculous paraplegia

stage Clinical features1 Negligible Unaware of neural deficit

Plantar extensor Ankle clonus2 Mild Walk with support

3 Moderate NonambulatoryParalysis in extentionsensory loss lt50

4 Severe 3+ paralysis in flexionsensory lossgt50 Sphinters involved

Evolution of treatment Pre-antitubercular erabull Artificial abscess- Pott in 1779bull Laminectomy amp laminotomy

chipault(1896 )bull Costo-transversectomy Menard in 1896bull Posterior mediastinotomybull Calves operation 1917bull Lateral rhachiotomy of carpener 1933bull Anterlateral decompression of Dottamp

Alexander1947

BASIC PRINCIPLES OFMANAGEMENT

10487291048729bull 10487291048729 Early diagnosisbull 10487291048729 Expeditious medical treatmentbull 10487291048729 Aggressive surgical approachbull 10487291048729 Prevent deformitybull 10487291048729 Expect good outcome

bull Studies performed by the British Medical Research Council indicate that tuberculous spondylitis of the thoracolumbar spine should be treated with combination chemotherapy for 6-9 months According to a 1994 recommendation by the US Centers for Disease Control and Prevention this is the treatment of choice

What is Middle path regimebull Admission rest in bed bull Chemotherapy bull X-ray amp ESR once in 3 monthsbull MRI CT at 6 months interval for 2 yearsbull Craniovertebral cervicodorsal lumbosacralamp

sacroiliac jointsbull Gradual mobilizationbull 3-9 weeks- back extention exercise 5-10 min 3-4

timesbull Spinal brace--- 18 months-2 years

bull Abcesses ndash aspirate near surface bull Instille 1gm Streptomycin +- INH in solbull Sinus heals 6-12 weeksbull Neural complications if responds 3-4 weeks -

surgery unnecssarybull Excisional surgery for posterior spinal diseasebull Operative debridement for patients ndashif no arrest

after 3-6 months- spinal arthrodesis (recommended)

bull Post op--Spinal brace--- 18 months-2 years

Drugs in middle path

phase duration drug

Intensive 5-6 months

INH 300-400mg

Rifampicin ofloxacin400-600mg streptomycin

Continuation

7-8 months

-do 3-4mth Pyrazinamide 1500mg4-5mth Rifampicin

Prophylactic

4-5 months

-do Ethambutol 1200mg

Surgical indications1 No sign of Neurological recovery after trial of 3-4

weeks therapy2 Neurological complication during treatment3 Neuro deficit becoming worse4 Recurrence of neuro complication5 Prevertebral cervical abscessesneurological

signsamp difficulty in deglutitionamp respiration6 Advanced cases- Sphincter involvement

flaccid paralysisSevere flexor spasms

Other indicationsbull Recurrent paraplegiabull Painful paraplegiandash dt root compressionetcbull Posterior spinal disease--involving the post

elements of vertbbull Spinal tumor syndrome resulting in cord

compressionbull Rapid onset paraplegia due to thrombosistrauma

etcbull Severe paraplegiabull Secondary to cervical disease and bull cauda equina paralysis

1 Decompression +- fusion

Failed responseToo advanced

2 Debridement+- fusion

Failed response after 3-6 monthsDoubtful diagnosisInstability

3 Debridement +-DECOMP+- fusion

Recrudescence of disease

4 Debridement+- fusion

Prevent severe Kyphosis

5 Anterior transpostion

Severe Kyphosis +neural deficit

6 Laminectomy STSsecondary stenosis posterior disease

APPROACH1 Cervical spine ndash Anterior retropharyngeal

(smith-Robinsonrsquos) Anterior approach ndash AnteriorMedial

border of sternocleidomastoid2 Dorsal spine (D1 to L1) ndash

1 Transthoraccic transpleural 2 Anterolateral decompression(D2 ndash

L1)3 Lumbar spine ndash Anterolateral(Lumbovertebrotomy) Extraperitoneal Ant approach

Tulirsquos recommended approch

bull Cervical spine ndashT1 Anterior approchbull Dorsal spine ndashDL junction Antrolateral

approchbull Lumbar spine ampLumboscral junction

Extraperitoneal Transverse Vertebrotomy

Surgical technique

bull Costotransversectomyndash in tense paravertebral abscess

removendash transverse process rib ndash 2 inchs

Anterolateral decompressionbull Posterior part of ribbull Transverse processbull Pediclebull Part of the vertebral bodybull Griffith Seddon Roaf -- prone position

bull Tuli --- right lateral positionbull Advantage- 1 avoid venous congestion 2 avoid excessive bleeding 3 permits freer respiration 4 better look at site

Posterior Spinal Arthrodesisbull Byndash Albee amp Hibbsbull Albeendash tibial graft inserted longitudinally in to

the split spinous vertebral processbull Hibbsndash overlapping numerous small osseous flap

from contiguous laminae spinous process amp articular facets

bull Indicationsndash 1 mechanical instability 2 to stabilise craniovertebral region 3 as part of panvertebral operation

DYNAMIC CAGE GovenderampPrabhoo

SYNTHES PLATE WITHSAPCER

Yilmaz C Selek HY et al Anterior instrumentation for the Treatment of Spinal Tuberculosis J Bone and

Joint Surg 1999 81-A 1261-67

bull ldquowe feel that every attempt should be made to minimize this deformity with some form of instrumentation wherever indicated and preferably anteriorlyrsquordquo

Thank youThank you

  • Pottrsquos spine
  • Pottrsquos disease
  • Slide 3
  • Regional Distribution
  • Pathophysiology
  • Slide 6
  • Slide 7
  • Slide 8
  • Slide 9
  • Anatomically the lesion could be
  • History
  • Slide 12
  • Slide 13
  • Natural course of disease
  • Lab Studies
  • Slide 16
  • Slide 17
  • X Ray appearances
  • Slide 19
  • Slide 20
  • X-ray of the thoracolumbar spine (Lateral view) showing wedge collapse of L1 and L2 vertebral bodies
  • X-ray of the spine in a child showing complete destruction of D12 and L1 vertebral bodies leaving only the pedicles
  • Kumarrsquos clinico-radiological Classification
  • CT scanning
  • MRI
  • Slide 26
  • Myelography
  • Slide 28
  • Differentials
  • Complications of tuberculosis
  • Tb spine with PARAPLEGIA
  • Patho of Tuberculoses Paraplegia
  • Slide 33
  • Seddonrsquos Classification
  • Kumarrsquos classification of tuberculous paraplegia
  • Evolution of treatment
  • BASIC PRINCIPLES OF MANAGEMENT 10487291048729
  • Slide 38
  • What is Middle path regime
  • Slide 40
  • Drugs in middle path
  • Slide 43
  • Surgical indications
  • Other indications
  • Slide 46
  • APPROACH
  • Tulirsquos recommended approch
  • Surgical technique
  • Anterolateral decompression
  • Posterior Spinal Arthrodesis
  • DYNAMIC CAGE GovenderampPrabhoo
  • SYNTHES PLATE WITH SAPCER
  • Yilmaz C Selek HY et al Anterior instrumentation for the Treatment of Spinal Tuberculosis J Bone and Joint Surg 1999 81-A 1261-67
Page 26: Pott Disease

Complications of tuberculosis

1 Paraplegia 2 Cold abscess3 Sinuses4 Secondary infection5 Amyloid disease6 Fatality

Tb spine with PARAPLEGIA

bull INCIDENCE 10-30bull Dorsal spine (MC)bull Motor functions affected before greater

than sensorybull Sense of position amp vibration last to

disappear

Patho of Tuberculoses Paraplegia1 Inflammatory Edema ndashvascular stasistoxin2 Extradural Mass ndash Tuberculous ostetis+

abscess3 Bony Disorder ndash Sequestra Internal Gibbus4 Meningeal changes ndash lsquodura as rule not

involvedrsquoExtradural grnulation --

contract cicatrization peridural fibrosis paraplegia

5 Infarction of spinal cord- Ant spinal artery

EndarteritisPeriarteritisThrombosis6 Changes in Spinal cord-

MyelomalacicSyringomyelic changeAtrophy ndashupto 50dec in dia-good functions

Seddonrsquos Classificationbull

GROUP A_-Early onset - This comes up in active stage of the disease within first 2 years

Compressive Agents are inflammatory edema granulation abscess casseous material sequestra and rarely ischaemic lesion

GROUP B -Late onset- Usually after 2 years of onset of the disease ndash due to recurrence or by mechanical pressure This can be better divided into

paraplegia with active disease and with healed disease

Active disease - Caseous material debris sequestrated disc or bone internal gibbus stenosis and deformity can cause compression

Healed disease - Usually internal gibbus and acute kyphotic deformity can also give late onset paraplegia Usually there is a continuous traction compression leading to paraplegia

Kumarrsquos classification oftuberculous paraplegia

stage Clinical features1 Negligible Unaware of neural deficit

Plantar extensor Ankle clonus2 Mild Walk with support

3 Moderate NonambulatoryParalysis in extentionsensory loss lt50

4 Severe 3+ paralysis in flexionsensory lossgt50 Sphinters involved

Evolution of treatment Pre-antitubercular erabull Artificial abscess- Pott in 1779bull Laminectomy amp laminotomy

chipault(1896 )bull Costo-transversectomy Menard in 1896bull Posterior mediastinotomybull Calves operation 1917bull Lateral rhachiotomy of carpener 1933bull Anterlateral decompression of Dottamp

Alexander1947

BASIC PRINCIPLES OFMANAGEMENT

10487291048729bull 10487291048729 Early diagnosisbull 10487291048729 Expeditious medical treatmentbull 10487291048729 Aggressive surgical approachbull 10487291048729 Prevent deformitybull 10487291048729 Expect good outcome

bull Studies performed by the British Medical Research Council indicate that tuberculous spondylitis of the thoracolumbar spine should be treated with combination chemotherapy for 6-9 months According to a 1994 recommendation by the US Centers for Disease Control and Prevention this is the treatment of choice

What is Middle path regimebull Admission rest in bed bull Chemotherapy bull X-ray amp ESR once in 3 monthsbull MRI CT at 6 months interval for 2 yearsbull Craniovertebral cervicodorsal lumbosacralamp

sacroiliac jointsbull Gradual mobilizationbull 3-9 weeks- back extention exercise 5-10 min 3-4

timesbull Spinal brace--- 18 months-2 years

bull Abcesses ndash aspirate near surface bull Instille 1gm Streptomycin +- INH in solbull Sinus heals 6-12 weeksbull Neural complications if responds 3-4 weeks -

surgery unnecssarybull Excisional surgery for posterior spinal diseasebull Operative debridement for patients ndashif no arrest

after 3-6 months- spinal arthrodesis (recommended)

bull Post op--Spinal brace--- 18 months-2 years

Drugs in middle path

phase duration drug

Intensive 5-6 months

INH 300-400mg

Rifampicin ofloxacin400-600mg streptomycin

Continuation

7-8 months

-do 3-4mth Pyrazinamide 1500mg4-5mth Rifampicin

Prophylactic

4-5 months

-do Ethambutol 1200mg

Surgical indications1 No sign of Neurological recovery after trial of 3-4

weeks therapy2 Neurological complication during treatment3 Neuro deficit becoming worse4 Recurrence of neuro complication5 Prevertebral cervical abscessesneurological

signsamp difficulty in deglutitionamp respiration6 Advanced cases- Sphincter involvement

flaccid paralysisSevere flexor spasms

Other indicationsbull Recurrent paraplegiabull Painful paraplegiandash dt root compressionetcbull Posterior spinal disease--involving the post

elements of vertbbull Spinal tumor syndrome resulting in cord

compressionbull Rapid onset paraplegia due to thrombosistrauma

etcbull Severe paraplegiabull Secondary to cervical disease and bull cauda equina paralysis

1 Decompression +- fusion

Failed responseToo advanced

2 Debridement+- fusion

Failed response after 3-6 monthsDoubtful diagnosisInstability

3 Debridement +-DECOMP+- fusion

Recrudescence of disease

4 Debridement+- fusion

Prevent severe Kyphosis

5 Anterior transpostion

Severe Kyphosis +neural deficit

6 Laminectomy STSsecondary stenosis posterior disease

APPROACH1 Cervical spine ndash Anterior retropharyngeal

(smith-Robinsonrsquos) Anterior approach ndash AnteriorMedial

border of sternocleidomastoid2 Dorsal spine (D1 to L1) ndash

1 Transthoraccic transpleural 2 Anterolateral decompression(D2 ndash

L1)3 Lumbar spine ndash Anterolateral(Lumbovertebrotomy) Extraperitoneal Ant approach

Tulirsquos recommended approch

bull Cervical spine ndashT1 Anterior approchbull Dorsal spine ndashDL junction Antrolateral

approchbull Lumbar spine ampLumboscral junction

Extraperitoneal Transverse Vertebrotomy

Surgical technique

bull Costotransversectomyndash in tense paravertebral abscess

removendash transverse process rib ndash 2 inchs

Anterolateral decompressionbull Posterior part of ribbull Transverse processbull Pediclebull Part of the vertebral bodybull Griffith Seddon Roaf -- prone position

bull Tuli --- right lateral positionbull Advantage- 1 avoid venous congestion 2 avoid excessive bleeding 3 permits freer respiration 4 better look at site

Posterior Spinal Arthrodesisbull Byndash Albee amp Hibbsbull Albeendash tibial graft inserted longitudinally in to

the split spinous vertebral processbull Hibbsndash overlapping numerous small osseous flap

from contiguous laminae spinous process amp articular facets

bull Indicationsndash 1 mechanical instability 2 to stabilise craniovertebral region 3 as part of panvertebral operation

DYNAMIC CAGE GovenderampPrabhoo

SYNTHES PLATE WITHSAPCER

Yilmaz C Selek HY et al Anterior instrumentation for the Treatment of Spinal Tuberculosis J Bone and

Joint Surg 1999 81-A 1261-67

bull ldquowe feel that every attempt should be made to minimize this deformity with some form of instrumentation wherever indicated and preferably anteriorlyrsquordquo

Thank youThank you

  • Pottrsquos spine
  • Pottrsquos disease
  • Slide 3
  • Regional Distribution
  • Pathophysiology
  • Slide 6
  • Slide 7
  • Slide 8
  • Slide 9
  • Anatomically the lesion could be
  • History
  • Slide 12
  • Slide 13
  • Natural course of disease
  • Lab Studies
  • Slide 16
  • Slide 17
  • X Ray appearances
  • Slide 19
  • Slide 20
  • X-ray of the thoracolumbar spine (Lateral view) showing wedge collapse of L1 and L2 vertebral bodies
  • X-ray of the spine in a child showing complete destruction of D12 and L1 vertebral bodies leaving only the pedicles
  • Kumarrsquos clinico-radiological Classification
  • CT scanning
  • MRI
  • Slide 26
  • Myelography
  • Slide 28
  • Differentials
  • Complications of tuberculosis
  • Tb spine with PARAPLEGIA
  • Patho of Tuberculoses Paraplegia
  • Slide 33
  • Seddonrsquos Classification
  • Kumarrsquos classification of tuberculous paraplegia
  • Evolution of treatment
  • BASIC PRINCIPLES OF MANAGEMENT 10487291048729
  • Slide 38
  • What is Middle path regime
  • Slide 40
  • Drugs in middle path
  • Slide 43
  • Surgical indications
  • Other indications
  • Slide 46
  • APPROACH
  • Tulirsquos recommended approch
  • Surgical technique
  • Anterolateral decompression
  • Posterior Spinal Arthrodesis
  • DYNAMIC CAGE GovenderampPrabhoo
  • SYNTHES PLATE WITH SAPCER
  • Yilmaz C Selek HY et al Anterior instrumentation for the Treatment of Spinal Tuberculosis J Bone and Joint Surg 1999 81-A 1261-67
Page 27: Pott Disease

Tb spine with PARAPLEGIA

bull INCIDENCE 10-30bull Dorsal spine (MC)bull Motor functions affected before greater

than sensorybull Sense of position amp vibration last to

disappear

Patho of Tuberculoses Paraplegia1 Inflammatory Edema ndashvascular stasistoxin2 Extradural Mass ndash Tuberculous ostetis+

abscess3 Bony Disorder ndash Sequestra Internal Gibbus4 Meningeal changes ndash lsquodura as rule not

involvedrsquoExtradural grnulation --

contract cicatrization peridural fibrosis paraplegia

5 Infarction of spinal cord- Ant spinal artery

EndarteritisPeriarteritisThrombosis6 Changes in Spinal cord-

MyelomalacicSyringomyelic changeAtrophy ndashupto 50dec in dia-good functions

Seddonrsquos Classificationbull

GROUP A_-Early onset - This comes up in active stage of the disease within first 2 years

Compressive Agents are inflammatory edema granulation abscess casseous material sequestra and rarely ischaemic lesion

GROUP B -Late onset- Usually after 2 years of onset of the disease ndash due to recurrence or by mechanical pressure This can be better divided into

paraplegia with active disease and with healed disease

Active disease - Caseous material debris sequestrated disc or bone internal gibbus stenosis and deformity can cause compression

Healed disease - Usually internal gibbus and acute kyphotic deformity can also give late onset paraplegia Usually there is a continuous traction compression leading to paraplegia

Kumarrsquos classification oftuberculous paraplegia

stage Clinical features1 Negligible Unaware of neural deficit

Plantar extensor Ankle clonus2 Mild Walk with support

3 Moderate NonambulatoryParalysis in extentionsensory loss lt50

4 Severe 3+ paralysis in flexionsensory lossgt50 Sphinters involved

Evolution of treatment Pre-antitubercular erabull Artificial abscess- Pott in 1779bull Laminectomy amp laminotomy

chipault(1896 )bull Costo-transversectomy Menard in 1896bull Posterior mediastinotomybull Calves operation 1917bull Lateral rhachiotomy of carpener 1933bull Anterlateral decompression of Dottamp

Alexander1947

BASIC PRINCIPLES OFMANAGEMENT

10487291048729bull 10487291048729 Early diagnosisbull 10487291048729 Expeditious medical treatmentbull 10487291048729 Aggressive surgical approachbull 10487291048729 Prevent deformitybull 10487291048729 Expect good outcome

bull Studies performed by the British Medical Research Council indicate that tuberculous spondylitis of the thoracolumbar spine should be treated with combination chemotherapy for 6-9 months According to a 1994 recommendation by the US Centers for Disease Control and Prevention this is the treatment of choice

What is Middle path regimebull Admission rest in bed bull Chemotherapy bull X-ray amp ESR once in 3 monthsbull MRI CT at 6 months interval for 2 yearsbull Craniovertebral cervicodorsal lumbosacralamp

sacroiliac jointsbull Gradual mobilizationbull 3-9 weeks- back extention exercise 5-10 min 3-4

timesbull Spinal brace--- 18 months-2 years

bull Abcesses ndash aspirate near surface bull Instille 1gm Streptomycin +- INH in solbull Sinus heals 6-12 weeksbull Neural complications if responds 3-4 weeks -

surgery unnecssarybull Excisional surgery for posterior spinal diseasebull Operative debridement for patients ndashif no arrest

after 3-6 months- spinal arthrodesis (recommended)

bull Post op--Spinal brace--- 18 months-2 years

Drugs in middle path

phase duration drug

Intensive 5-6 months

INH 300-400mg

Rifampicin ofloxacin400-600mg streptomycin

Continuation

7-8 months

-do 3-4mth Pyrazinamide 1500mg4-5mth Rifampicin

Prophylactic

4-5 months

-do Ethambutol 1200mg

Surgical indications1 No sign of Neurological recovery after trial of 3-4

weeks therapy2 Neurological complication during treatment3 Neuro deficit becoming worse4 Recurrence of neuro complication5 Prevertebral cervical abscessesneurological

signsamp difficulty in deglutitionamp respiration6 Advanced cases- Sphincter involvement

flaccid paralysisSevere flexor spasms

Other indicationsbull Recurrent paraplegiabull Painful paraplegiandash dt root compressionetcbull Posterior spinal disease--involving the post

elements of vertbbull Spinal tumor syndrome resulting in cord

compressionbull Rapid onset paraplegia due to thrombosistrauma

etcbull Severe paraplegiabull Secondary to cervical disease and bull cauda equina paralysis

1 Decompression +- fusion

Failed responseToo advanced

2 Debridement+- fusion

Failed response after 3-6 monthsDoubtful diagnosisInstability

3 Debridement +-DECOMP+- fusion

Recrudescence of disease

4 Debridement+- fusion

Prevent severe Kyphosis

5 Anterior transpostion

Severe Kyphosis +neural deficit

6 Laminectomy STSsecondary stenosis posterior disease

APPROACH1 Cervical spine ndash Anterior retropharyngeal

(smith-Robinsonrsquos) Anterior approach ndash AnteriorMedial

border of sternocleidomastoid2 Dorsal spine (D1 to L1) ndash

1 Transthoraccic transpleural 2 Anterolateral decompression(D2 ndash

L1)3 Lumbar spine ndash Anterolateral(Lumbovertebrotomy) Extraperitoneal Ant approach

Tulirsquos recommended approch

bull Cervical spine ndashT1 Anterior approchbull Dorsal spine ndashDL junction Antrolateral

approchbull Lumbar spine ampLumboscral junction

Extraperitoneal Transverse Vertebrotomy

Surgical technique

bull Costotransversectomyndash in tense paravertebral abscess

removendash transverse process rib ndash 2 inchs

Anterolateral decompressionbull Posterior part of ribbull Transverse processbull Pediclebull Part of the vertebral bodybull Griffith Seddon Roaf -- prone position

bull Tuli --- right lateral positionbull Advantage- 1 avoid venous congestion 2 avoid excessive bleeding 3 permits freer respiration 4 better look at site

Posterior Spinal Arthrodesisbull Byndash Albee amp Hibbsbull Albeendash tibial graft inserted longitudinally in to

the split spinous vertebral processbull Hibbsndash overlapping numerous small osseous flap

from contiguous laminae spinous process amp articular facets

bull Indicationsndash 1 mechanical instability 2 to stabilise craniovertebral region 3 as part of panvertebral operation

DYNAMIC CAGE GovenderampPrabhoo

SYNTHES PLATE WITHSAPCER

Yilmaz C Selek HY et al Anterior instrumentation for the Treatment of Spinal Tuberculosis J Bone and

Joint Surg 1999 81-A 1261-67

bull ldquowe feel that every attempt should be made to minimize this deformity with some form of instrumentation wherever indicated and preferably anteriorlyrsquordquo

Thank youThank you

  • Pottrsquos spine
  • Pottrsquos disease
  • Slide 3
  • Regional Distribution
  • Pathophysiology
  • Slide 6
  • Slide 7
  • Slide 8
  • Slide 9
  • Anatomically the lesion could be
  • History
  • Slide 12
  • Slide 13
  • Natural course of disease
  • Lab Studies
  • Slide 16
  • Slide 17
  • X Ray appearances
  • Slide 19
  • Slide 20
  • X-ray of the thoracolumbar spine (Lateral view) showing wedge collapse of L1 and L2 vertebral bodies
  • X-ray of the spine in a child showing complete destruction of D12 and L1 vertebral bodies leaving only the pedicles
  • Kumarrsquos clinico-radiological Classification
  • CT scanning
  • MRI
  • Slide 26
  • Myelography
  • Slide 28
  • Differentials
  • Complications of tuberculosis
  • Tb spine with PARAPLEGIA
  • Patho of Tuberculoses Paraplegia
  • Slide 33
  • Seddonrsquos Classification
  • Kumarrsquos classification of tuberculous paraplegia
  • Evolution of treatment
  • BASIC PRINCIPLES OF MANAGEMENT 10487291048729
  • Slide 38
  • What is Middle path regime
  • Slide 40
  • Drugs in middle path
  • Slide 43
  • Surgical indications
  • Other indications
  • Slide 46
  • APPROACH
  • Tulirsquos recommended approch
  • Surgical technique
  • Anterolateral decompression
  • Posterior Spinal Arthrodesis
  • DYNAMIC CAGE GovenderampPrabhoo
  • SYNTHES PLATE WITH SAPCER
  • Yilmaz C Selek HY et al Anterior instrumentation for the Treatment of Spinal Tuberculosis J Bone and Joint Surg 1999 81-A 1261-67
Page 28: Pott Disease

Patho of Tuberculoses Paraplegia1 Inflammatory Edema ndashvascular stasistoxin2 Extradural Mass ndash Tuberculous ostetis+

abscess3 Bony Disorder ndash Sequestra Internal Gibbus4 Meningeal changes ndash lsquodura as rule not

involvedrsquoExtradural grnulation --

contract cicatrization peridural fibrosis paraplegia

5 Infarction of spinal cord- Ant spinal artery

EndarteritisPeriarteritisThrombosis6 Changes in Spinal cord-

MyelomalacicSyringomyelic changeAtrophy ndashupto 50dec in dia-good functions

Seddonrsquos Classificationbull

GROUP A_-Early onset - This comes up in active stage of the disease within first 2 years

Compressive Agents are inflammatory edema granulation abscess casseous material sequestra and rarely ischaemic lesion

GROUP B -Late onset- Usually after 2 years of onset of the disease ndash due to recurrence or by mechanical pressure This can be better divided into

paraplegia with active disease and with healed disease

Active disease - Caseous material debris sequestrated disc or bone internal gibbus stenosis and deformity can cause compression

Healed disease - Usually internal gibbus and acute kyphotic deformity can also give late onset paraplegia Usually there is a continuous traction compression leading to paraplegia

Kumarrsquos classification oftuberculous paraplegia

stage Clinical features1 Negligible Unaware of neural deficit

Plantar extensor Ankle clonus2 Mild Walk with support

3 Moderate NonambulatoryParalysis in extentionsensory loss lt50

4 Severe 3+ paralysis in flexionsensory lossgt50 Sphinters involved

Evolution of treatment Pre-antitubercular erabull Artificial abscess- Pott in 1779bull Laminectomy amp laminotomy

chipault(1896 )bull Costo-transversectomy Menard in 1896bull Posterior mediastinotomybull Calves operation 1917bull Lateral rhachiotomy of carpener 1933bull Anterlateral decompression of Dottamp

Alexander1947

BASIC PRINCIPLES OFMANAGEMENT

10487291048729bull 10487291048729 Early diagnosisbull 10487291048729 Expeditious medical treatmentbull 10487291048729 Aggressive surgical approachbull 10487291048729 Prevent deformitybull 10487291048729 Expect good outcome

bull Studies performed by the British Medical Research Council indicate that tuberculous spondylitis of the thoracolumbar spine should be treated with combination chemotherapy for 6-9 months According to a 1994 recommendation by the US Centers for Disease Control and Prevention this is the treatment of choice

What is Middle path regimebull Admission rest in bed bull Chemotherapy bull X-ray amp ESR once in 3 monthsbull MRI CT at 6 months interval for 2 yearsbull Craniovertebral cervicodorsal lumbosacralamp

sacroiliac jointsbull Gradual mobilizationbull 3-9 weeks- back extention exercise 5-10 min 3-4

timesbull Spinal brace--- 18 months-2 years

bull Abcesses ndash aspirate near surface bull Instille 1gm Streptomycin +- INH in solbull Sinus heals 6-12 weeksbull Neural complications if responds 3-4 weeks -

surgery unnecssarybull Excisional surgery for posterior spinal diseasebull Operative debridement for patients ndashif no arrest

after 3-6 months- spinal arthrodesis (recommended)

bull Post op--Spinal brace--- 18 months-2 years

Drugs in middle path

phase duration drug

Intensive 5-6 months

INH 300-400mg

Rifampicin ofloxacin400-600mg streptomycin

Continuation

7-8 months

-do 3-4mth Pyrazinamide 1500mg4-5mth Rifampicin

Prophylactic

4-5 months

-do Ethambutol 1200mg

Surgical indications1 No sign of Neurological recovery after trial of 3-4

weeks therapy2 Neurological complication during treatment3 Neuro deficit becoming worse4 Recurrence of neuro complication5 Prevertebral cervical abscessesneurological

signsamp difficulty in deglutitionamp respiration6 Advanced cases- Sphincter involvement

flaccid paralysisSevere flexor spasms

Other indicationsbull Recurrent paraplegiabull Painful paraplegiandash dt root compressionetcbull Posterior spinal disease--involving the post

elements of vertbbull Spinal tumor syndrome resulting in cord

compressionbull Rapid onset paraplegia due to thrombosistrauma

etcbull Severe paraplegiabull Secondary to cervical disease and bull cauda equina paralysis

1 Decompression +- fusion

Failed responseToo advanced

2 Debridement+- fusion

Failed response after 3-6 monthsDoubtful diagnosisInstability

3 Debridement +-DECOMP+- fusion

Recrudescence of disease

4 Debridement+- fusion

Prevent severe Kyphosis

5 Anterior transpostion

Severe Kyphosis +neural deficit

6 Laminectomy STSsecondary stenosis posterior disease

APPROACH1 Cervical spine ndash Anterior retropharyngeal

(smith-Robinsonrsquos) Anterior approach ndash AnteriorMedial

border of sternocleidomastoid2 Dorsal spine (D1 to L1) ndash

1 Transthoraccic transpleural 2 Anterolateral decompression(D2 ndash

L1)3 Lumbar spine ndash Anterolateral(Lumbovertebrotomy) Extraperitoneal Ant approach

Tulirsquos recommended approch

bull Cervical spine ndashT1 Anterior approchbull Dorsal spine ndashDL junction Antrolateral

approchbull Lumbar spine ampLumboscral junction

Extraperitoneal Transverse Vertebrotomy

Surgical technique

bull Costotransversectomyndash in tense paravertebral abscess

removendash transverse process rib ndash 2 inchs

Anterolateral decompressionbull Posterior part of ribbull Transverse processbull Pediclebull Part of the vertebral bodybull Griffith Seddon Roaf -- prone position

bull Tuli --- right lateral positionbull Advantage- 1 avoid venous congestion 2 avoid excessive bleeding 3 permits freer respiration 4 better look at site

Posterior Spinal Arthrodesisbull Byndash Albee amp Hibbsbull Albeendash tibial graft inserted longitudinally in to

the split spinous vertebral processbull Hibbsndash overlapping numerous small osseous flap

from contiguous laminae spinous process amp articular facets

bull Indicationsndash 1 mechanical instability 2 to stabilise craniovertebral region 3 as part of panvertebral operation

DYNAMIC CAGE GovenderampPrabhoo

SYNTHES PLATE WITHSAPCER

Yilmaz C Selek HY et al Anterior instrumentation for the Treatment of Spinal Tuberculosis J Bone and

Joint Surg 1999 81-A 1261-67

bull ldquowe feel that every attempt should be made to minimize this deformity with some form of instrumentation wherever indicated and preferably anteriorlyrsquordquo

Thank youThank you

  • Pottrsquos spine
  • Pottrsquos disease
  • Slide 3
  • Regional Distribution
  • Pathophysiology
  • Slide 6
  • Slide 7
  • Slide 8
  • Slide 9
  • Anatomically the lesion could be
  • History
  • Slide 12
  • Slide 13
  • Natural course of disease
  • Lab Studies
  • Slide 16
  • Slide 17
  • X Ray appearances
  • Slide 19
  • Slide 20
  • X-ray of the thoracolumbar spine (Lateral view) showing wedge collapse of L1 and L2 vertebral bodies
  • X-ray of the spine in a child showing complete destruction of D12 and L1 vertebral bodies leaving only the pedicles
  • Kumarrsquos clinico-radiological Classification
  • CT scanning
  • MRI
  • Slide 26
  • Myelography
  • Slide 28
  • Differentials
  • Complications of tuberculosis
  • Tb spine with PARAPLEGIA
  • Patho of Tuberculoses Paraplegia
  • Slide 33
  • Seddonrsquos Classification
  • Kumarrsquos classification of tuberculous paraplegia
  • Evolution of treatment
  • BASIC PRINCIPLES OF MANAGEMENT 10487291048729
  • Slide 38
  • What is Middle path regime
  • Slide 40
  • Drugs in middle path
  • Slide 43
  • Surgical indications
  • Other indications
  • Slide 46
  • APPROACH
  • Tulirsquos recommended approch
  • Surgical technique
  • Anterolateral decompression
  • Posterior Spinal Arthrodesis
  • DYNAMIC CAGE GovenderampPrabhoo
  • SYNTHES PLATE WITH SAPCER
  • Yilmaz C Selek HY et al Anterior instrumentation for the Treatment of Spinal Tuberculosis J Bone and Joint Surg 1999 81-A 1261-67
Page 29: Pott Disease

5 Infarction of spinal cord- Ant spinal artery

EndarteritisPeriarteritisThrombosis6 Changes in Spinal cord-

MyelomalacicSyringomyelic changeAtrophy ndashupto 50dec in dia-good functions

Seddonrsquos Classificationbull

GROUP A_-Early onset - This comes up in active stage of the disease within first 2 years

Compressive Agents are inflammatory edema granulation abscess casseous material sequestra and rarely ischaemic lesion

GROUP B -Late onset- Usually after 2 years of onset of the disease ndash due to recurrence or by mechanical pressure This can be better divided into

paraplegia with active disease and with healed disease

Active disease - Caseous material debris sequestrated disc or bone internal gibbus stenosis and deformity can cause compression

Healed disease - Usually internal gibbus and acute kyphotic deformity can also give late onset paraplegia Usually there is a continuous traction compression leading to paraplegia

Kumarrsquos classification oftuberculous paraplegia

stage Clinical features1 Negligible Unaware of neural deficit

Plantar extensor Ankle clonus2 Mild Walk with support

3 Moderate NonambulatoryParalysis in extentionsensory loss lt50

4 Severe 3+ paralysis in flexionsensory lossgt50 Sphinters involved

Evolution of treatment Pre-antitubercular erabull Artificial abscess- Pott in 1779bull Laminectomy amp laminotomy

chipault(1896 )bull Costo-transversectomy Menard in 1896bull Posterior mediastinotomybull Calves operation 1917bull Lateral rhachiotomy of carpener 1933bull Anterlateral decompression of Dottamp

Alexander1947

BASIC PRINCIPLES OFMANAGEMENT

10487291048729bull 10487291048729 Early diagnosisbull 10487291048729 Expeditious medical treatmentbull 10487291048729 Aggressive surgical approachbull 10487291048729 Prevent deformitybull 10487291048729 Expect good outcome

bull Studies performed by the British Medical Research Council indicate that tuberculous spondylitis of the thoracolumbar spine should be treated with combination chemotherapy for 6-9 months According to a 1994 recommendation by the US Centers for Disease Control and Prevention this is the treatment of choice

What is Middle path regimebull Admission rest in bed bull Chemotherapy bull X-ray amp ESR once in 3 monthsbull MRI CT at 6 months interval for 2 yearsbull Craniovertebral cervicodorsal lumbosacralamp

sacroiliac jointsbull Gradual mobilizationbull 3-9 weeks- back extention exercise 5-10 min 3-4

timesbull Spinal brace--- 18 months-2 years

bull Abcesses ndash aspirate near surface bull Instille 1gm Streptomycin +- INH in solbull Sinus heals 6-12 weeksbull Neural complications if responds 3-4 weeks -

surgery unnecssarybull Excisional surgery for posterior spinal diseasebull Operative debridement for patients ndashif no arrest

after 3-6 months- spinal arthrodesis (recommended)

bull Post op--Spinal brace--- 18 months-2 years

Drugs in middle path

phase duration drug

Intensive 5-6 months

INH 300-400mg

Rifampicin ofloxacin400-600mg streptomycin

Continuation

7-8 months

-do 3-4mth Pyrazinamide 1500mg4-5mth Rifampicin

Prophylactic

4-5 months

-do Ethambutol 1200mg

Surgical indications1 No sign of Neurological recovery after trial of 3-4

weeks therapy2 Neurological complication during treatment3 Neuro deficit becoming worse4 Recurrence of neuro complication5 Prevertebral cervical abscessesneurological

signsamp difficulty in deglutitionamp respiration6 Advanced cases- Sphincter involvement

flaccid paralysisSevere flexor spasms

Other indicationsbull Recurrent paraplegiabull Painful paraplegiandash dt root compressionetcbull Posterior spinal disease--involving the post

elements of vertbbull Spinal tumor syndrome resulting in cord

compressionbull Rapid onset paraplegia due to thrombosistrauma

etcbull Severe paraplegiabull Secondary to cervical disease and bull cauda equina paralysis

1 Decompression +- fusion

Failed responseToo advanced

2 Debridement+- fusion

Failed response after 3-6 monthsDoubtful diagnosisInstability

3 Debridement +-DECOMP+- fusion

Recrudescence of disease

4 Debridement+- fusion

Prevent severe Kyphosis

5 Anterior transpostion

Severe Kyphosis +neural deficit

6 Laminectomy STSsecondary stenosis posterior disease

APPROACH1 Cervical spine ndash Anterior retropharyngeal

(smith-Robinsonrsquos) Anterior approach ndash AnteriorMedial

border of sternocleidomastoid2 Dorsal spine (D1 to L1) ndash

1 Transthoraccic transpleural 2 Anterolateral decompression(D2 ndash

L1)3 Lumbar spine ndash Anterolateral(Lumbovertebrotomy) Extraperitoneal Ant approach

Tulirsquos recommended approch

bull Cervical spine ndashT1 Anterior approchbull Dorsal spine ndashDL junction Antrolateral

approchbull Lumbar spine ampLumboscral junction

Extraperitoneal Transverse Vertebrotomy

Surgical technique

bull Costotransversectomyndash in tense paravertebral abscess

removendash transverse process rib ndash 2 inchs

Anterolateral decompressionbull Posterior part of ribbull Transverse processbull Pediclebull Part of the vertebral bodybull Griffith Seddon Roaf -- prone position

bull Tuli --- right lateral positionbull Advantage- 1 avoid venous congestion 2 avoid excessive bleeding 3 permits freer respiration 4 better look at site

Posterior Spinal Arthrodesisbull Byndash Albee amp Hibbsbull Albeendash tibial graft inserted longitudinally in to

the split spinous vertebral processbull Hibbsndash overlapping numerous small osseous flap

from contiguous laminae spinous process amp articular facets

bull Indicationsndash 1 mechanical instability 2 to stabilise craniovertebral region 3 as part of panvertebral operation

DYNAMIC CAGE GovenderampPrabhoo

SYNTHES PLATE WITHSAPCER

Yilmaz C Selek HY et al Anterior instrumentation for the Treatment of Spinal Tuberculosis J Bone and

Joint Surg 1999 81-A 1261-67

bull ldquowe feel that every attempt should be made to minimize this deformity with some form of instrumentation wherever indicated and preferably anteriorlyrsquordquo

Thank youThank you

  • Pottrsquos spine
  • Pottrsquos disease
  • Slide 3
  • Regional Distribution
  • Pathophysiology
  • Slide 6
  • Slide 7
  • Slide 8
  • Slide 9
  • Anatomically the lesion could be
  • History
  • Slide 12
  • Slide 13
  • Natural course of disease
  • Lab Studies
  • Slide 16
  • Slide 17
  • X Ray appearances
  • Slide 19
  • Slide 20
  • X-ray of the thoracolumbar spine (Lateral view) showing wedge collapse of L1 and L2 vertebral bodies
  • X-ray of the spine in a child showing complete destruction of D12 and L1 vertebral bodies leaving only the pedicles
  • Kumarrsquos clinico-radiological Classification
  • CT scanning
  • MRI
  • Slide 26
  • Myelography
  • Slide 28
  • Differentials
  • Complications of tuberculosis
  • Tb spine with PARAPLEGIA
  • Patho of Tuberculoses Paraplegia
  • Slide 33
  • Seddonrsquos Classification
  • Kumarrsquos classification of tuberculous paraplegia
  • Evolution of treatment
  • BASIC PRINCIPLES OF MANAGEMENT 10487291048729
  • Slide 38
  • What is Middle path regime
  • Slide 40
  • Drugs in middle path
  • Slide 43
  • Surgical indications
  • Other indications
  • Slide 46
  • APPROACH
  • Tulirsquos recommended approch
  • Surgical technique
  • Anterolateral decompression
  • Posterior Spinal Arthrodesis
  • DYNAMIC CAGE GovenderampPrabhoo
  • SYNTHES PLATE WITH SAPCER
  • Yilmaz C Selek HY et al Anterior instrumentation for the Treatment of Spinal Tuberculosis J Bone and Joint Surg 1999 81-A 1261-67
Page 30: Pott Disease

Seddonrsquos Classificationbull

GROUP A_-Early onset - This comes up in active stage of the disease within first 2 years

Compressive Agents are inflammatory edema granulation abscess casseous material sequestra and rarely ischaemic lesion

GROUP B -Late onset- Usually after 2 years of onset of the disease ndash due to recurrence or by mechanical pressure This can be better divided into

paraplegia with active disease and with healed disease

Active disease - Caseous material debris sequestrated disc or bone internal gibbus stenosis and deformity can cause compression

Healed disease - Usually internal gibbus and acute kyphotic deformity can also give late onset paraplegia Usually there is a continuous traction compression leading to paraplegia

Kumarrsquos classification oftuberculous paraplegia

stage Clinical features1 Negligible Unaware of neural deficit

Plantar extensor Ankle clonus2 Mild Walk with support

3 Moderate NonambulatoryParalysis in extentionsensory loss lt50

4 Severe 3+ paralysis in flexionsensory lossgt50 Sphinters involved

Evolution of treatment Pre-antitubercular erabull Artificial abscess- Pott in 1779bull Laminectomy amp laminotomy

chipault(1896 )bull Costo-transversectomy Menard in 1896bull Posterior mediastinotomybull Calves operation 1917bull Lateral rhachiotomy of carpener 1933bull Anterlateral decompression of Dottamp

Alexander1947

BASIC PRINCIPLES OFMANAGEMENT

10487291048729bull 10487291048729 Early diagnosisbull 10487291048729 Expeditious medical treatmentbull 10487291048729 Aggressive surgical approachbull 10487291048729 Prevent deformitybull 10487291048729 Expect good outcome

bull Studies performed by the British Medical Research Council indicate that tuberculous spondylitis of the thoracolumbar spine should be treated with combination chemotherapy for 6-9 months According to a 1994 recommendation by the US Centers for Disease Control and Prevention this is the treatment of choice

What is Middle path regimebull Admission rest in bed bull Chemotherapy bull X-ray amp ESR once in 3 monthsbull MRI CT at 6 months interval for 2 yearsbull Craniovertebral cervicodorsal lumbosacralamp

sacroiliac jointsbull Gradual mobilizationbull 3-9 weeks- back extention exercise 5-10 min 3-4

timesbull Spinal brace--- 18 months-2 years

bull Abcesses ndash aspirate near surface bull Instille 1gm Streptomycin +- INH in solbull Sinus heals 6-12 weeksbull Neural complications if responds 3-4 weeks -

surgery unnecssarybull Excisional surgery for posterior spinal diseasebull Operative debridement for patients ndashif no arrest

after 3-6 months- spinal arthrodesis (recommended)

bull Post op--Spinal brace--- 18 months-2 years

Drugs in middle path

phase duration drug

Intensive 5-6 months

INH 300-400mg

Rifampicin ofloxacin400-600mg streptomycin

Continuation

7-8 months

-do 3-4mth Pyrazinamide 1500mg4-5mth Rifampicin

Prophylactic

4-5 months

-do Ethambutol 1200mg

Surgical indications1 No sign of Neurological recovery after trial of 3-4

weeks therapy2 Neurological complication during treatment3 Neuro deficit becoming worse4 Recurrence of neuro complication5 Prevertebral cervical abscessesneurological

signsamp difficulty in deglutitionamp respiration6 Advanced cases- Sphincter involvement

flaccid paralysisSevere flexor spasms

Other indicationsbull Recurrent paraplegiabull Painful paraplegiandash dt root compressionetcbull Posterior spinal disease--involving the post

elements of vertbbull Spinal tumor syndrome resulting in cord

compressionbull Rapid onset paraplegia due to thrombosistrauma

etcbull Severe paraplegiabull Secondary to cervical disease and bull cauda equina paralysis

1 Decompression +- fusion

Failed responseToo advanced

2 Debridement+- fusion

Failed response after 3-6 monthsDoubtful diagnosisInstability

3 Debridement +-DECOMP+- fusion

Recrudescence of disease

4 Debridement+- fusion

Prevent severe Kyphosis

5 Anterior transpostion

Severe Kyphosis +neural deficit

6 Laminectomy STSsecondary stenosis posterior disease

APPROACH1 Cervical spine ndash Anterior retropharyngeal

(smith-Robinsonrsquos) Anterior approach ndash AnteriorMedial

border of sternocleidomastoid2 Dorsal spine (D1 to L1) ndash

1 Transthoraccic transpleural 2 Anterolateral decompression(D2 ndash

L1)3 Lumbar spine ndash Anterolateral(Lumbovertebrotomy) Extraperitoneal Ant approach

Tulirsquos recommended approch

bull Cervical spine ndashT1 Anterior approchbull Dorsal spine ndashDL junction Antrolateral

approchbull Lumbar spine ampLumboscral junction

Extraperitoneal Transverse Vertebrotomy

Surgical technique

bull Costotransversectomyndash in tense paravertebral abscess

removendash transverse process rib ndash 2 inchs

Anterolateral decompressionbull Posterior part of ribbull Transverse processbull Pediclebull Part of the vertebral bodybull Griffith Seddon Roaf -- prone position

bull Tuli --- right lateral positionbull Advantage- 1 avoid venous congestion 2 avoid excessive bleeding 3 permits freer respiration 4 better look at site

Posterior Spinal Arthrodesisbull Byndash Albee amp Hibbsbull Albeendash tibial graft inserted longitudinally in to

the split spinous vertebral processbull Hibbsndash overlapping numerous small osseous flap

from contiguous laminae spinous process amp articular facets

bull Indicationsndash 1 mechanical instability 2 to stabilise craniovertebral region 3 as part of panvertebral operation

DYNAMIC CAGE GovenderampPrabhoo

SYNTHES PLATE WITHSAPCER

Yilmaz C Selek HY et al Anterior instrumentation for the Treatment of Spinal Tuberculosis J Bone and

Joint Surg 1999 81-A 1261-67

bull ldquowe feel that every attempt should be made to minimize this deformity with some form of instrumentation wherever indicated and preferably anteriorlyrsquordquo

Thank youThank you

  • Pottrsquos spine
  • Pottrsquos disease
  • Slide 3
  • Regional Distribution
  • Pathophysiology
  • Slide 6
  • Slide 7
  • Slide 8
  • Slide 9
  • Anatomically the lesion could be
  • History
  • Slide 12
  • Slide 13
  • Natural course of disease
  • Lab Studies
  • Slide 16
  • Slide 17
  • X Ray appearances
  • Slide 19
  • Slide 20
  • X-ray of the thoracolumbar spine (Lateral view) showing wedge collapse of L1 and L2 vertebral bodies
  • X-ray of the spine in a child showing complete destruction of D12 and L1 vertebral bodies leaving only the pedicles
  • Kumarrsquos clinico-radiological Classification
  • CT scanning
  • MRI
  • Slide 26
  • Myelography
  • Slide 28
  • Differentials
  • Complications of tuberculosis
  • Tb spine with PARAPLEGIA
  • Patho of Tuberculoses Paraplegia
  • Slide 33
  • Seddonrsquos Classification
  • Kumarrsquos classification of tuberculous paraplegia
  • Evolution of treatment
  • BASIC PRINCIPLES OF MANAGEMENT 10487291048729
  • Slide 38
  • What is Middle path regime
  • Slide 40
  • Drugs in middle path
  • Slide 43
  • Surgical indications
  • Other indications
  • Slide 46
  • APPROACH
  • Tulirsquos recommended approch
  • Surgical technique
  • Anterolateral decompression
  • Posterior Spinal Arthrodesis
  • DYNAMIC CAGE GovenderampPrabhoo
  • SYNTHES PLATE WITH SAPCER
  • Yilmaz C Selek HY et al Anterior instrumentation for the Treatment of Spinal Tuberculosis J Bone and Joint Surg 1999 81-A 1261-67
Page 31: Pott Disease

Kumarrsquos classification oftuberculous paraplegia

stage Clinical features1 Negligible Unaware of neural deficit

Plantar extensor Ankle clonus2 Mild Walk with support

3 Moderate NonambulatoryParalysis in extentionsensory loss lt50

4 Severe 3+ paralysis in flexionsensory lossgt50 Sphinters involved

Evolution of treatment Pre-antitubercular erabull Artificial abscess- Pott in 1779bull Laminectomy amp laminotomy

chipault(1896 )bull Costo-transversectomy Menard in 1896bull Posterior mediastinotomybull Calves operation 1917bull Lateral rhachiotomy of carpener 1933bull Anterlateral decompression of Dottamp

Alexander1947

BASIC PRINCIPLES OFMANAGEMENT

10487291048729bull 10487291048729 Early diagnosisbull 10487291048729 Expeditious medical treatmentbull 10487291048729 Aggressive surgical approachbull 10487291048729 Prevent deformitybull 10487291048729 Expect good outcome

bull Studies performed by the British Medical Research Council indicate that tuberculous spondylitis of the thoracolumbar spine should be treated with combination chemotherapy for 6-9 months According to a 1994 recommendation by the US Centers for Disease Control and Prevention this is the treatment of choice

What is Middle path regimebull Admission rest in bed bull Chemotherapy bull X-ray amp ESR once in 3 monthsbull MRI CT at 6 months interval for 2 yearsbull Craniovertebral cervicodorsal lumbosacralamp

sacroiliac jointsbull Gradual mobilizationbull 3-9 weeks- back extention exercise 5-10 min 3-4

timesbull Spinal brace--- 18 months-2 years

bull Abcesses ndash aspirate near surface bull Instille 1gm Streptomycin +- INH in solbull Sinus heals 6-12 weeksbull Neural complications if responds 3-4 weeks -

surgery unnecssarybull Excisional surgery for posterior spinal diseasebull Operative debridement for patients ndashif no arrest

after 3-6 months- spinal arthrodesis (recommended)

bull Post op--Spinal brace--- 18 months-2 years

Drugs in middle path

phase duration drug

Intensive 5-6 months

INH 300-400mg

Rifampicin ofloxacin400-600mg streptomycin

Continuation

7-8 months

-do 3-4mth Pyrazinamide 1500mg4-5mth Rifampicin

Prophylactic

4-5 months

-do Ethambutol 1200mg

Surgical indications1 No sign of Neurological recovery after trial of 3-4

weeks therapy2 Neurological complication during treatment3 Neuro deficit becoming worse4 Recurrence of neuro complication5 Prevertebral cervical abscessesneurological

signsamp difficulty in deglutitionamp respiration6 Advanced cases- Sphincter involvement

flaccid paralysisSevere flexor spasms

Other indicationsbull Recurrent paraplegiabull Painful paraplegiandash dt root compressionetcbull Posterior spinal disease--involving the post

elements of vertbbull Spinal tumor syndrome resulting in cord

compressionbull Rapid onset paraplegia due to thrombosistrauma

etcbull Severe paraplegiabull Secondary to cervical disease and bull cauda equina paralysis

1 Decompression +- fusion

Failed responseToo advanced

2 Debridement+- fusion

Failed response after 3-6 monthsDoubtful diagnosisInstability

3 Debridement +-DECOMP+- fusion

Recrudescence of disease

4 Debridement+- fusion

Prevent severe Kyphosis

5 Anterior transpostion

Severe Kyphosis +neural deficit

6 Laminectomy STSsecondary stenosis posterior disease

APPROACH1 Cervical spine ndash Anterior retropharyngeal

(smith-Robinsonrsquos) Anterior approach ndash AnteriorMedial

border of sternocleidomastoid2 Dorsal spine (D1 to L1) ndash

1 Transthoraccic transpleural 2 Anterolateral decompression(D2 ndash

L1)3 Lumbar spine ndash Anterolateral(Lumbovertebrotomy) Extraperitoneal Ant approach

Tulirsquos recommended approch

bull Cervical spine ndashT1 Anterior approchbull Dorsal spine ndashDL junction Antrolateral

approchbull Lumbar spine ampLumboscral junction

Extraperitoneal Transverse Vertebrotomy

Surgical technique

bull Costotransversectomyndash in tense paravertebral abscess

removendash transverse process rib ndash 2 inchs

Anterolateral decompressionbull Posterior part of ribbull Transverse processbull Pediclebull Part of the vertebral bodybull Griffith Seddon Roaf -- prone position

bull Tuli --- right lateral positionbull Advantage- 1 avoid venous congestion 2 avoid excessive bleeding 3 permits freer respiration 4 better look at site

Posterior Spinal Arthrodesisbull Byndash Albee amp Hibbsbull Albeendash tibial graft inserted longitudinally in to

the split spinous vertebral processbull Hibbsndash overlapping numerous small osseous flap

from contiguous laminae spinous process amp articular facets

bull Indicationsndash 1 mechanical instability 2 to stabilise craniovertebral region 3 as part of panvertebral operation

DYNAMIC CAGE GovenderampPrabhoo

SYNTHES PLATE WITHSAPCER

Yilmaz C Selek HY et al Anterior instrumentation for the Treatment of Spinal Tuberculosis J Bone and

Joint Surg 1999 81-A 1261-67

bull ldquowe feel that every attempt should be made to minimize this deformity with some form of instrumentation wherever indicated and preferably anteriorlyrsquordquo

Thank youThank you

  • Pottrsquos spine
  • Pottrsquos disease
  • Slide 3
  • Regional Distribution
  • Pathophysiology
  • Slide 6
  • Slide 7
  • Slide 8
  • Slide 9
  • Anatomically the lesion could be
  • History
  • Slide 12
  • Slide 13
  • Natural course of disease
  • Lab Studies
  • Slide 16
  • Slide 17
  • X Ray appearances
  • Slide 19
  • Slide 20
  • X-ray of the thoracolumbar spine (Lateral view) showing wedge collapse of L1 and L2 vertebral bodies
  • X-ray of the spine in a child showing complete destruction of D12 and L1 vertebral bodies leaving only the pedicles
  • Kumarrsquos clinico-radiological Classification
  • CT scanning
  • MRI
  • Slide 26
  • Myelography
  • Slide 28
  • Differentials
  • Complications of tuberculosis
  • Tb spine with PARAPLEGIA
  • Patho of Tuberculoses Paraplegia
  • Slide 33
  • Seddonrsquos Classification
  • Kumarrsquos classification of tuberculous paraplegia
  • Evolution of treatment
  • BASIC PRINCIPLES OF MANAGEMENT 10487291048729
  • Slide 38
  • What is Middle path regime
  • Slide 40
  • Drugs in middle path
  • Slide 43
  • Surgical indications
  • Other indications
  • Slide 46
  • APPROACH
  • Tulirsquos recommended approch
  • Surgical technique
  • Anterolateral decompression
  • Posterior Spinal Arthrodesis
  • DYNAMIC CAGE GovenderampPrabhoo
  • SYNTHES PLATE WITH SAPCER
  • Yilmaz C Selek HY et al Anterior instrumentation for the Treatment of Spinal Tuberculosis J Bone and Joint Surg 1999 81-A 1261-67
Page 32: Pott Disease

Evolution of treatment Pre-antitubercular erabull Artificial abscess- Pott in 1779bull Laminectomy amp laminotomy

chipault(1896 )bull Costo-transversectomy Menard in 1896bull Posterior mediastinotomybull Calves operation 1917bull Lateral rhachiotomy of carpener 1933bull Anterlateral decompression of Dottamp

Alexander1947

BASIC PRINCIPLES OFMANAGEMENT

10487291048729bull 10487291048729 Early diagnosisbull 10487291048729 Expeditious medical treatmentbull 10487291048729 Aggressive surgical approachbull 10487291048729 Prevent deformitybull 10487291048729 Expect good outcome

bull Studies performed by the British Medical Research Council indicate that tuberculous spondylitis of the thoracolumbar spine should be treated with combination chemotherapy for 6-9 months According to a 1994 recommendation by the US Centers for Disease Control and Prevention this is the treatment of choice

What is Middle path regimebull Admission rest in bed bull Chemotherapy bull X-ray amp ESR once in 3 monthsbull MRI CT at 6 months interval for 2 yearsbull Craniovertebral cervicodorsal lumbosacralamp

sacroiliac jointsbull Gradual mobilizationbull 3-9 weeks- back extention exercise 5-10 min 3-4

timesbull Spinal brace--- 18 months-2 years

bull Abcesses ndash aspirate near surface bull Instille 1gm Streptomycin +- INH in solbull Sinus heals 6-12 weeksbull Neural complications if responds 3-4 weeks -

surgery unnecssarybull Excisional surgery for posterior spinal diseasebull Operative debridement for patients ndashif no arrest

after 3-6 months- spinal arthrodesis (recommended)

bull Post op--Spinal brace--- 18 months-2 years

Drugs in middle path

phase duration drug

Intensive 5-6 months

INH 300-400mg

Rifampicin ofloxacin400-600mg streptomycin

Continuation

7-8 months

-do 3-4mth Pyrazinamide 1500mg4-5mth Rifampicin

Prophylactic

4-5 months

-do Ethambutol 1200mg

Surgical indications1 No sign of Neurological recovery after trial of 3-4

weeks therapy2 Neurological complication during treatment3 Neuro deficit becoming worse4 Recurrence of neuro complication5 Prevertebral cervical abscessesneurological

signsamp difficulty in deglutitionamp respiration6 Advanced cases- Sphincter involvement

flaccid paralysisSevere flexor spasms

Other indicationsbull Recurrent paraplegiabull Painful paraplegiandash dt root compressionetcbull Posterior spinal disease--involving the post

elements of vertbbull Spinal tumor syndrome resulting in cord

compressionbull Rapid onset paraplegia due to thrombosistrauma

etcbull Severe paraplegiabull Secondary to cervical disease and bull cauda equina paralysis

1 Decompression +- fusion

Failed responseToo advanced

2 Debridement+- fusion

Failed response after 3-6 monthsDoubtful diagnosisInstability

3 Debridement +-DECOMP+- fusion

Recrudescence of disease

4 Debridement+- fusion

Prevent severe Kyphosis

5 Anterior transpostion

Severe Kyphosis +neural deficit

6 Laminectomy STSsecondary stenosis posterior disease

APPROACH1 Cervical spine ndash Anterior retropharyngeal

(smith-Robinsonrsquos) Anterior approach ndash AnteriorMedial

border of sternocleidomastoid2 Dorsal spine (D1 to L1) ndash

1 Transthoraccic transpleural 2 Anterolateral decompression(D2 ndash

L1)3 Lumbar spine ndash Anterolateral(Lumbovertebrotomy) Extraperitoneal Ant approach

Tulirsquos recommended approch

bull Cervical spine ndashT1 Anterior approchbull Dorsal spine ndashDL junction Antrolateral

approchbull Lumbar spine ampLumboscral junction

Extraperitoneal Transverse Vertebrotomy

Surgical technique

bull Costotransversectomyndash in tense paravertebral abscess

removendash transverse process rib ndash 2 inchs

Anterolateral decompressionbull Posterior part of ribbull Transverse processbull Pediclebull Part of the vertebral bodybull Griffith Seddon Roaf -- prone position

bull Tuli --- right lateral positionbull Advantage- 1 avoid venous congestion 2 avoid excessive bleeding 3 permits freer respiration 4 better look at site

Posterior Spinal Arthrodesisbull Byndash Albee amp Hibbsbull Albeendash tibial graft inserted longitudinally in to

the split spinous vertebral processbull Hibbsndash overlapping numerous small osseous flap

from contiguous laminae spinous process amp articular facets

bull Indicationsndash 1 mechanical instability 2 to stabilise craniovertebral region 3 as part of panvertebral operation

DYNAMIC CAGE GovenderampPrabhoo

SYNTHES PLATE WITHSAPCER

Yilmaz C Selek HY et al Anterior instrumentation for the Treatment of Spinal Tuberculosis J Bone and

Joint Surg 1999 81-A 1261-67

bull ldquowe feel that every attempt should be made to minimize this deformity with some form of instrumentation wherever indicated and preferably anteriorlyrsquordquo

Thank youThank you

  • Pottrsquos spine
  • Pottrsquos disease
  • Slide 3
  • Regional Distribution
  • Pathophysiology
  • Slide 6
  • Slide 7
  • Slide 8
  • Slide 9
  • Anatomically the lesion could be
  • History
  • Slide 12
  • Slide 13
  • Natural course of disease
  • Lab Studies
  • Slide 16
  • Slide 17
  • X Ray appearances
  • Slide 19
  • Slide 20
  • X-ray of the thoracolumbar spine (Lateral view) showing wedge collapse of L1 and L2 vertebral bodies
  • X-ray of the spine in a child showing complete destruction of D12 and L1 vertebral bodies leaving only the pedicles
  • Kumarrsquos clinico-radiological Classification
  • CT scanning
  • MRI
  • Slide 26
  • Myelography
  • Slide 28
  • Differentials
  • Complications of tuberculosis
  • Tb spine with PARAPLEGIA
  • Patho of Tuberculoses Paraplegia
  • Slide 33
  • Seddonrsquos Classification
  • Kumarrsquos classification of tuberculous paraplegia
  • Evolution of treatment
  • BASIC PRINCIPLES OF MANAGEMENT 10487291048729
  • Slide 38
  • What is Middle path regime
  • Slide 40
  • Drugs in middle path
  • Slide 43
  • Surgical indications
  • Other indications
  • Slide 46
  • APPROACH
  • Tulirsquos recommended approch
  • Surgical technique
  • Anterolateral decompression
  • Posterior Spinal Arthrodesis
  • DYNAMIC CAGE GovenderampPrabhoo
  • SYNTHES PLATE WITH SAPCER
  • Yilmaz C Selek HY et al Anterior instrumentation for the Treatment of Spinal Tuberculosis J Bone and Joint Surg 1999 81-A 1261-67
Page 33: Pott Disease

BASIC PRINCIPLES OFMANAGEMENT

10487291048729bull 10487291048729 Early diagnosisbull 10487291048729 Expeditious medical treatmentbull 10487291048729 Aggressive surgical approachbull 10487291048729 Prevent deformitybull 10487291048729 Expect good outcome

bull Studies performed by the British Medical Research Council indicate that tuberculous spondylitis of the thoracolumbar spine should be treated with combination chemotherapy for 6-9 months According to a 1994 recommendation by the US Centers for Disease Control and Prevention this is the treatment of choice

What is Middle path regimebull Admission rest in bed bull Chemotherapy bull X-ray amp ESR once in 3 monthsbull MRI CT at 6 months interval for 2 yearsbull Craniovertebral cervicodorsal lumbosacralamp

sacroiliac jointsbull Gradual mobilizationbull 3-9 weeks- back extention exercise 5-10 min 3-4

timesbull Spinal brace--- 18 months-2 years

bull Abcesses ndash aspirate near surface bull Instille 1gm Streptomycin +- INH in solbull Sinus heals 6-12 weeksbull Neural complications if responds 3-4 weeks -

surgery unnecssarybull Excisional surgery for posterior spinal diseasebull Operative debridement for patients ndashif no arrest

after 3-6 months- spinal arthrodesis (recommended)

bull Post op--Spinal brace--- 18 months-2 years

Drugs in middle path

phase duration drug

Intensive 5-6 months

INH 300-400mg

Rifampicin ofloxacin400-600mg streptomycin

Continuation

7-8 months

-do 3-4mth Pyrazinamide 1500mg4-5mth Rifampicin

Prophylactic

4-5 months

-do Ethambutol 1200mg

Surgical indications1 No sign of Neurological recovery after trial of 3-4

weeks therapy2 Neurological complication during treatment3 Neuro deficit becoming worse4 Recurrence of neuro complication5 Prevertebral cervical abscessesneurological

signsamp difficulty in deglutitionamp respiration6 Advanced cases- Sphincter involvement

flaccid paralysisSevere flexor spasms

Other indicationsbull Recurrent paraplegiabull Painful paraplegiandash dt root compressionetcbull Posterior spinal disease--involving the post

elements of vertbbull Spinal tumor syndrome resulting in cord

compressionbull Rapid onset paraplegia due to thrombosistrauma

etcbull Severe paraplegiabull Secondary to cervical disease and bull cauda equina paralysis

1 Decompression +- fusion

Failed responseToo advanced

2 Debridement+- fusion

Failed response after 3-6 monthsDoubtful diagnosisInstability

3 Debridement +-DECOMP+- fusion

Recrudescence of disease

4 Debridement+- fusion

Prevent severe Kyphosis

5 Anterior transpostion

Severe Kyphosis +neural deficit

6 Laminectomy STSsecondary stenosis posterior disease

APPROACH1 Cervical spine ndash Anterior retropharyngeal

(smith-Robinsonrsquos) Anterior approach ndash AnteriorMedial

border of sternocleidomastoid2 Dorsal spine (D1 to L1) ndash

1 Transthoraccic transpleural 2 Anterolateral decompression(D2 ndash

L1)3 Lumbar spine ndash Anterolateral(Lumbovertebrotomy) Extraperitoneal Ant approach

Tulirsquos recommended approch

bull Cervical spine ndashT1 Anterior approchbull Dorsal spine ndashDL junction Antrolateral

approchbull Lumbar spine ampLumboscral junction

Extraperitoneal Transverse Vertebrotomy

Surgical technique

bull Costotransversectomyndash in tense paravertebral abscess

removendash transverse process rib ndash 2 inchs

Anterolateral decompressionbull Posterior part of ribbull Transverse processbull Pediclebull Part of the vertebral bodybull Griffith Seddon Roaf -- prone position

bull Tuli --- right lateral positionbull Advantage- 1 avoid venous congestion 2 avoid excessive bleeding 3 permits freer respiration 4 better look at site

Posterior Spinal Arthrodesisbull Byndash Albee amp Hibbsbull Albeendash tibial graft inserted longitudinally in to

the split spinous vertebral processbull Hibbsndash overlapping numerous small osseous flap

from contiguous laminae spinous process amp articular facets

bull Indicationsndash 1 mechanical instability 2 to stabilise craniovertebral region 3 as part of panvertebral operation

DYNAMIC CAGE GovenderampPrabhoo

SYNTHES PLATE WITHSAPCER

Yilmaz C Selek HY et al Anterior instrumentation for the Treatment of Spinal Tuberculosis J Bone and

Joint Surg 1999 81-A 1261-67

bull ldquowe feel that every attempt should be made to minimize this deformity with some form of instrumentation wherever indicated and preferably anteriorlyrsquordquo

Thank youThank you

  • Pottrsquos spine
  • Pottrsquos disease
  • Slide 3
  • Regional Distribution
  • Pathophysiology
  • Slide 6
  • Slide 7
  • Slide 8
  • Slide 9
  • Anatomically the lesion could be
  • History
  • Slide 12
  • Slide 13
  • Natural course of disease
  • Lab Studies
  • Slide 16
  • Slide 17
  • X Ray appearances
  • Slide 19
  • Slide 20
  • X-ray of the thoracolumbar spine (Lateral view) showing wedge collapse of L1 and L2 vertebral bodies
  • X-ray of the spine in a child showing complete destruction of D12 and L1 vertebral bodies leaving only the pedicles
  • Kumarrsquos clinico-radiological Classification
  • CT scanning
  • MRI
  • Slide 26
  • Myelography
  • Slide 28
  • Differentials
  • Complications of tuberculosis
  • Tb spine with PARAPLEGIA
  • Patho of Tuberculoses Paraplegia
  • Slide 33
  • Seddonrsquos Classification
  • Kumarrsquos classification of tuberculous paraplegia
  • Evolution of treatment
  • BASIC PRINCIPLES OF MANAGEMENT 10487291048729
  • Slide 38
  • What is Middle path regime
  • Slide 40
  • Drugs in middle path
  • Slide 43
  • Surgical indications
  • Other indications
  • Slide 46
  • APPROACH
  • Tulirsquos recommended approch
  • Surgical technique
  • Anterolateral decompression
  • Posterior Spinal Arthrodesis
  • DYNAMIC CAGE GovenderampPrabhoo
  • SYNTHES PLATE WITH SAPCER
  • Yilmaz C Selek HY et al Anterior instrumentation for the Treatment of Spinal Tuberculosis J Bone and Joint Surg 1999 81-A 1261-67
Page 34: Pott Disease

bull Studies performed by the British Medical Research Council indicate that tuberculous spondylitis of the thoracolumbar spine should be treated with combination chemotherapy for 6-9 months According to a 1994 recommendation by the US Centers for Disease Control and Prevention this is the treatment of choice

What is Middle path regimebull Admission rest in bed bull Chemotherapy bull X-ray amp ESR once in 3 monthsbull MRI CT at 6 months interval for 2 yearsbull Craniovertebral cervicodorsal lumbosacralamp

sacroiliac jointsbull Gradual mobilizationbull 3-9 weeks- back extention exercise 5-10 min 3-4

timesbull Spinal brace--- 18 months-2 years

bull Abcesses ndash aspirate near surface bull Instille 1gm Streptomycin +- INH in solbull Sinus heals 6-12 weeksbull Neural complications if responds 3-4 weeks -

surgery unnecssarybull Excisional surgery for posterior spinal diseasebull Operative debridement for patients ndashif no arrest

after 3-6 months- spinal arthrodesis (recommended)

bull Post op--Spinal brace--- 18 months-2 years

Drugs in middle path

phase duration drug

Intensive 5-6 months

INH 300-400mg

Rifampicin ofloxacin400-600mg streptomycin

Continuation

7-8 months

-do 3-4mth Pyrazinamide 1500mg4-5mth Rifampicin

Prophylactic

4-5 months

-do Ethambutol 1200mg

Surgical indications1 No sign of Neurological recovery after trial of 3-4

weeks therapy2 Neurological complication during treatment3 Neuro deficit becoming worse4 Recurrence of neuro complication5 Prevertebral cervical abscessesneurological

signsamp difficulty in deglutitionamp respiration6 Advanced cases- Sphincter involvement

flaccid paralysisSevere flexor spasms

Other indicationsbull Recurrent paraplegiabull Painful paraplegiandash dt root compressionetcbull Posterior spinal disease--involving the post

elements of vertbbull Spinal tumor syndrome resulting in cord

compressionbull Rapid onset paraplegia due to thrombosistrauma

etcbull Severe paraplegiabull Secondary to cervical disease and bull cauda equina paralysis

1 Decompression +- fusion

Failed responseToo advanced

2 Debridement+- fusion

Failed response after 3-6 monthsDoubtful diagnosisInstability

3 Debridement +-DECOMP+- fusion

Recrudescence of disease

4 Debridement+- fusion

Prevent severe Kyphosis

5 Anterior transpostion

Severe Kyphosis +neural deficit

6 Laminectomy STSsecondary stenosis posterior disease

APPROACH1 Cervical spine ndash Anterior retropharyngeal

(smith-Robinsonrsquos) Anterior approach ndash AnteriorMedial

border of sternocleidomastoid2 Dorsal spine (D1 to L1) ndash

1 Transthoraccic transpleural 2 Anterolateral decompression(D2 ndash

L1)3 Lumbar spine ndash Anterolateral(Lumbovertebrotomy) Extraperitoneal Ant approach

Tulirsquos recommended approch

bull Cervical spine ndashT1 Anterior approchbull Dorsal spine ndashDL junction Antrolateral

approchbull Lumbar spine ampLumboscral junction

Extraperitoneal Transverse Vertebrotomy

Surgical technique

bull Costotransversectomyndash in tense paravertebral abscess

removendash transverse process rib ndash 2 inchs

Anterolateral decompressionbull Posterior part of ribbull Transverse processbull Pediclebull Part of the vertebral bodybull Griffith Seddon Roaf -- prone position

bull Tuli --- right lateral positionbull Advantage- 1 avoid venous congestion 2 avoid excessive bleeding 3 permits freer respiration 4 better look at site

Posterior Spinal Arthrodesisbull Byndash Albee amp Hibbsbull Albeendash tibial graft inserted longitudinally in to

the split spinous vertebral processbull Hibbsndash overlapping numerous small osseous flap

from contiguous laminae spinous process amp articular facets

bull Indicationsndash 1 mechanical instability 2 to stabilise craniovertebral region 3 as part of panvertebral operation

DYNAMIC CAGE GovenderampPrabhoo

SYNTHES PLATE WITHSAPCER

Yilmaz C Selek HY et al Anterior instrumentation for the Treatment of Spinal Tuberculosis J Bone and

Joint Surg 1999 81-A 1261-67

bull ldquowe feel that every attempt should be made to minimize this deformity with some form of instrumentation wherever indicated and preferably anteriorlyrsquordquo

Thank youThank you

  • Pottrsquos spine
  • Pottrsquos disease
  • Slide 3
  • Regional Distribution
  • Pathophysiology
  • Slide 6
  • Slide 7
  • Slide 8
  • Slide 9
  • Anatomically the lesion could be
  • History
  • Slide 12
  • Slide 13
  • Natural course of disease
  • Lab Studies
  • Slide 16
  • Slide 17
  • X Ray appearances
  • Slide 19
  • Slide 20
  • X-ray of the thoracolumbar spine (Lateral view) showing wedge collapse of L1 and L2 vertebral bodies
  • X-ray of the spine in a child showing complete destruction of D12 and L1 vertebral bodies leaving only the pedicles
  • Kumarrsquos clinico-radiological Classification
  • CT scanning
  • MRI
  • Slide 26
  • Myelography
  • Slide 28
  • Differentials
  • Complications of tuberculosis
  • Tb spine with PARAPLEGIA
  • Patho of Tuberculoses Paraplegia
  • Slide 33
  • Seddonrsquos Classification
  • Kumarrsquos classification of tuberculous paraplegia
  • Evolution of treatment
  • BASIC PRINCIPLES OF MANAGEMENT 10487291048729
  • Slide 38
  • What is Middle path regime
  • Slide 40
  • Drugs in middle path
  • Slide 43
  • Surgical indications
  • Other indications
  • Slide 46
  • APPROACH
  • Tulirsquos recommended approch
  • Surgical technique
  • Anterolateral decompression
  • Posterior Spinal Arthrodesis
  • DYNAMIC CAGE GovenderampPrabhoo
  • SYNTHES PLATE WITH SAPCER
  • Yilmaz C Selek HY et al Anterior instrumentation for the Treatment of Spinal Tuberculosis J Bone and Joint Surg 1999 81-A 1261-67
Page 35: Pott Disease

What is Middle path regimebull Admission rest in bed bull Chemotherapy bull X-ray amp ESR once in 3 monthsbull MRI CT at 6 months interval for 2 yearsbull Craniovertebral cervicodorsal lumbosacralamp

sacroiliac jointsbull Gradual mobilizationbull 3-9 weeks- back extention exercise 5-10 min 3-4

timesbull Spinal brace--- 18 months-2 years

bull Abcesses ndash aspirate near surface bull Instille 1gm Streptomycin +- INH in solbull Sinus heals 6-12 weeksbull Neural complications if responds 3-4 weeks -

surgery unnecssarybull Excisional surgery for posterior spinal diseasebull Operative debridement for patients ndashif no arrest

after 3-6 months- spinal arthrodesis (recommended)

bull Post op--Spinal brace--- 18 months-2 years

Drugs in middle path

phase duration drug

Intensive 5-6 months

INH 300-400mg

Rifampicin ofloxacin400-600mg streptomycin

Continuation

7-8 months

-do 3-4mth Pyrazinamide 1500mg4-5mth Rifampicin

Prophylactic

4-5 months

-do Ethambutol 1200mg

Surgical indications1 No sign of Neurological recovery after trial of 3-4

weeks therapy2 Neurological complication during treatment3 Neuro deficit becoming worse4 Recurrence of neuro complication5 Prevertebral cervical abscessesneurological

signsamp difficulty in deglutitionamp respiration6 Advanced cases- Sphincter involvement

flaccid paralysisSevere flexor spasms

Other indicationsbull Recurrent paraplegiabull Painful paraplegiandash dt root compressionetcbull Posterior spinal disease--involving the post

elements of vertbbull Spinal tumor syndrome resulting in cord

compressionbull Rapid onset paraplegia due to thrombosistrauma

etcbull Severe paraplegiabull Secondary to cervical disease and bull cauda equina paralysis

1 Decompression +- fusion

Failed responseToo advanced

2 Debridement+- fusion

Failed response after 3-6 monthsDoubtful diagnosisInstability

3 Debridement +-DECOMP+- fusion

Recrudescence of disease

4 Debridement+- fusion

Prevent severe Kyphosis

5 Anterior transpostion

Severe Kyphosis +neural deficit

6 Laminectomy STSsecondary stenosis posterior disease

APPROACH1 Cervical spine ndash Anterior retropharyngeal

(smith-Robinsonrsquos) Anterior approach ndash AnteriorMedial

border of sternocleidomastoid2 Dorsal spine (D1 to L1) ndash

1 Transthoraccic transpleural 2 Anterolateral decompression(D2 ndash

L1)3 Lumbar spine ndash Anterolateral(Lumbovertebrotomy) Extraperitoneal Ant approach

Tulirsquos recommended approch

bull Cervical spine ndashT1 Anterior approchbull Dorsal spine ndashDL junction Antrolateral

approchbull Lumbar spine ampLumboscral junction

Extraperitoneal Transverse Vertebrotomy

Surgical technique

bull Costotransversectomyndash in tense paravertebral abscess

removendash transverse process rib ndash 2 inchs

Anterolateral decompressionbull Posterior part of ribbull Transverse processbull Pediclebull Part of the vertebral bodybull Griffith Seddon Roaf -- prone position

bull Tuli --- right lateral positionbull Advantage- 1 avoid venous congestion 2 avoid excessive bleeding 3 permits freer respiration 4 better look at site

Posterior Spinal Arthrodesisbull Byndash Albee amp Hibbsbull Albeendash tibial graft inserted longitudinally in to

the split spinous vertebral processbull Hibbsndash overlapping numerous small osseous flap

from contiguous laminae spinous process amp articular facets

bull Indicationsndash 1 mechanical instability 2 to stabilise craniovertebral region 3 as part of panvertebral operation

DYNAMIC CAGE GovenderampPrabhoo

SYNTHES PLATE WITHSAPCER

Yilmaz C Selek HY et al Anterior instrumentation for the Treatment of Spinal Tuberculosis J Bone and

Joint Surg 1999 81-A 1261-67

bull ldquowe feel that every attempt should be made to minimize this deformity with some form of instrumentation wherever indicated and preferably anteriorlyrsquordquo

Thank youThank you

  • Pottrsquos spine
  • Pottrsquos disease
  • Slide 3
  • Regional Distribution
  • Pathophysiology
  • Slide 6
  • Slide 7
  • Slide 8
  • Slide 9
  • Anatomically the lesion could be
  • History
  • Slide 12
  • Slide 13
  • Natural course of disease
  • Lab Studies
  • Slide 16
  • Slide 17
  • X Ray appearances
  • Slide 19
  • Slide 20
  • X-ray of the thoracolumbar spine (Lateral view) showing wedge collapse of L1 and L2 vertebral bodies
  • X-ray of the spine in a child showing complete destruction of D12 and L1 vertebral bodies leaving only the pedicles
  • Kumarrsquos clinico-radiological Classification
  • CT scanning
  • MRI
  • Slide 26
  • Myelography
  • Slide 28
  • Differentials
  • Complications of tuberculosis
  • Tb spine with PARAPLEGIA
  • Patho of Tuberculoses Paraplegia
  • Slide 33
  • Seddonrsquos Classification
  • Kumarrsquos classification of tuberculous paraplegia
  • Evolution of treatment
  • BASIC PRINCIPLES OF MANAGEMENT 10487291048729
  • Slide 38
  • What is Middle path regime
  • Slide 40
  • Drugs in middle path
  • Slide 43
  • Surgical indications
  • Other indications
  • Slide 46
  • APPROACH
  • Tulirsquos recommended approch
  • Surgical technique
  • Anterolateral decompression
  • Posterior Spinal Arthrodesis
  • DYNAMIC CAGE GovenderampPrabhoo
  • SYNTHES PLATE WITH SAPCER
  • Yilmaz C Selek HY et al Anterior instrumentation for the Treatment of Spinal Tuberculosis J Bone and Joint Surg 1999 81-A 1261-67
Page 36: Pott Disease

bull Abcesses ndash aspirate near surface bull Instille 1gm Streptomycin +- INH in solbull Sinus heals 6-12 weeksbull Neural complications if responds 3-4 weeks -

surgery unnecssarybull Excisional surgery for posterior spinal diseasebull Operative debridement for patients ndashif no arrest

after 3-6 months- spinal arthrodesis (recommended)

bull Post op--Spinal brace--- 18 months-2 years

Drugs in middle path

phase duration drug

Intensive 5-6 months

INH 300-400mg

Rifampicin ofloxacin400-600mg streptomycin

Continuation

7-8 months

-do 3-4mth Pyrazinamide 1500mg4-5mth Rifampicin

Prophylactic

4-5 months

-do Ethambutol 1200mg

Surgical indications1 No sign of Neurological recovery after trial of 3-4

weeks therapy2 Neurological complication during treatment3 Neuro deficit becoming worse4 Recurrence of neuro complication5 Prevertebral cervical abscessesneurological

signsamp difficulty in deglutitionamp respiration6 Advanced cases- Sphincter involvement

flaccid paralysisSevere flexor spasms

Other indicationsbull Recurrent paraplegiabull Painful paraplegiandash dt root compressionetcbull Posterior spinal disease--involving the post

elements of vertbbull Spinal tumor syndrome resulting in cord

compressionbull Rapid onset paraplegia due to thrombosistrauma

etcbull Severe paraplegiabull Secondary to cervical disease and bull cauda equina paralysis

1 Decompression +- fusion

Failed responseToo advanced

2 Debridement+- fusion

Failed response after 3-6 monthsDoubtful diagnosisInstability

3 Debridement +-DECOMP+- fusion

Recrudescence of disease

4 Debridement+- fusion

Prevent severe Kyphosis

5 Anterior transpostion

Severe Kyphosis +neural deficit

6 Laminectomy STSsecondary stenosis posterior disease

APPROACH1 Cervical spine ndash Anterior retropharyngeal

(smith-Robinsonrsquos) Anterior approach ndash AnteriorMedial

border of sternocleidomastoid2 Dorsal spine (D1 to L1) ndash

1 Transthoraccic transpleural 2 Anterolateral decompression(D2 ndash

L1)3 Lumbar spine ndash Anterolateral(Lumbovertebrotomy) Extraperitoneal Ant approach

Tulirsquos recommended approch

bull Cervical spine ndashT1 Anterior approchbull Dorsal spine ndashDL junction Antrolateral

approchbull Lumbar spine ampLumboscral junction

Extraperitoneal Transverse Vertebrotomy

Surgical technique

bull Costotransversectomyndash in tense paravertebral abscess

removendash transverse process rib ndash 2 inchs

Anterolateral decompressionbull Posterior part of ribbull Transverse processbull Pediclebull Part of the vertebral bodybull Griffith Seddon Roaf -- prone position

bull Tuli --- right lateral positionbull Advantage- 1 avoid venous congestion 2 avoid excessive bleeding 3 permits freer respiration 4 better look at site

Posterior Spinal Arthrodesisbull Byndash Albee amp Hibbsbull Albeendash tibial graft inserted longitudinally in to

the split spinous vertebral processbull Hibbsndash overlapping numerous small osseous flap

from contiguous laminae spinous process amp articular facets

bull Indicationsndash 1 mechanical instability 2 to stabilise craniovertebral region 3 as part of panvertebral operation

DYNAMIC CAGE GovenderampPrabhoo

SYNTHES PLATE WITHSAPCER

Yilmaz C Selek HY et al Anterior instrumentation for the Treatment of Spinal Tuberculosis J Bone and

Joint Surg 1999 81-A 1261-67

bull ldquowe feel that every attempt should be made to minimize this deformity with some form of instrumentation wherever indicated and preferably anteriorlyrsquordquo

Thank youThank you

  • Pottrsquos spine
  • Pottrsquos disease
  • Slide 3
  • Regional Distribution
  • Pathophysiology
  • Slide 6
  • Slide 7
  • Slide 8
  • Slide 9
  • Anatomically the lesion could be
  • History
  • Slide 12
  • Slide 13
  • Natural course of disease
  • Lab Studies
  • Slide 16
  • Slide 17
  • X Ray appearances
  • Slide 19
  • Slide 20
  • X-ray of the thoracolumbar spine (Lateral view) showing wedge collapse of L1 and L2 vertebral bodies
  • X-ray of the spine in a child showing complete destruction of D12 and L1 vertebral bodies leaving only the pedicles
  • Kumarrsquos clinico-radiological Classification
  • CT scanning
  • MRI
  • Slide 26
  • Myelography
  • Slide 28
  • Differentials
  • Complications of tuberculosis
  • Tb spine with PARAPLEGIA
  • Patho of Tuberculoses Paraplegia
  • Slide 33
  • Seddonrsquos Classification
  • Kumarrsquos classification of tuberculous paraplegia
  • Evolution of treatment
  • BASIC PRINCIPLES OF MANAGEMENT 10487291048729
  • Slide 38
  • What is Middle path regime
  • Slide 40
  • Drugs in middle path
  • Slide 43
  • Surgical indications
  • Other indications
  • Slide 46
  • APPROACH
  • Tulirsquos recommended approch
  • Surgical technique
  • Anterolateral decompression
  • Posterior Spinal Arthrodesis
  • DYNAMIC CAGE GovenderampPrabhoo
  • SYNTHES PLATE WITH SAPCER
  • Yilmaz C Selek HY et al Anterior instrumentation for the Treatment of Spinal Tuberculosis J Bone and Joint Surg 1999 81-A 1261-67
Page 37: Pott Disease

Drugs in middle path

phase duration drug

Intensive 5-6 months

INH 300-400mg

Rifampicin ofloxacin400-600mg streptomycin

Continuation

7-8 months

-do 3-4mth Pyrazinamide 1500mg4-5mth Rifampicin

Prophylactic

4-5 months

-do Ethambutol 1200mg

Surgical indications1 No sign of Neurological recovery after trial of 3-4

weeks therapy2 Neurological complication during treatment3 Neuro deficit becoming worse4 Recurrence of neuro complication5 Prevertebral cervical abscessesneurological

signsamp difficulty in deglutitionamp respiration6 Advanced cases- Sphincter involvement

flaccid paralysisSevere flexor spasms

Other indicationsbull Recurrent paraplegiabull Painful paraplegiandash dt root compressionetcbull Posterior spinal disease--involving the post

elements of vertbbull Spinal tumor syndrome resulting in cord

compressionbull Rapid onset paraplegia due to thrombosistrauma

etcbull Severe paraplegiabull Secondary to cervical disease and bull cauda equina paralysis

1 Decompression +- fusion

Failed responseToo advanced

2 Debridement+- fusion

Failed response after 3-6 monthsDoubtful diagnosisInstability

3 Debridement +-DECOMP+- fusion

Recrudescence of disease

4 Debridement+- fusion

Prevent severe Kyphosis

5 Anterior transpostion

Severe Kyphosis +neural deficit

6 Laminectomy STSsecondary stenosis posterior disease

APPROACH1 Cervical spine ndash Anterior retropharyngeal

(smith-Robinsonrsquos) Anterior approach ndash AnteriorMedial

border of sternocleidomastoid2 Dorsal spine (D1 to L1) ndash

1 Transthoraccic transpleural 2 Anterolateral decompression(D2 ndash

L1)3 Lumbar spine ndash Anterolateral(Lumbovertebrotomy) Extraperitoneal Ant approach

Tulirsquos recommended approch

bull Cervical spine ndashT1 Anterior approchbull Dorsal spine ndashDL junction Antrolateral

approchbull Lumbar spine ampLumboscral junction

Extraperitoneal Transverse Vertebrotomy

Surgical technique

bull Costotransversectomyndash in tense paravertebral abscess

removendash transverse process rib ndash 2 inchs

Anterolateral decompressionbull Posterior part of ribbull Transverse processbull Pediclebull Part of the vertebral bodybull Griffith Seddon Roaf -- prone position

bull Tuli --- right lateral positionbull Advantage- 1 avoid venous congestion 2 avoid excessive bleeding 3 permits freer respiration 4 better look at site

Posterior Spinal Arthrodesisbull Byndash Albee amp Hibbsbull Albeendash tibial graft inserted longitudinally in to

the split spinous vertebral processbull Hibbsndash overlapping numerous small osseous flap

from contiguous laminae spinous process amp articular facets

bull Indicationsndash 1 mechanical instability 2 to stabilise craniovertebral region 3 as part of panvertebral operation

DYNAMIC CAGE GovenderampPrabhoo

SYNTHES PLATE WITHSAPCER

Yilmaz C Selek HY et al Anterior instrumentation for the Treatment of Spinal Tuberculosis J Bone and

Joint Surg 1999 81-A 1261-67

bull ldquowe feel that every attempt should be made to minimize this deformity with some form of instrumentation wherever indicated and preferably anteriorlyrsquordquo

Thank youThank you

  • Pottrsquos spine
  • Pottrsquos disease
  • Slide 3
  • Regional Distribution
  • Pathophysiology
  • Slide 6
  • Slide 7
  • Slide 8
  • Slide 9
  • Anatomically the lesion could be
  • History
  • Slide 12
  • Slide 13
  • Natural course of disease
  • Lab Studies
  • Slide 16
  • Slide 17
  • X Ray appearances
  • Slide 19
  • Slide 20
  • X-ray of the thoracolumbar spine (Lateral view) showing wedge collapse of L1 and L2 vertebral bodies
  • X-ray of the spine in a child showing complete destruction of D12 and L1 vertebral bodies leaving only the pedicles
  • Kumarrsquos clinico-radiological Classification
  • CT scanning
  • MRI
  • Slide 26
  • Myelography
  • Slide 28
  • Differentials
  • Complications of tuberculosis
  • Tb spine with PARAPLEGIA
  • Patho of Tuberculoses Paraplegia
  • Slide 33
  • Seddonrsquos Classification
  • Kumarrsquos classification of tuberculous paraplegia
  • Evolution of treatment
  • BASIC PRINCIPLES OF MANAGEMENT 10487291048729
  • Slide 38
  • What is Middle path regime
  • Slide 40
  • Drugs in middle path
  • Slide 43
  • Surgical indications
  • Other indications
  • Slide 46
  • APPROACH
  • Tulirsquos recommended approch
  • Surgical technique
  • Anterolateral decompression
  • Posterior Spinal Arthrodesis
  • DYNAMIC CAGE GovenderampPrabhoo
  • SYNTHES PLATE WITH SAPCER
  • Yilmaz C Selek HY et al Anterior instrumentation for the Treatment of Spinal Tuberculosis J Bone and Joint Surg 1999 81-A 1261-67
Page 38: Pott Disease

Surgical indications1 No sign of Neurological recovery after trial of 3-4

weeks therapy2 Neurological complication during treatment3 Neuro deficit becoming worse4 Recurrence of neuro complication5 Prevertebral cervical abscessesneurological

signsamp difficulty in deglutitionamp respiration6 Advanced cases- Sphincter involvement

flaccid paralysisSevere flexor spasms

Other indicationsbull Recurrent paraplegiabull Painful paraplegiandash dt root compressionetcbull Posterior spinal disease--involving the post

elements of vertbbull Spinal tumor syndrome resulting in cord

compressionbull Rapid onset paraplegia due to thrombosistrauma

etcbull Severe paraplegiabull Secondary to cervical disease and bull cauda equina paralysis

1 Decompression +- fusion

Failed responseToo advanced

2 Debridement+- fusion

Failed response after 3-6 monthsDoubtful diagnosisInstability

3 Debridement +-DECOMP+- fusion

Recrudescence of disease

4 Debridement+- fusion

Prevent severe Kyphosis

5 Anterior transpostion

Severe Kyphosis +neural deficit

6 Laminectomy STSsecondary stenosis posterior disease

APPROACH1 Cervical spine ndash Anterior retropharyngeal

(smith-Robinsonrsquos) Anterior approach ndash AnteriorMedial

border of sternocleidomastoid2 Dorsal spine (D1 to L1) ndash

1 Transthoraccic transpleural 2 Anterolateral decompression(D2 ndash

L1)3 Lumbar spine ndash Anterolateral(Lumbovertebrotomy) Extraperitoneal Ant approach

Tulirsquos recommended approch

bull Cervical spine ndashT1 Anterior approchbull Dorsal spine ndashDL junction Antrolateral

approchbull Lumbar spine ampLumboscral junction

Extraperitoneal Transverse Vertebrotomy

Surgical technique

bull Costotransversectomyndash in tense paravertebral abscess

removendash transverse process rib ndash 2 inchs

Anterolateral decompressionbull Posterior part of ribbull Transverse processbull Pediclebull Part of the vertebral bodybull Griffith Seddon Roaf -- prone position

bull Tuli --- right lateral positionbull Advantage- 1 avoid venous congestion 2 avoid excessive bleeding 3 permits freer respiration 4 better look at site

Posterior Spinal Arthrodesisbull Byndash Albee amp Hibbsbull Albeendash tibial graft inserted longitudinally in to

the split spinous vertebral processbull Hibbsndash overlapping numerous small osseous flap

from contiguous laminae spinous process amp articular facets

bull Indicationsndash 1 mechanical instability 2 to stabilise craniovertebral region 3 as part of panvertebral operation

DYNAMIC CAGE GovenderampPrabhoo

SYNTHES PLATE WITHSAPCER

Yilmaz C Selek HY et al Anterior instrumentation for the Treatment of Spinal Tuberculosis J Bone and

Joint Surg 1999 81-A 1261-67

bull ldquowe feel that every attempt should be made to minimize this deformity with some form of instrumentation wherever indicated and preferably anteriorlyrsquordquo

Thank youThank you

  • Pottrsquos spine
  • Pottrsquos disease
  • Slide 3
  • Regional Distribution
  • Pathophysiology
  • Slide 6
  • Slide 7
  • Slide 8
  • Slide 9
  • Anatomically the lesion could be
  • History
  • Slide 12
  • Slide 13
  • Natural course of disease
  • Lab Studies
  • Slide 16
  • Slide 17
  • X Ray appearances
  • Slide 19
  • Slide 20
  • X-ray of the thoracolumbar spine (Lateral view) showing wedge collapse of L1 and L2 vertebral bodies
  • X-ray of the spine in a child showing complete destruction of D12 and L1 vertebral bodies leaving only the pedicles
  • Kumarrsquos clinico-radiological Classification
  • CT scanning
  • MRI
  • Slide 26
  • Myelography
  • Slide 28
  • Differentials
  • Complications of tuberculosis
  • Tb spine with PARAPLEGIA
  • Patho of Tuberculoses Paraplegia
  • Slide 33
  • Seddonrsquos Classification
  • Kumarrsquos classification of tuberculous paraplegia
  • Evolution of treatment
  • BASIC PRINCIPLES OF MANAGEMENT 10487291048729
  • Slide 38
  • What is Middle path regime
  • Slide 40
  • Drugs in middle path
  • Slide 43
  • Surgical indications
  • Other indications
  • Slide 46
  • APPROACH
  • Tulirsquos recommended approch
  • Surgical technique
  • Anterolateral decompression
  • Posterior Spinal Arthrodesis
  • DYNAMIC CAGE GovenderampPrabhoo
  • SYNTHES PLATE WITH SAPCER
  • Yilmaz C Selek HY et al Anterior instrumentation for the Treatment of Spinal Tuberculosis J Bone and Joint Surg 1999 81-A 1261-67
Page 39: Pott Disease

Other indicationsbull Recurrent paraplegiabull Painful paraplegiandash dt root compressionetcbull Posterior spinal disease--involving the post

elements of vertbbull Spinal tumor syndrome resulting in cord

compressionbull Rapid onset paraplegia due to thrombosistrauma

etcbull Severe paraplegiabull Secondary to cervical disease and bull cauda equina paralysis

1 Decompression +- fusion

Failed responseToo advanced

2 Debridement+- fusion

Failed response after 3-6 monthsDoubtful diagnosisInstability

3 Debridement +-DECOMP+- fusion

Recrudescence of disease

4 Debridement+- fusion

Prevent severe Kyphosis

5 Anterior transpostion

Severe Kyphosis +neural deficit

6 Laminectomy STSsecondary stenosis posterior disease

APPROACH1 Cervical spine ndash Anterior retropharyngeal

(smith-Robinsonrsquos) Anterior approach ndash AnteriorMedial

border of sternocleidomastoid2 Dorsal spine (D1 to L1) ndash

1 Transthoraccic transpleural 2 Anterolateral decompression(D2 ndash

L1)3 Lumbar spine ndash Anterolateral(Lumbovertebrotomy) Extraperitoneal Ant approach

Tulirsquos recommended approch

bull Cervical spine ndashT1 Anterior approchbull Dorsal spine ndashDL junction Antrolateral

approchbull Lumbar spine ampLumboscral junction

Extraperitoneal Transverse Vertebrotomy

Surgical technique

bull Costotransversectomyndash in tense paravertebral abscess

removendash transverse process rib ndash 2 inchs

Anterolateral decompressionbull Posterior part of ribbull Transverse processbull Pediclebull Part of the vertebral bodybull Griffith Seddon Roaf -- prone position

bull Tuli --- right lateral positionbull Advantage- 1 avoid venous congestion 2 avoid excessive bleeding 3 permits freer respiration 4 better look at site

Posterior Spinal Arthrodesisbull Byndash Albee amp Hibbsbull Albeendash tibial graft inserted longitudinally in to

the split spinous vertebral processbull Hibbsndash overlapping numerous small osseous flap

from contiguous laminae spinous process amp articular facets

bull Indicationsndash 1 mechanical instability 2 to stabilise craniovertebral region 3 as part of panvertebral operation

DYNAMIC CAGE GovenderampPrabhoo

SYNTHES PLATE WITHSAPCER

Yilmaz C Selek HY et al Anterior instrumentation for the Treatment of Spinal Tuberculosis J Bone and

Joint Surg 1999 81-A 1261-67

bull ldquowe feel that every attempt should be made to minimize this deformity with some form of instrumentation wherever indicated and preferably anteriorlyrsquordquo

Thank youThank you

  • Pottrsquos spine
  • Pottrsquos disease
  • Slide 3
  • Regional Distribution
  • Pathophysiology
  • Slide 6
  • Slide 7
  • Slide 8
  • Slide 9
  • Anatomically the lesion could be
  • History
  • Slide 12
  • Slide 13
  • Natural course of disease
  • Lab Studies
  • Slide 16
  • Slide 17
  • X Ray appearances
  • Slide 19
  • Slide 20
  • X-ray of the thoracolumbar spine (Lateral view) showing wedge collapse of L1 and L2 vertebral bodies
  • X-ray of the spine in a child showing complete destruction of D12 and L1 vertebral bodies leaving only the pedicles
  • Kumarrsquos clinico-radiological Classification
  • CT scanning
  • MRI
  • Slide 26
  • Myelography
  • Slide 28
  • Differentials
  • Complications of tuberculosis
  • Tb spine with PARAPLEGIA
  • Patho of Tuberculoses Paraplegia
  • Slide 33
  • Seddonrsquos Classification
  • Kumarrsquos classification of tuberculous paraplegia
  • Evolution of treatment
  • BASIC PRINCIPLES OF MANAGEMENT 10487291048729
  • Slide 38
  • What is Middle path regime
  • Slide 40
  • Drugs in middle path
  • Slide 43
  • Surgical indications
  • Other indications
  • Slide 46
  • APPROACH
  • Tulirsquos recommended approch
  • Surgical technique
  • Anterolateral decompression
  • Posterior Spinal Arthrodesis
  • DYNAMIC CAGE GovenderampPrabhoo
  • SYNTHES PLATE WITH SAPCER
  • Yilmaz C Selek HY et al Anterior instrumentation for the Treatment of Spinal Tuberculosis J Bone and Joint Surg 1999 81-A 1261-67
Page 40: Pott Disease

1 Decompression +- fusion

Failed responseToo advanced

2 Debridement+- fusion

Failed response after 3-6 monthsDoubtful diagnosisInstability

3 Debridement +-DECOMP+- fusion

Recrudescence of disease

4 Debridement+- fusion

Prevent severe Kyphosis

5 Anterior transpostion

Severe Kyphosis +neural deficit

6 Laminectomy STSsecondary stenosis posterior disease

APPROACH1 Cervical spine ndash Anterior retropharyngeal

(smith-Robinsonrsquos) Anterior approach ndash AnteriorMedial

border of sternocleidomastoid2 Dorsal spine (D1 to L1) ndash

1 Transthoraccic transpleural 2 Anterolateral decompression(D2 ndash

L1)3 Lumbar spine ndash Anterolateral(Lumbovertebrotomy) Extraperitoneal Ant approach

Tulirsquos recommended approch

bull Cervical spine ndashT1 Anterior approchbull Dorsal spine ndashDL junction Antrolateral

approchbull Lumbar spine ampLumboscral junction

Extraperitoneal Transverse Vertebrotomy

Surgical technique

bull Costotransversectomyndash in tense paravertebral abscess

removendash transverse process rib ndash 2 inchs

Anterolateral decompressionbull Posterior part of ribbull Transverse processbull Pediclebull Part of the vertebral bodybull Griffith Seddon Roaf -- prone position

bull Tuli --- right lateral positionbull Advantage- 1 avoid venous congestion 2 avoid excessive bleeding 3 permits freer respiration 4 better look at site

Posterior Spinal Arthrodesisbull Byndash Albee amp Hibbsbull Albeendash tibial graft inserted longitudinally in to

the split spinous vertebral processbull Hibbsndash overlapping numerous small osseous flap

from contiguous laminae spinous process amp articular facets

bull Indicationsndash 1 mechanical instability 2 to stabilise craniovertebral region 3 as part of panvertebral operation

DYNAMIC CAGE GovenderampPrabhoo

SYNTHES PLATE WITHSAPCER

Yilmaz C Selek HY et al Anterior instrumentation for the Treatment of Spinal Tuberculosis J Bone and

Joint Surg 1999 81-A 1261-67

bull ldquowe feel that every attempt should be made to minimize this deformity with some form of instrumentation wherever indicated and preferably anteriorlyrsquordquo

Thank youThank you

  • Pottrsquos spine
  • Pottrsquos disease
  • Slide 3
  • Regional Distribution
  • Pathophysiology
  • Slide 6
  • Slide 7
  • Slide 8
  • Slide 9
  • Anatomically the lesion could be
  • History
  • Slide 12
  • Slide 13
  • Natural course of disease
  • Lab Studies
  • Slide 16
  • Slide 17
  • X Ray appearances
  • Slide 19
  • Slide 20
  • X-ray of the thoracolumbar spine (Lateral view) showing wedge collapse of L1 and L2 vertebral bodies
  • X-ray of the spine in a child showing complete destruction of D12 and L1 vertebral bodies leaving only the pedicles
  • Kumarrsquos clinico-radiological Classification
  • CT scanning
  • MRI
  • Slide 26
  • Myelography
  • Slide 28
  • Differentials
  • Complications of tuberculosis
  • Tb spine with PARAPLEGIA
  • Patho of Tuberculoses Paraplegia
  • Slide 33
  • Seddonrsquos Classification
  • Kumarrsquos classification of tuberculous paraplegia
  • Evolution of treatment
  • BASIC PRINCIPLES OF MANAGEMENT 10487291048729
  • Slide 38
  • What is Middle path regime
  • Slide 40
  • Drugs in middle path
  • Slide 43
  • Surgical indications
  • Other indications
  • Slide 46
  • APPROACH
  • Tulirsquos recommended approch
  • Surgical technique
  • Anterolateral decompression
  • Posterior Spinal Arthrodesis
  • DYNAMIC CAGE GovenderampPrabhoo
  • SYNTHES PLATE WITH SAPCER
  • Yilmaz C Selek HY et al Anterior instrumentation for the Treatment of Spinal Tuberculosis J Bone and Joint Surg 1999 81-A 1261-67
Page 41: Pott Disease

APPROACH1 Cervical spine ndash Anterior retropharyngeal

(smith-Robinsonrsquos) Anterior approach ndash AnteriorMedial

border of sternocleidomastoid2 Dorsal spine (D1 to L1) ndash

1 Transthoraccic transpleural 2 Anterolateral decompression(D2 ndash

L1)3 Lumbar spine ndash Anterolateral(Lumbovertebrotomy) Extraperitoneal Ant approach

Tulirsquos recommended approch

bull Cervical spine ndashT1 Anterior approchbull Dorsal spine ndashDL junction Antrolateral

approchbull Lumbar spine ampLumboscral junction

Extraperitoneal Transverse Vertebrotomy

Surgical technique

bull Costotransversectomyndash in tense paravertebral abscess

removendash transverse process rib ndash 2 inchs

Anterolateral decompressionbull Posterior part of ribbull Transverse processbull Pediclebull Part of the vertebral bodybull Griffith Seddon Roaf -- prone position

bull Tuli --- right lateral positionbull Advantage- 1 avoid venous congestion 2 avoid excessive bleeding 3 permits freer respiration 4 better look at site

Posterior Spinal Arthrodesisbull Byndash Albee amp Hibbsbull Albeendash tibial graft inserted longitudinally in to

the split spinous vertebral processbull Hibbsndash overlapping numerous small osseous flap

from contiguous laminae spinous process amp articular facets

bull Indicationsndash 1 mechanical instability 2 to stabilise craniovertebral region 3 as part of panvertebral operation

DYNAMIC CAGE GovenderampPrabhoo

SYNTHES PLATE WITHSAPCER

Yilmaz C Selek HY et al Anterior instrumentation for the Treatment of Spinal Tuberculosis J Bone and

Joint Surg 1999 81-A 1261-67

bull ldquowe feel that every attempt should be made to minimize this deformity with some form of instrumentation wherever indicated and preferably anteriorlyrsquordquo

Thank youThank you

  • Pottrsquos spine
  • Pottrsquos disease
  • Slide 3
  • Regional Distribution
  • Pathophysiology
  • Slide 6
  • Slide 7
  • Slide 8
  • Slide 9
  • Anatomically the lesion could be
  • History
  • Slide 12
  • Slide 13
  • Natural course of disease
  • Lab Studies
  • Slide 16
  • Slide 17
  • X Ray appearances
  • Slide 19
  • Slide 20
  • X-ray of the thoracolumbar spine (Lateral view) showing wedge collapse of L1 and L2 vertebral bodies
  • X-ray of the spine in a child showing complete destruction of D12 and L1 vertebral bodies leaving only the pedicles
  • Kumarrsquos clinico-radiological Classification
  • CT scanning
  • MRI
  • Slide 26
  • Myelography
  • Slide 28
  • Differentials
  • Complications of tuberculosis
  • Tb spine with PARAPLEGIA
  • Patho of Tuberculoses Paraplegia
  • Slide 33
  • Seddonrsquos Classification
  • Kumarrsquos classification of tuberculous paraplegia
  • Evolution of treatment
  • BASIC PRINCIPLES OF MANAGEMENT 10487291048729
  • Slide 38
  • What is Middle path regime
  • Slide 40
  • Drugs in middle path
  • Slide 43
  • Surgical indications
  • Other indications
  • Slide 46
  • APPROACH
  • Tulirsquos recommended approch
  • Surgical technique
  • Anterolateral decompression
  • Posterior Spinal Arthrodesis
  • DYNAMIC CAGE GovenderampPrabhoo
  • SYNTHES PLATE WITH SAPCER
  • Yilmaz C Selek HY et al Anterior instrumentation for the Treatment of Spinal Tuberculosis J Bone and Joint Surg 1999 81-A 1261-67
Page 42: Pott Disease

Tulirsquos recommended approch

bull Cervical spine ndashT1 Anterior approchbull Dorsal spine ndashDL junction Antrolateral

approchbull Lumbar spine ampLumboscral junction

Extraperitoneal Transverse Vertebrotomy

Surgical technique

bull Costotransversectomyndash in tense paravertebral abscess

removendash transverse process rib ndash 2 inchs

Anterolateral decompressionbull Posterior part of ribbull Transverse processbull Pediclebull Part of the vertebral bodybull Griffith Seddon Roaf -- prone position

bull Tuli --- right lateral positionbull Advantage- 1 avoid venous congestion 2 avoid excessive bleeding 3 permits freer respiration 4 better look at site

Posterior Spinal Arthrodesisbull Byndash Albee amp Hibbsbull Albeendash tibial graft inserted longitudinally in to

the split spinous vertebral processbull Hibbsndash overlapping numerous small osseous flap

from contiguous laminae spinous process amp articular facets

bull Indicationsndash 1 mechanical instability 2 to stabilise craniovertebral region 3 as part of panvertebral operation

DYNAMIC CAGE GovenderampPrabhoo

SYNTHES PLATE WITHSAPCER

Yilmaz C Selek HY et al Anterior instrumentation for the Treatment of Spinal Tuberculosis J Bone and

Joint Surg 1999 81-A 1261-67

bull ldquowe feel that every attempt should be made to minimize this deformity with some form of instrumentation wherever indicated and preferably anteriorlyrsquordquo

Thank youThank you

  • Pottrsquos spine
  • Pottrsquos disease
  • Slide 3
  • Regional Distribution
  • Pathophysiology
  • Slide 6
  • Slide 7
  • Slide 8
  • Slide 9
  • Anatomically the lesion could be
  • History
  • Slide 12
  • Slide 13
  • Natural course of disease
  • Lab Studies
  • Slide 16
  • Slide 17
  • X Ray appearances
  • Slide 19
  • Slide 20
  • X-ray of the thoracolumbar spine (Lateral view) showing wedge collapse of L1 and L2 vertebral bodies
  • X-ray of the spine in a child showing complete destruction of D12 and L1 vertebral bodies leaving only the pedicles
  • Kumarrsquos clinico-radiological Classification
  • CT scanning
  • MRI
  • Slide 26
  • Myelography
  • Slide 28
  • Differentials
  • Complications of tuberculosis
  • Tb spine with PARAPLEGIA
  • Patho of Tuberculoses Paraplegia
  • Slide 33
  • Seddonrsquos Classification
  • Kumarrsquos classification of tuberculous paraplegia
  • Evolution of treatment
  • BASIC PRINCIPLES OF MANAGEMENT 10487291048729
  • Slide 38
  • What is Middle path regime
  • Slide 40
  • Drugs in middle path
  • Slide 43
  • Surgical indications
  • Other indications
  • Slide 46
  • APPROACH
  • Tulirsquos recommended approch
  • Surgical technique
  • Anterolateral decompression
  • Posterior Spinal Arthrodesis
  • DYNAMIC CAGE GovenderampPrabhoo
  • SYNTHES PLATE WITH SAPCER
  • Yilmaz C Selek HY et al Anterior instrumentation for the Treatment of Spinal Tuberculosis J Bone and Joint Surg 1999 81-A 1261-67
Page 43: Pott Disease

Surgical technique

bull Costotransversectomyndash in tense paravertebral abscess

removendash transverse process rib ndash 2 inchs

Anterolateral decompressionbull Posterior part of ribbull Transverse processbull Pediclebull Part of the vertebral bodybull Griffith Seddon Roaf -- prone position

bull Tuli --- right lateral positionbull Advantage- 1 avoid venous congestion 2 avoid excessive bleeding 3 permits freer respiration 4 better look at site

Posterior Spinal Arthrodesisbull Byndash Albee amp Hibbsbull Albeendash tibial graft inserted longitudinally in to

the split spinous vertebral processbull Hibbsndash overlapping numerous small osseous flap

from contiguous laminae spinous process amp articular facets

bull Indicationsndash 1 mechanical instability 2 to stabilise craniovertebral region 3 as part of panvertebral operation

DYNAMIC CAGE GovenderampPrabhoo

SYNTHES PLATE WITHSAPCER

Yilmaz C Selek HY et al Anterior instrumentation for the Treatment of Spinal Tuberculosis J Bone and

Joint Surg 1999 81-A 1261-67

bull ldquowe feel that every attempt should be made to minimize this deformity with some form of instrumentation wherever indicated and preferably anteriorlyrsquordquo

Thank youThank you

  • Pottrsquos spine
  • Pottrsquos disease
  • Slide 3
  • Regional Distribution
  • Pathophysiology
  • Slide 6
  • Slide 7
  • Slide 8
  • Slide 9
  • Anatomically the lesion could be
  • History
  • Slide 12
  • Slide 13
  • Natural course of disease
  • Lab Studies
  • Slide 16
  • Slide 17
  • X Ray appearances
  • Slide 19
  • Slide 20
  • X-ray of the thoracolumbar spine (Lateral view) showing wedge collapse of L1 and L2 vertebral bodies
  • X-ray of the spine in a child showing complete destruction of D12 and L1 vertebral bodies leaving only the pedicles
  • Kumarrsquos clinico-radiological Classification
  • CT scanning
  • MRI
  • Slide 26
  • Myelography
  • Slide 28
  • Differentials
  • Complications of tuberculosis
  • Tb spine with PARAPLEGIA
  • Patho of Tuberculoses Paraplegia
  • Slide 33
  • Seddonrsquos Classification
  • Kumarrsquos classification of tuberculous paraplegia
  • Evolution of treatment
  • BASIC PRINCIPLES OF MANAGEMENT 10487291048729
  • Slide 38
  • What is Middle path regime
  • Slide 40
  • Drugs in middle path
  • Slide 43
  • Surgical indications
  • Other indications
  • Slide 46
  • APPROACH
  • Tulirsquos recommended approch
  • Surgical technique
  • Anterolateral decompression
  • Posterior Spinal Arthrodesis
  • DYNAMIC CAGE GovenderampPrabhoo
  • SYNTHES PLATE WITH SAPCER
  • Yilmaz C Selek HY et al Anterior instrumentation for the Treatment of Spinal Tuberculosis J Bone and Joint Surg 1999 81-A 1261-67
Page 44: Pott Disease

Anterolateral decompressionbull Posterior part of ribbull Transverse processbull Pediclebull Part of the vertebral bodybull Griffith Seddon Roaf -- prone position

bull Tuli --- right lateral positionbull Advantage- 1 avoid venous congestion 2 avoid excessive bleeding 3 permits freer respiration 4 better look at site

Posterior Spinal Arthrodesisbull Byndash Albee amp Hibbsbull Albeendash tibial graft inserted longitudinally in to

the split spinous vertebral processbull Hibbsndash overlapping numerous small osseous flap

from contiguous laminae spinous process amp articular facets

bull Indicationsndash 1 mechanical instability 2 to stabilise craniovertebral region 3 as part of panvertebral operation

DYNAMIC CAGE GovenderampPrabhoo

SYNTHES PLATE WITHSAPCER

Yilmaz C Selek HY et al Anterior instrumentation for the Treatment of Spinal Tuberculosis J Bone and

Joint Surg 1999 81-A 1261-67

bull ldquowe feel that every attempt should be made to minimize this deformity with some form of instrumentation wherever indicated and preferably anteriorlyrsquordquo

Thank youThank you

  • Pottrsquos spine
  • Pottrsquos disease
  • Slide 3
  • Regional Distribution
  • Pathophysiology
  • Slide 6
  • Slide 7
  • Slide 8
  • Slide 9
  • Anatomically the lesion could be
  • History
  • Slide 12
  • Slide 13
  • Natural course of disease
  • Lab Studies
  • Slide 16
  • Slide 17
  • X Ray appearances
  • Slide 19
  • Slide 20
  • X-ray of the thoracolumbar spine (Lateral view) showing wedge collapse of L1 and L2 vertebral bodies
  • X-ray of the spine in a child showing complete destruction of D12 and L1 vertebral bodies leaving only the pedicles
  • Kumarrsquos clinico-radiological Classification
  • CT scanning
  • MRI
  • Slide 26
  • Myelography
  • Slide 28
  • Differentials
  • Complications of tuberculosis
  • Tb spine with PARAPLEGIA
  • Patho of Tuberculoses Paraplegia
  • Slide 33
  • Seddonrsquos Classification
  • Kumarrsquos classification of tuberculous paraplegia
  • Evolution of treatment
  • BASIC PRINCIPLES OF MANAGEMENT 10487291048729
  • Slide 38
  • What is Middle path regime
  • Slide 40
  • Drugs in middle path
  • Slide 43
  • Surgical indications
  • Other indications
  • Slide 46
  • APPROACH
  • Tulirsquos recommended approch
  • Surgical technique
  • Anterolateral decompression
  • Posterior Spinal Arthrodesis
  • DYNAMIC CAGE GovenderampPrabhoo
  • SYNTHES PLATE WITH SAPCER
  • Yilmaz C Selek HY et al Anterior instrumentation for the Treatment of Spinal Tuberculosis J Bone and Joint Surg 1999 81-A 1261-67
Page 45: Pott Disease

Posterior Spinal Arthrodesisbull Byndash Albee amp Hibbsbull Albeendash tibial graft inserted longitudinally in to

the split spinous vertebral processbull Hibbsndash overlapping numerous small osseous flap

from contiguous laminae spinous process amp articular facets

bull Indicationsndash 1 mechanical instability 2 to stabilise craniovertebral region 3 as part of panvertebral operation

DYNAMIC CAGE GovenderampPrabhoo

SYNTHES PLATE WITHSAPCER

Yilmaz C Selek HY et al Anterior instrumentation for the Treatment of Spinal Tuberculosis J Bone and

Joint Surg 1999 81-A 1261-67

bull ldquowe feel that every attempt should be made to minimize this deformity with some form of instrumentation wherever indicated and preferably anteriorlyrsquordquo

Thank youThank you

  • Pottrsquos spine
  • Pottrsquos disease
  • Slide 3
  • Regional Distribution
  • Pathophysiology
  • Slide 6
  • Slide 7
  • Slide 8
  • Slide 9
  • Anatomically the lesion could be
  • History
  • Slide 12
  • Slide 13
  • Natural course of disease
  • Lab Studies
  • Slide 16
  • Slide 17
  • X Ray appearances
  • Slide 19
  • Slide 20
  • X-ray of the thoracolumbar spine (Lateral view) showing wedge collapse of L1 and L2 vertebral bodies
  • X-ray of the spine in a child showing complete destruction of D12 and L1 vertebral bodies leaving only the pedicles
  • Kumarrsquos clinico-radiological Classification
  • CT scanning
  • MRI
  • Slide 26
  • Myelography
  • Slide 28
  • Differentials
  • Complications of tuberculosis
  • Tb spine with PARAPLEGIA
  • Patho of Tuberculoses Paraplegia
  • Slide 33
  • Seddonrsquos Classification
  • Kumarrsquos classification of tuberculous paraplegia
  • Evolution of treatment
  • BASIC PRINCIPLES OF MANAGEMENT 10487291048729
  • Slide 38
  • What is Middle path regime
  • Slide 40
  • Drugs in middle path
  • Slide 43
  • Surgical indications
  • Other indications
  • Slide 46
  • APPROACH
  • Tulirsquos recommended approch
  • Surgical technique
  • Anterolateral decompression
  • Posterior Spinal Arthrodesis
  • DYNAMIC CAGE GovenderampPrabhoo
  • SYNTHES PLATE WITH SAPCER
  • Yilmaz C Selek HY et al Anterior instrumentation for the Treatment of Spinal Tuberculosis J Bone and Joint Surg 1999 81-A 1261-67
Page 46: Pott Disease

DYNAMIC CAGE GovenderampPrabhoo

SYNTHES PLATE WITHSAPCER

Yilmaz C Selek HY et al Anterior instrumentation for the Treatment of Spinal Tuberculosis J Bone and

Joint Surg 1999 81-A 1261-67

bull ldquowe feel that every attempt should be made to minimize this deformity with some form of instrumentation wherever indicated and preferably anteriorlyrsquordquo

Thank youThank you

  • Pottrsquos spine
  • Pottrsquos disease
  • Slide 3
  • Regional Distribution
  • Pathophysiology
  • Slide 6
  • Slide 7
  • Slide 8
  • Slide 9
  • Anatomically the lesion could be
  • History
  • Slide 12
  • Slide 13
  • Natural course of disease
  • Lab Studies
  • Slide 16
  • Slide 17
  • X Ray appearances
  • Slide 19
  • Slide 20
  • X-ray of the thoracolumbar spine (Lateral view) showing wedge collapse of L1 and L2 vertebral bodies
  • X-ray of the spine in a child showing complete destruction of D12 and L1 vertebral bodies leaving only the pedicles
  • Kumarrsquos clinico-radiological Classification
  • CT scanning
  • MRI
  • Slide 26
  • Myelography
  • Slide 28
  • Differentials
  • Complications of tuberculosis
  • Tb spine with PARAPLEGIA
  • Patho of Tuberculoses Paraplegia
  • Slide 33
  • Seddonrsquos Classification
  • Kumarrsquos classification of tuberculous paraplegia
  • Evolution of treatment
  • BASIC PRINCIPLES OF MANAGEMENT 10487291048729
  • Slide 38
  • What is Middle path regime
  • Slide 40
  • Drugs in middle path
  • Slide 43
  • Surgical indications
  • Other indications
  • Slide 46
  • APPROACH
  • Tulirsquos recommended approch
  • Surgical technique
  • Anterolateral decompression
  • Posterior Spinal Arthrodesis
  • DYNAMIC CAGE GovenderampPrabhoo
  • SYNTHES PLATE WITH SAPCER
  • Yilmaz C Selek HY et al Anterior instrumentation for the Treatment of Spinal Tuberculosis J Bone and Joint Surg 1999 81-A 1261-67
Page 47: Pott Disease

SYNTHES PLATE WITHSAPCER

Yilmaz C Selek HY et al Anterior instrumentation for the Treatment of Spinal Tuberculosis J Bone and

Joint Surg 1999 81-A 1261-67

bull ldquowe feel that every attempt should be made to minimize this deformity with some form of instrumentation wherever indicated and preferably anteriorlyrsquordquo

Thank youThank you

  • Pottrsquos spine
  • Pottrsquos disease
  • Slide 3
  • Regional Distribution
  • Pathophysiology
  • Slide 6
  • Slide 7
  • Slide 8
  • Slide 9
  • Anatomically the lesion could be
  • History
  • Slide 12
  • Slide 13
  • Natural course of disease
  • Lab Studies
  • Slide 16
  • Slide 17
  • X Ray appearances
  • Slide 19
  • Slide 20
  • X-ray of the thoracolumbar spine (Lateral view) showing wedge collapse of L1 and L2 vertebral bodies
  • X-ray of the spine in a child showing complete destruction of D12 and L1 vertebral bodies leaving only the pedicles
  • Kumarrsquos clinico-radiological Classification
  • CT scanning
  • MRI
  • Slide 26
  • Myelography
  • Slide 28
  • Differentials
  • Complications of tuberculosis
  • Tb spine with PARAPLEGIA
  • Patho of Tuberculoses Paraplegia
  • Slide 33
  • Seddonrsquos Classification
  • Kumarrsquos classification of tuberculous paraplegia
  • Evolution of treatment
  • BASIC PRINCIPLES OF MANAGEMENT 10487291048729
  • Slide 38
  • What is Middle path regime
  • Slide 40
  • Drugs in middle path
  • Slide 43
  • Surgical indications
  • Other indications
  • Slide 46
  • APPROACH
  • Tulirsquos recommended approch
  • Surgical technique
  • Anterolateral decompression
  • Posterior Spinal Arthrodesis
  • DYNAMIC CAGE GovenderampPrabhoo
  • SYNTHES PLATE WITH SAPCER
  • Yilmaz C Selek HY et al Anterior instrumentation for the Treatment of Spinal Tuberculosis J Bone and Joint Surg 1999 81-A 1261-67
Page 48: Pott Disease

Yilmaz C Selek HY et al Anterior instrumentation for the Treatment of Spinal Tuberculosis J Bone and

Joint Surg 1999 81-A 1261-67

bull ldquowe feel that every attempt should be made to minimize this deformity with some form of instrumentation wherever indicated and preferably anteriorlyrsquordquo

Thank youThank you

  • Pottrsquos spine
  • Pottrsquos disease
  • Slide 3
  • Regional Distribution
  • Pathophysiology
  • Slide 6
  • Slide 7
  • Slide 8
  • Slide 9
  • Anatomically the lesion could be
  • History
  • Slide 12
  • Slide 13
  • Natural course of disease
  • Lab Studies
  • Slide 16
  • Slide 17
  • X Ray appearances
  • Slide 19
  • Slide 20
  • X-ray of the thoracolumbar spine (Lateral view) showing wedge collapse of L1 and L2 vertebral bodies
  • X-ray of the spine in a child showing complete destruction of D12 and L1 vertebral bodies leaving only the pedicles
  • Kumarrsquos clinico-radiological Classification
  • CT scanning
  • MRI
  • Slide 26
  • Myelography
  • Slide 28
  • Differentials
  • Complications of tuberculosis
  • Tb spine with PARAPLEGIA
  • Patho of Tuberculoses Paraplegia
  • Slide 33
  • Seddonrsquos Classification
  • Kumarrsquos classification of tuberculous paraplegia
  • Evolution of treatment
  • BASIC PRINCIPLES OF MANAGEMENT 10487291048729
  • Slide 38
  • What is Middle path regime
  • Slide 40
  • Drugs in middle path
  • Slide 43
  • Surgical indications
  • Other indications
  • Slide 46
  • APPROACH
  • Tulirsquos recommended approch
  • Surgical technique
  • Anterolateral decompression
  • Posterior Spinal Arthrodesis
  • DYNAMIC CAGE GovenderampPrabhoo
  • SYNTHES PLATE WITH SAPCER
  • Yilmaz C Selek HY et al Anterior instrumentation for the Treatment of Spinal Tuberculosis J Bone and Joint Surg 1999 81-A 1261-67
Page 49: Pott Disease

Thank youThank you

  • Pottrsquos spine
  • Pottrsquos disease
  • Slide 3
  • Regional Distribution
  • Pathophysiology
  • Slide 6
  • Slide 7
  • Slide 8
  • Slide 9
  • Anatomically the lesion could be
  • History
  • Slide 12
  • Slide 13
  • Natural course of disease
  • Lab Studies
  • Slide 16
  • Slide 17
  • X Ray appearances
  • Slide 19
  • Slide 20
  • X-ray of the thoracolumbar spine (Lateral view) showing wedge collapse of L1 and L2 vertebral bodies
  • X-ray of the spine in a child showing complete destruction of D12 and L1 vertebral bodies leaving only the pedicles
  • Kumarrsquos clinico-radiological Classification
  • CT scanning
  • MRI
  • Slide 26
  • Myelography
  • Slide 28
  • Differentials
  • Complications of tuberculosis
  • Tb spine with PARAPLEGIA
  • Patho of Tuberculoses Paraplegia
  • Slide 33
  • Seddonrsquos Classification
  • Kumarrsquos classification of tuberculous paraplegia
  • Evolution of treatment
  • BASIC PRINCIPLES OF MANAGEMENT 10487291048729
  • Slide 38
  • What is Middle path regime
  • Slide 40
  • Drugs in middle path
  • Slide 43
  • Surgical indications
  • Other indications
  • Slide 46
  • APPROACH
  • Tulirsquos recommended approch
  • Surgical technique
  • Anterolateral decompression
  • Posterior Spinal Arthrodesis
  • DYNAMIC CAGE GovenderampPrabhoo
  • SYNTHES PLATE WITH SAPCER
  • Yilmaz C Selek HY et al Anterior instrumentation for the Treatment of Spinal Tuberculosis J Bone and Joint Surg 1999 81-A 1261-67