Post on 12-Jan-2022
Lumbar Disc Protrusions
Rodney Gordon Middlemore Hospital
Pathophysiology
Herniated Disc – especially nucleus pulposus, is not inert • Inflammatory • Biochemical • Vascular • Compressive
Inflammation - Radiculopathy
Olmaker (Spine 1995) Epidural application of autologous nucleus pulposus without pressure caused impairment of nerve function and axonal injury and cell damage
Nucleus is avascular, when exposed it is perceived as an
antigen – intense inflammation
Both associated with significant inflammation - Increased phospholipase A2 - Increase Cytokines - Serotonin/5-HT
Annular Tear and nucleus herniation
Nucleus Pulpous
• Inflammatory induced nerve root injury reverses in 2 months and may be present without nerve root compression (Otani – Spine 1997)
Patients with Disc Herniation/Sciatica
• Increase concentration of neurofilament protein and S-100 in the CSF indicating axonal damage and Schwann cell damage
DRG - PAIN • Severity of pain is worse the closer the disc is to the
DRG. DRG may be a crucial mediator of pain and an important processor in “chemical radiculitis”. Neuron stimulation by non compressing nucleus suggests that pathogenic factors in the nucleus may have a crucial role in the induction of hyperalgesia
• May explain “severe pain without a visually identified protrusion” (Anzai)
Radiculopathy
• Biochemical Process – Cytokines/PG’s etc • Mechanical process – compression – local damage/
ischaemia • Chronically compressed nerves acquire a tolerance to
acute compression • Chronic double level compression does not induce more
changes than single level compression but recovery is less complete
Radiculopathy Mechanical compression is not necessary for induction of
pain involving a nerve root irritated by the nucleus pulposus. Such affects can involve adjacent or contralateral roots. This may explain why symptoms may be present from multiple levels even when the herniation is limited to one level (Olmarker – Spine 1998)
Vascular Pathophysiology • Nerve root injury adjacent to areas of nucleus pulposus leakage
through the annular tear may have a vascular pathophysiological mechanism. This findings may explain symptomatic sciatica without radiographic or surgical evidence of disc herniation.
• Application of nucleus pulpous to nerve root – Increase endoneural pressure – Decrease blood flow in the DRG – ?? “Compartment Syndrome” in the DRG
Clinical Anatomy • Contained
– Central – Posterolateral – Foraminal – Extraforaminal
• Non Contained – Extruded – Sequestrated
• Subligamentous – wrt the PLL • Transligamentous - wrt the PLL
E Carrage (JBJS 2003) 1. Fragment-fissure herniation (49%) best outcome
1% reherniation 1% reoperation
2. Fragment-defect herniation (18%) 27% reherniation 21% reoperation
3. Fragment contained herniation (23%) 10% reherniation 5% reoperation
4. No fragment contained herniation (9%) 38% recurrent/persistent sciatica Standard outcome scores less improved (Signif)
Carragee
• Degree of annular competence after discectomy • Type of herniation
– Both have value for the prediction of recurrence, reoperation, and clinical outcome following discectomy
Carragee - Conclusion
• Intraop findings were more clearly associated with outcomes than were demographic, socioeconomic, or clinical variables
Ito et al– Spine 1996 Neovascularisation
• Neovascularisation of herniated discs – Sequestrated (common) – Protrusions – less frequent – Subligamentous extrusions – less frequent
• Neovascularisation did not lead to scarring, more like absorption
• Clinical course ≥ 30 days – more prominent absorptive process
Ito et al
• Contained disc herniation – protrusion/subligamentous extrusion
• Non contained disc herniation – transligamentous extrusion/sequestration
Ito et al • Non contained disc herniation – direct contact with
epidural tissue • Contained DH – no contact
Absorption
• Larger disc herniation – greatest tendency to decrease in size (Saale and Maigre)
• Unfortunately it is difficult to differentiate between the types on an MRI scan
• Conservation Rx should not be prolonged beyond 3 months (Ito)
Ito et al Attempted Conservation Mx
Surgery offered if Cons Mx failed/cauda equina syndrome / progressive nerve deficit
Rare for surgery to be needed ≥ 2/12 after onset of
symptoms for non contained herniation (extremely rare at > 4/12)
Symptoms in patients with contained herniation last longer
and operative Tx may be necessary even 4/12 after onset of symptoms
Ito et al
• Non contained lumbar disc herniation can be treated without surgery if these patients can tolerate the symptom for the first 2 months
Physical Examination
• Mannequin Sign (100% reproducible, 80% specificity) – Antalgic posture – Relevant hip and knee flexed – Pelvic tilt towards affected side
Treatment • Microdiscectomy – rapidly taking hold as the gold
standard – More cost effective – Less postoperative pain – Less work days lost – Improved visualisation – Better binocular vision through smaller incision
Microscopic • Optics of the microscope condense the 3D line of vision
to 22 mm – No matter how deep the wound, as long as it is
>22mm diameter, 3D will be maintained • Interpupillary distance ~ 62 mm • To maintain 3D vision with loupes - require a skin
incision ≥ 62 mm • If skin incision < 62 mm = monocular vision
Surgical Indications
• Cons Mx failed at 6 weeks • Cauda Equina syndrome • Increasing neuro defect • Painless severe nerve defect • Recurrent sciatica after a successful trial of Cons Mx • Signif motor deficit with tension signs • Herniation into an already stenotic canal • Large extruded fragment • Intractable pain
Prognosis
• Larger A-P disc length • Small disc width • Large medio-lateral canal width
– Robust correlation with good surgical outcomes
Prognosis
• The degree of neurological deficit does not correlate with outcome
• Patients with weakness can improve with non operative treatment
McCulloch 1. LDH = common (1% of population) 2. > 90% improve with non operative Mx 3. 2-4% are surgical candidate 4. MRI will reveal LDH in 30% of asymptomatic adults less
than 60 years 5. Surgical intervention will improve short term outcome –
with little long term difference 6. Surgical intervention is rarely indicated before 6 weeks
from onset of symptoms but should not be delayed beyond 3-4 months
7. Discs will continue to degenerate with Sx or conserv Mx 8. Scar tissue will form if repeated discectomy is required
Painless Weakness
• A dissociation between pain and sensorimotor dysfunction should not be a contraindication to providing the patient an opportunity to receive surgical relief for nerve compression if non operative measures fail.
• But Lipetz et al conservatively treated 7 consecutive patients with painless weakness with full recovery in 100%
Red Flags • History of signif trauma • Cancer • Constitutional symptoms • Night pain • Immunosuppression • Recent infection • Bladder/bowel dysfunction • Bilat neurological deficits • Saddle anaesthesia • Progressive neurological deficit • Unremitting pain