Osteochondritis of different bones
-
Upload
pramod-govindraj -
Category
Health & Medicine
-
view
363 -
download
0
description
Transcript of Osteochondritis of different bones
OSTEOCHONDRITIS OF DIFFERENT BONES
By Dr PRAMOD GOVINDRAJ
ANATOMY
• A typical long bone, ossifies in three parts; the two ends and one shaft.
• The ends ossify from secondary centers of ossification while the shaft ossifies from primary center of ossification
• In a young bone in which the process of ossification is not complete
• Epiphysis• Diaphysis• Metaphyses• Epiphyseal plate of cartilage
• Epiphysis:• The ends and the tips of a long bone that
ossify from secondary centers are known as epiphyses. Growth of the epiphysis arises from two areas: (1) the vascular reserve zone car tilage, which is responsible for growth of the epiphysis toward the joint, and (2) the epiphyseal plate, which is responsible for growth in bone length
TYPES OF EPIPHYSIS• Pressure epiphyses: articular & take part in joint formation. These
epiphyses are the weight transmitting epiphyses. Ex -head of the humerus, lower end of the radius etc.
• Traction epiphyses: provide attachment to tendons of muscles. The traction epiphyses ossify later than the pressure epiphyses. Examples of these epiphyses are tubercles of humerus and trochanters of femur
• Atavistic epiphyses: are phylogenetically independent but they become fused in man. Examples are coracoid process of scapula
• Aberrant epiphyses: these epiphyses are not always present. Examples are epiphyses at the head of the first metacarpal bone and at the base of other metacarpal bones.
DEFINITION
• The terms osteochondrosis or epiphysitis is a self limiting developmental dearrangement of normal bone growth primarily involving centres of ossification in the epiphysis
• It is an aseptic ischemic necrosis• The disorder may be localized to a single
epiphysis or occasionally may involve two or more epiphyses simultaneously or successively
CHARACTERISTICS
• Predilection of immature skeleton
• Involvement of epiphysis
• Radiographic picture dominated by fragmentation ,collapse, sclerosis and reossification of osseous centres
CLASSIFICATION
• BURROW’S CLASSIFICATION into pressure traction and atavistic types
SIFFER CLASSIFICATION
• Articular osteochondroses:– Calvé-Legg-Perthes Disease (hip/femur)– Köhler's Bone Disease (ankle navicular bone)– Freiberg's Disease (2nd metatarsal head)– Panner's Disease (capitulum of humerus)
• Non-articular osteochondroses:– Osgood-Schlatter Disease (tibial tuberosity)– Sever's Disease (calcaneus)– Sinding-Larsen and Johansson Syndrome (inferior tip of patella)
• Epiphyseal osteochrondroses:– Scheuermann's Disease (vertebral bodies)
ARTICULAR OSTE0CHONDROSISLegg Calve Perthes Disease
Legg-Calvé-Perthes disease (LCPD) is the name given to idiopathic osteonecrosis of the capital femoral epiphysis in a child.
HISTORY
Blood supply to femoral head
• Upto 4 years1. Retinacular vessels mainly lateral epiphyseal
vessels2. Metaphyseal 3. Artery of ligamentum teres
Blood supply to femoral head
• By 4 yrsEpiphyseal plate forms a barrier to metaphyseal vessels.
• Pre-adolescent1. After 7 yrs arteries of lig teres become more
prominent and anastomose with the lateral epiphyseal vessels.
Between 4&7 yrs blood supply is dependent on retinacular vessels only
Incidence• Male : Female = 4-5:1• 2.5:1 in India• Age of onset earlier in females.• Age – Range – 2-13 years. Most common 4-8 years. Average – 6 years.• Bilateral in 10-12 %• Incidence more in Caucasians as compared to Negroid,
mongoloid.
Etiology• Etiology not known.• Coagulation disorders.• Altered arterial status of femoral head.• Abnormal venous drainage.• Abnormal growth and development.• Trauma.• Hyperactivity or attention deficit disorder.• Genetic component.• Environmental influences.• As a sequelae to synovitis.
Pathogenesis
• Waldenstrom staged the pathological process of the disease as
1. Initial or ischaemic stage2. Resorption or fragmentation stage3. Reparative stage4. Remodelling stage
Stage of Avascular Necrosis Ischemia
A part ( anterior) or whole of capital femoral epiphysis is necrosed. On X-ray –
– The ossific nucleus looks smaller– Classically of Perthes’, looks dense– The articular cartilage remains viable & becomes thicker than normal – increased joint space.
PATHOGENESIS
PATHOGENESIS
Stage of REVASCULARIZATION / FRAGMENTATION• Ingrowths of highly vascular & cellular connective tissue.
• Necrotic trabecular debris is resorbed & replaced by vascular
fibrous tissue the alternating areas of sclerosis and
fibrosis appear on X- ray as fragmentation of epiphysis.
• New immature bone laid on intact
necrosed trabeculae by creeping
substitution further increases
the density of ossific nucleus on
X-ray.
PATHOGENESISStage of Ossification / Healing New bone starts forming and epiphyseal
density increases in the lucent portions of the femoral head.
• Remodeling / Residual stage
This is the stage of remodeling and there is no additional change in the density of the femoral head.
Depending on the severity of the disease the residual shape of the head may be spherical
or distorted.
PATHOGENESIS
Remodelling stage(replacement by biologically plastic bone)
If treated
• Femoral head is congrous
If untreated
• Subluxation and deformity
CLINICAL FEATURES
• Classic portrait of the child with Legg-Calvé-Perthes disease—small, often thin, extremely active, constantly running and jumping, and limping after strenuous physical activities
• Often insidious onset of a painless limp, excaberated by activity.
• C/O pain in groin, thigh, knee • Few relate trauma hx• Can have an acute onset
Presentation
• Tredelenburg with antalgic gait• Trendelenburg test often
positive• Muscular atrophy of
thigh/buttock/calf• Limb length discrepency• Decreased ROM, especially
abduction and internal rotation: initially due to muscle spasm
Physical Exam
Imaging – Radiographic Feature
• Widening of the joint space and minor subluxation• Sclerosis• Fragmentation and focal resorption• Loss of height• Metaphyseal cyst formation• Widening of the femoral neck & head (Coxa Magna)• Lateral uncovering of the femoral head• Sagging rope sign• Acetabular remodelling
Sclerosis of epiphysis & widening of joint space in the early stages
Fragmentation of the femoral capital epiphysis
Caffey’s sign
• As the disease progresses, a subchondral # may occur in the anterolateral aspect of the femoral capital epiphysis.
• Is an early radiographic feature best seen on the frog-lateral projection.
• This produces a crescentic radiolucency known as the crescent, Salter’s or Caffey’s sign
Metaphyseal cyst formation within the femoral neck
Stages of radiological changes in Perthe's disease: cont…
¨ Late Stage– Coxa magna High-riding trochanter Flattened femoral head Irregular articular surface
‘Sagging Rope Sign’
• This a curvilinear sclerotic line running horizontally across the femoral neck.
• It is confirmed by 3D CT studies.
• It is a finding in AP radiograph in a mature hip with Perthes’ disease.
Workup
• Technetium 99 bone scan - Helpful in delineating the extent of avascular changes before they are evident on plain radiographs.– The sensitivity of
radionuclide scanning in the diagnosis of LPD is 98%, and the specificity is 95%.
• Avascular areas show cold spots
Ultrasound features
• Effusion, especially if persistent• Synovial thickening• Cartilaginous thickening• Atrophy of the ipsilateral quadriceps muscle• Flattening, fragmentation, irregularity of the
femoral head• New bone formation• Revascularisation with contrast enhanced power
Doppler
CT Scan
• Staging determined by using plain radiographic findings is upgraded in 30% of patients.
• Not as sensitive as nuclear medicine or MRI.
• CT may be used for follow-up imaging in patients with LPD.
Arthrography
• Shows configuration of the femoral head and its relation with the acetabulum.
• Containment• Congruity• Not routinely used .
MRI
• It allows more precise localization of involvement than conventional radiography.
• MRI is preferred for evaluating the position, form, and size of the femoral head and surrounding soft tissues.
• MRI is as sensitive as isotopic bone scanning.
Morphological classifications of the extent of the lesion
• Classification according to Catterall (Common)
• Classification according to Salter & Thompson
• Classification according to Herring
• Legg, who identified two types of femoral heads—a “cap” and a “mushroom.”
• Goff also identified three types of femoral heads—spherical, cap, and irregular—that correlated with disease outcome.
Classification of extent of lesion - (Acc to Catterall)
Grade Characteristics
I Only anterolateral quadrant affected
II Anterior third or half of the femoral head
III Up to 3/4 of the femoral head affected, only the most dorsal section is intact
IV Whole femoral head affected
Grade – I
• Only anterolateral quadrant affected
Grade - II
• Anterior third or half of the femoral head
Grade – III
• Up to 3/4 of the femoral head affected, • only the most dorsal section is intact
Grade – IV
• Whole femoral head affected
Classification according to Salter & Thompson
Group CharacteristicsA Subchondral # involving <50% of the femoral domeB Subchondral # involving >50% of the femoral dome
Classification according to Herring
Group Characteristics
A Lateral pillar not affected
B >50% of height of lateral pillar preserved
C <50% of height of lateral pillar preserved
Classification according to Herring
“A”Lateral pillar not affected
Classification according to Herring
“B”>50% of height of lateral
pillar preserved
Classification according to Herring
“C”<50% of height of lateral
pillar preserved
Prognostic Factors1. Age at diagnosis <6 yrs – good 6 – 9 yrs – fair >9 yrs - poor2. Extent of involvement3. Sex4. Catterall “head at risk” signs
Catterall “head at risk” signs
• Clinical1. Progressive loss of hip motion more so
abduction.2. Fixed flexion deformity and adduction
deformities of hip3. Obese child4. Age on higher side
• Radiographic
1. Gage sign
2. Calcification lateral to epiphysis
3. Diffuse metaphyseal rarefaction
4. Lateral extrusion of femoral head
5. Growth disturbance of physis
Physeal disruption
Metaphyseal rarefaction
Femoral head extrusion
Gage’s sign
• Rarefaction in the lateral part of the epiphysis and subjacent metaphysis.
Classification of End Results
MOSE CLASSIFICATION • The Mose classification system is based on fitting the
contour of the healed femoral head to a template of concentric circles.
• In good outcomes, the shape of the femoral head deviates no more than 1 mm from a given circle on both AP and frog-leg lateral radiographs.
• If the shape falls within 2 mm, it is considered a fair outcome.
• If the deviation is greater than 2 mm, it is a poor outcome.
Stulberg classificaton• Class I – Shape of the femoral head was basically normal.• Class II – Loss of head height but within 2 mm to a concentric circle on AP and frog leg X-Ray• Class III – Deviates more than 2 mm and acetabulum contour matches the head contour• Class IV – Head Flattened, Flattened area <1cm. Acetabulum contour matches the head contour• Class V – Collapse of femoral head, Acetabular contour does not change
Stulberg classificaton
• Class I & II – Spherically congruent.
• Class III & IV – Congruous Incongruity OR Aspherical congruity.
• Class V – Incongruous incongruity OR Aspherically incongruent.
Treatment
• Goals of treatment– Achieve and maintain ROM– Relieve weight bearing– Containment of the femoral epiphysis within the
confines of the acetabulum– Prevent secondary degenerative arthritis of the
hip
Treatment
• Caterall group 1 and
group 2 ( < 7 years) No• Herring group 1 & Treatment
group 2 (< 6 years)
TreatmentTreatment is divided into 3 phases
• Initial Phase – restore & maintain mobility
• Active Phase – Containment and maintainance of full mobility.
• Reconstructive phase – correct residual deformities.
Treatment ( Initial Phase )• Physiotherapy – active and passive range of
motion exercises to restore motion
• Traction – B/L skin traction and gradually abducting over 1-2 weeks till full abduction isregained.
Treatment ( Active Phase )
• Consists of containment of the femoral head within the acetabulum. This can be achieved by
orthosis or by surgery
Treatment (Orthosis)• Non Ambulatory weight releiving
1. Abduction broomstick plaster cast2. Hip spica cast
• Ambulatory Both limbs included
1. Petrie Abduction cast2. Toronto orthosis3. Newington orthosis4. Birmingham brace5. Atlanta Scotish Rite Brace
• Ambulatory unilateral
1. Tachdjian trilateral socket orthosis
Treatment (Orthosis)
• Atlanta Scotish Rite Brace
Treatment (Orthosis)
• Toronto Brace
Treatment (Orthosis)
• Birmingham brace
Treatment (Orthosis)
• Newington orthosis
Treatment (Orthosis)
• Tachdjian trilateral socket orthosis
Treatment (Orthosis)
• Orthotic treatment is discontinued when the disease enters the reparative phase and healing is established.
• The radiographic evidence of healing are1. Appearance of irregular ossification in the femoral head.
2 . Increased density of femoral head should disappear.
3 . Medial segment of femoral head should increase in size and height.
4 . Metaphyseal rarefaction involving the lateral cortex of the metaphysis should ossify.
5 . There should be intact lateral column.
• If non-op tx cannot maintain containment• Surgically ideal pt:
– 6-9years– Catterral II-III– Good ROM– In collapsing phase
Operative Tx
Surgical Containment
Femoral VDRO Pelvic osteotomies
Varus 20 Salter’s Derotation 20-30 osteotomy
• varusderotation osteotomy :-– INDICATIONS- patients with a spherical femoral head,– little or no acetabular dysplasia (center-edge angle of at least
15 to 20 degrees),– lateral overloading, and– a valgus neck-shaft angle of more than 135 degrees.
FEMORAL OSTEOTOMY
VARUS OSTEOTOMIES
DISADVANTAGES-varus angulation that may not correct with growth (especially in an older child),
further shortening of an already shortened extremity,
the possibility of a gluteus lurch produced by decreasing the length of the lever arm of the gluteal musculature,
the possibility of nonunion of the osteotomy,
requirement of a second operation to remove the internal fixation
• ADVANTAGE-• Anterolateral coverage of the femoral head,• lengthening of the extremity (possibly shortened by the
avascular process), and • avoidance of a second operation for plate removal
INNOMINATE OSTEOTOMY
• DISADVANTAGES-1)inability sometimes to obtain proper containment of the femoral head, especially in older children;
• 2)an increase in acetabular and hip joint pressure that may cause further avascular changes in the femoral head;
• 3)an increase in leg length on the operated side compared with the normal side that may cause a relative adduction of the hip and uncover the femoral head.
• Valgus extension osteotomy indication -hinge abduction of hip• Cheilectomy indication – malformed femoral head
• Chiari osteotomy indication – malformed femoral head with lateral subluxation
• Trochanteric advancement or Greater trochanteric epiphysiodesis
indication – premature capital femoral physeal arrest
• Shelf augmentation procedure indication – coxa magna & lack of acetabular coverage
TREATMENT Reconstructive procedures
FREIBERG INFRACTION
• Osteochondritis of the second metatarsal head. But may also involve 1st 3rd and 4th metatarsal heads
• Usually occurs following trauma. • A misshapen metatarsal head frequently is an
incidental radiographic finding, and careful questioning of the patient often reveals a period during adolescence when pain was noted in the forefoot.
PATHOPHYSIOLOGY
• The second toe is the longest and the second ray the least mobile, excessive pressure on the metatarsal head on weight bearing cause repetitive microfractures,
loss of blood supply to subchondral bone, collapse of this cancellous bone, and cartilage deformation.
• Synovitis accompanies the process, and if it is prolonged and severe, limitation of motion, especially in extension, results.
• With this loss of extension of the metatarsophalangeal joint, weight bearing causes abnormal stress to be applied to the metatarsal shaft, which becomes widened from bicortical thickening.
PRESENTATION
-Pain around the involved metatarsophalangeal joint primarily on weight bearing, local tenderness around the metatarsophalangeal joint, and limitation of motion.
-If a synovitis is present, swelling becomes apparent
Irregular ossification of the primary ossification center of the metatarsal head,widening of the metatarsal shaft,and osteochondral fragmentation
TREATMENT
• Modification of activities, semirigid orthoses, and metatarsal bars.
• A short leg walking cast with a toe extension may be needed if other non operative treatment fails.
• Occasionally, crutches are needed to rest the painful foot completely.
TREATMENT
• If conservative management fails, surgical treatments include (1) Resection of the metatarsal head
• (2) Elevation of the depressed fragment of the metatarsal head and bone grafting of the defect (Smillie procedure)
• (3) Resection of the base of the proximal phalanx with syndactylization of the second and third toes
• (4) Dorsal closing wedge osteotomy of the metatarsal head
• (5) Joint débridement and metatarsal head remodeling
KOHLER’S DISEASE
• Osteochondritis of tarsal navicular• The aetiology of Köhler's disease is unknown.
Theories have included vascular trauma and retarded bone
• It commonly affects children aged 3 to 5 years old, but is seen any time between age 2 and 10 years.
• It is more common in boys; however, girls with this condition are often younger than boys with the disease
• Children present with a unilateral antalgic gait (a limp, avoiding putting weight on painful structures)
• Local tenderness of the medial aspect of the foot, over the navicular bone
• The child is able to walk by taking the majority of their weight on the lateral aspect of the foot. Frequently, there is swelling and redness of the soft tissues
• Plain X-ray -The navicular bone is initially flattened and sclerotic. Later it becomes fragmented and then re-ossifies.[4]
• The lateral view shows a flat tarsal scaphoid.
• The space between the talus and the cuneiforms is preserved.
Rest ,avoiding excessive weight bearing ,analgesia & immobilisation in a short leg cast moulded under the longitudinal arch for at least 6 weeks is recommended.If pain persists after a 6-week period of casting, a new cast must be applied for 6 supplementary weeks• The course is chronic, but rarely lasts longer
than 2 year
• Arthrodesis is the only operation of value, and the midtarsal joints (talonavicular and calcaneocuboid) can be arthrodesed.
• Here arthrodesis is difficult to secure; metallic internal fixation and inlay grafts of autogenous cancellous bone are helpful.
PANNER’S DISEASE
• OSTEOCHONDRITIS OF CAPITELLUM• Panner's disease affects the dominant elbow
of children, mainly boys, between the ages of five and 10.
PATHOPHYSIOLOGY
• Interference in blood supply to growing epiphysis, which results in resorption & eventual repair & and replacement of the ossification center
• In patients under 20 years of age, capitellum is only supplied by end arteries entering posteriorly;
• - inciting causes: - chronic repetitive trauma, congenital and hereditary factors, embolism (fat), and endocrine disturbances;
Clinical manifestations
• Intermittent pain and stiffness in the affected elbow that lasts for several months
• Symptoms are relieved by rest and aggravated by activity
• local tenderness over capitellum, limited extension is typical, lacking 20 to 30 deg of full extension
• There may be slight loss of pronation and supination w/ tenderness
RADIOLOGY
• An irregular surface on the capitellum. The entire growth plate may appear fragmented and transparent. The capitellum may appear flattened out, which means that the bone has coapsed
• The MRI can give a better view of bone irregularities. The MRI can also detect swelling.
TREATMENT
• Children may need to stop sports activities for a short time. This reduces the pain and inflammation
• NSAIDS to help reduce pain and swelling. Physical therapy such as heat, ice, and ultrasound may be used to ease pain and swelling.
• In severe cases, when regular treatment is not effective, doctors may recommend that the child wear a long-arm splint or cast for three to four weeks.
OSGOOD–SGHLATTER DISEASE
• Osgood–Schlatter disease or syndrome (OSD) is an irritation of the patellar ligament at the tibial tuberosity
Osgood Schlatters disease is a very common cause of knee pain in children and young athletes.
It occurs during the period of rapid growth, due to a combined high level of sporting activity who play soccer, basketball, and volleyball, and who participate in gymnastics
It occurs more frequently in boys than in girls, with reports of a male-to-female ratio ranging from 3:1 to as high as 7:1. [1]
PATHO-MECHANICS
Following an adolescent growth spurt, repeated stress from contraction of the quadriceps is transmitted through the patellar tendon to the immature tibial tuberosity.
This can cause multiple sub-acute avulsion fractures along with inflammation of the tendon, leading to excess bone growth in the tuberosity and producing a visible lump which can be very painful when hit.
Activities such as kneeling may irritate the tendon further.
Sayantika Dhar
What Makes OSD Worse?o squattingo runningo walking up or down stairso cyclingo forceful contractions of the quadriceps muscleo jumping (basketball, volleyball)o kneelingo repetitive hard landings
Anything that puts excessive stress on the insertion of the patellar tendon
Symptomso Main symptom - painful swelling over a bump on the tibia on one or both sides
o Pain: mild and intermittent initially. o Later stages- the pain is severe and continuous
in nature.o Pain usually resolve with treatment but may recur for
12–24 months before complete resolution at skeletal maturity, when the tibial epiphysis fuses.
Palpation: The area is tender to pressure, and swelling ranges from mild to very severe.
Painful swelling
Radiographs
Sayantika Dhar
Conservative Management
o Regular stretching, both before and after exercise and
athletics, can help prevent injury
o NSAIDS for pain relief &rest (3 days) and decreasing
activity (1-2 weeks)
o Ice - over the painful area, 2 to 3 times a day, 20 to 30
minutes at a time,
o Bracing, Orthopedic casting
o Infra patellar strap – 6 to 8 weeks
Surgical Management
• Surgery may be considered if symptoms are persistent and severely disabling & include -Excision of intra-tendon ossicles -Tibial sequestrectomy
SEVERE’S DISEASE
• Inflammation of the calcaneal apophysis which occurs in children and adolescents due to repeated 'microtrauma' at the site of the attachment of the Achilles tendon to the apophysis of the heel, often result of sporting activities
AETIOLOGY
• The line of ossification in the calcaneal apophysis is thought to develop microfractures due to recurrent stresses on the heel, combined with the growth spurt of puberty. It is caused by decreased resistance to shear stress at the bone-growth plate interface.
CLINICAL FEATURES
• Heel pain, usually in young physically active individuals, which is gradual in onset, and worse on exercise, especially running or jumping relieved by rest. Often bilateral.
• Tenderness on palpation of the heel - particularly on deep palpation at the Achilles tendon insertion.
• Pain on dorsiflexion of the ankle - particularly when doing active toe raises; forced dorsiflexion of the ankle is also uncomfortable.
• Swelling of the heel - usually mild.• Calcaneal enlargement - in long-standing cases
• X-ray of the heel may show increased sclerosis and fragmentation of the calcaneal apophysis – but these features are nonspecific and it may be normal
• CT or MRI scan may be useful to exclude osteomyelitis or fusion of the small bones of the hindfoot.
TREATMENT
• Physiotherapy and exercises• Soft orthotics or heel cups.• Advice on suitable athletic footwear. In severe cases:
temporarily limiting activity such as running and jumping.
• Ice and non-steroidal anti-inflammatory drugs (NSAIDs), which can reduce pain
• In very severe cases, a short period of immobilisation (eg 2-3 weeks in a case in mild equinus position)
Sinding-Larsen-Johansson Disease:
• - osteochondrosis of the inferior pole of the patella - presents as anterior knee pain in the active adolescent - usually resolves with skeletal maturation ossification
• The mechanism in Sinding-Larsen Johansson disease is thought to be persistent traction at the cartilaginous junction of the patella and the patellar ligament/tendon
It is essentially a chronic stress injury with overuse of the patella-patellar tendon junction
• Knee X-ray: can show calcification or ossification at the junction between the patella and the patella ligament
• Physiotherapy is the mainstay of treatment, including quadriceps strengthening exercises
KIENBOCK DISEASE
• Avascular Necrosis of Lunate• First Described by Robert Kienbock in 1910; as
“traumatic softening” of Lunate bone
AETIOLOGY
• Aetiology = unknown, but several cause have been proposed
• Vascular compromise from repetitive trauma causes microfracture & excessive stress on microscopic architecture (sports injury)
• Ulnar minus variant:- Individual having ulnar minus variance are at increased risk. Short Ulna increases shear force across the lunate Causes vascular insufficiency
EPIDEMIOLOGY
• Age= 15-40 (young individuals)• Sex= Men• Location= Unilateral, Dominant wrist
CLINICAL FEATURE• There may be history of trauma with wrist in severe
dorsiflexionThe lesion presents with1. Dorsal wrist pain:- Pain may be produced in lunate
region by axial strike/injury at distal end of middle finger
2. Swelling3. Decreased Grip strength4. Decreased range of motion; particularly in extension.
In later stage movement may be painful
IMAGING
• X-ray at first show no abnormality but• Bone scan may reveals increased activity• Later x-ray may show either mottled or diffuse
density of bone – to – osteoarthritic changes in wrist
• MRI Most reliable way of detecting the early change
TREATMENT
A ConservativeCasting of wrist for several wks ; for early
stages of disease ( St I or II, before sclerosis, fragmentation or collapse)
But- Unacceptable & IneffectiveB Operative • Surgery is only definitive treatment
Early Disease Stage I & II
• Unloading the Lunate*• 1. Ulnar lengthening• Transverse osteotomy at distal ulna
Distraction Cortical iliac graft Tightening of plate screw
Early Disease Stage I & II
2. Radial ShorteningIndication
– Negative ulnar variance– Lunate compression fracture without fragmentation or
flatteningProcedure
Transverse osteotomy 3” proximal to distal articulating surface
shortening of radius by 2 cm
fixing the bone with compression plate
• Vascularized grafts include the distal radius based on the pronator quadratus, the pisiform as a pedicle graft, and various other grafts from the distal radius, second metacarpal, and pisiform.
• These procedures also are effective in relieving pain and improving function in approximately 90% of patients
In stage III
1. Ulnar lengthening2. Silicon prosthesis
- silicon synovitis- foreign body cyst
3. Interacarpal fusion4. Lunate excision5. Arthrodesis Tri scaphe
Scaphocapitate
In stage IV
• Proximal carpal row resection• Wrist arthrodesis
ISELIN DISEASE
• Traction epiphysitis of the base of the fifth metatarsal occurring in young adolescents at the time of appearance of the proximal epiphysis of the fifth metatarsal
• This bone is located within the cartilaginous flare onto which the peroneus brevis inserts
PRESENTATION
• Tenderness over a prominent proximal fifth metatarsal. • Weight bearing produces pain over the lateral aspect of
the foot.• The affected area over the tuberosity is larger on the
involved side, with soft-tissue edema and local erythema.
• The area is tender to palpation at the insertion of the peroneus brevis, and resisted eversion and extreme plantar flexion and dorsiflexion of the foot elicit pain.
• Oblique radiographs- enlargement and fragmentation of the epiphysis and widening of the cartilaginous-osseous junction.
• Technetium-99m bone scanning-incresed uptake
DD
TREATMENT
• For mild symptoms, limitation of sports activity, application of ice, and administration of NSAIDS
• For severe symptoms, cast immobilization may be required. Internal fixation of the epiphysis is not indicated.
SCHEUREMANN’S DISEASE
• It is essentially osteochondrosis of the vertebrae
• It affects the thoracic or thoracolumbar spine causing increased kyphosis, poor posture and possible backache. It is the most common cause of structural kyphosis in adolescents.
PATHOPHYSIOLOGY
• A defect in the secondary ossification centres of the vertebral bodies. A few vertebral bodies may be involved or the whole thoracolumbar spine.
• Hereditary factors are thought to play a part• Taller height, as well as an association with
increased levels of growth hormone, have also been suggested
• Mechanical factors and trauma
Epidemiology
• Usually presents in children aged 13-16 years old.
• Occurs more commonly in boys.
Presentation
• Poor posture with increased kyphosis (usually noticed by parents).
• Pain is a more common presentation if the disease affects the lumbar spine. Pain is usually dull aching worse on activity and relieves on rest
• Neurological symptoms may rarely be the presenting feature
• Cardiorespiratory symptoms can also rarely occur.
Examination
• It is normal to have a degree of kyphosis. Any degree of kyphosis of more than 40° is considered abnormal
• Kyphotic deformity may be progressive.• Upper thoracic kyphosis is best seen in the forward flexed
position; lower thoracic kyphosis may be seen at the thoracolumbar junction.
• There is reduced flexibility of the spine.• There may be tenderness above and below the apex of the
kyphosis.• Scoliosis may also be present• Neurological signs are rare.
RADIOGRAPHY
• Wedge-shaped vertebral bodies• Rigid kyphosis• Narrow intervertebral disc spaces with
calcifications• Prominent irregularities of the vertebral
surfaces• Vertebral plates that are poorly formed and
that develop multiple herniations of the nucleus pulposus known as Schmorl nodes
TREATMENT
• Mild, nonprogressive disease can be treated by reducing weight-bearing ,stress and avoiding strenuous activity
• For severe kyphosis , recommendations include casting, a spinal brace, or rest and recumbency on a rigid bed. Orthotic Mx usually requires 12-24 months of treatment.
• Non-steroidal anti-inflammatory drugs may be used for pain relief
• Surgery ,if there is neurological deficit, uncontrolled pain, unacceptable cosmetic appearance or documented progression
• Cord decompression for neurological deficit and
• Spinal fusion techniques for kyphosis correction and pain control.
Complications
• Chronic back pain.• Progressive and permanent deformity.• Neurological deficit.• Cardiorespiratory problems.
THANK YOU