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Low Back Pain H Shraideh, MD, FAANS Department of Neurosciences, JUST

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Low Back Pain H Shraideh, MD, FAANS Department of Neurosciences, JUST

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    1. Low Back Pain H Shraideh, MD, FAANS Department of Neurosciences, JUST

    2. Anatomy/ Spine

    3. Anatomy Vertebra – body, neural arch, bony process Ligaments & muscles = stability Cervical nerve roots pass above body (All others pass below)

    4. Epidemiology 50-60% Life time incidence of LBP 15-30% prevalence among adults 1% of population are disabled because of LBP 15% of the sick leave 85% no specific diagnosis can be made Highest prevalence 40-60 year of age Overall incidence of LBP 45/1000 person per year M=F

    5. Clinical presentation LBP +/- radiculopathy Pain exacerbated with physical stress and relieved with bed rest P/E differentiate mechanical (non-specific) LBP from serious spinal conditions (radiculopathy or cauda equina syndrome caused by PID, tumors, infections…..)

    6. History / red flags Hx of cancer (prostate, breast, kidney, thyroid, lung) Unexplained wt loss Immunosuppression Pain that worse at rest psuedoclaudication Pain not responding to conservative Rx Skin or other systemic infection Urine and fecal incontinence

    7. Examination / red flags Fever Spinal deformity Tenderness & L.O.M +ve SLR test Motor and /or sensory deficits

    8. Recommendations absent red flags Bed rest Activity modification Analgesia Reassurance > 85 % show improvement within 4 weeks without the need for diagnostic studies

    9. Diagnostic work / pts with red flags Plain L.S Xray L.S CT scan L.S. MRI L.S. Myelography

    10. Lower back pain + red flags PID; Traumatic (Acute) vs degenerative (gradual) Spinal tumors (intradural vs extradural) Spinal infections (osteomyelitis, epidural abcess)

    11. PID Displacement of disc material beyond confines of the disc space Pain start with back pain, which after days or weeks produce radicular pain with reduction of the back pain Precipitating factors are identified < 20% of cases Radicular pain is relieved by flexing the knee and hip Pain exacerbated by coughing and sneezing or straining (cough effect) Bladder symptoms (usually retention) < 5%

    12. PID Physical signs (NL-sensory & motor loss) Lesègue sign (slow leg raising test)

    13. PID

    14. PID

    15. Disc Herniation L4-5, L5-S1 most common Cervical and thoracic do occur Thoracic: abrupt neuro deficits Narrow canal Postero-lateral aspect of the disc

    16. Disc Herniation Not necessary to have history of strain or injury Unilateral radicular back pain with nerve root impingement

    17. Disc Herniation X-ray only good if inter-vertebral disc is narrow MRI is gold standard Electromyelography localizes the specific nerve root

    18. Disc Herniation

    19. PID Most common at L4-L5 & L5-S1 Bulge, protrusion, extrusion, sequestered, migrated Midline or lateral

    20. PID

    22. PID

    23. DDD Aging process Progressive dehydration of the nucleus pulposus and loss of disk volume Degenerative tear in the annulus with herniation of the nucleus pulposus through this tear. Present with L.B.P and L.O.M

    24. DDD Three Phases: phase I, circumferential tears or fissures in the outer annulus. +/- endplate separation or failure, interrupting blood supply to the disk and impairing nutritional supply and waste removal. Such changes may be the result of repetitive microtrauma. Circumferential tears may coalesce to form radial tears.

    26. DDD Phase II; The unstable phase, loss of mechanical integrity of the trijoint complex. Internal disk disruption (IDD), loss of disk-space height. Concurrent changes in the facet joints include cartilage. leading to segmental instability (Spondylolisthesis).

    27. DDD Phase III; Stabilization phase, characterized by further disk resorption, disk-space narrowing, endplate destruction, disk fibrosis, and osteophyte formation

    28. DDD

    29. Disc Herniation Initial therapy is to decrease pressure on the root Bed rest up to 4 weeks Non-steroid anti-inflammatory Muscle relaxants

    30. Disc Herniation Absolute indication for surgery Significant muscle weakness Progressive neurological deficit with bed rest Bowel or bladder dysfunction

    31. Disc Herniation Relative indication for surgery Pain despite bed rest Recurrent episodes of severe pain

    32. PID / Discectomy

    33. PID / Discectomy

    34. PID / Discectomy

    36. Discectomy / Complications Infection (superficial vs deep) Increased deficit (injury to neural structure) Dural tear (CSF leak) Complications of positioning Failed surgery (incorrect dx, incomplete surgery) Vascular injury

    37. Thecal sac compression Malignant epidural spinal cord compression (MESCC) Spinal epidural abscess (SEA) Spinal epidural hematoma (SEH)

    38. Thecal sac compression Factors Force of compression Direction of compression Rate of compression

    39. MESCC Hematogenous spread Bone marrow Compress cord and vascular supply Edema, infarction

    40. MESCC Prostate Lung Breast Non-Hodgkin’s lymphoma Multiple myeloma Renal cell cancer

    41. MESCC Initial presentation in 20% of malignancies Cervical, thoracic & lumbar by proportion of vertebral body volume Thoracic is most common

    42. MESCC 95% have back pain Precedes other symptoms by 1-2 months Percussion tendencies, thoracic location, worse lying down

    43. MESCC 75% have weakness by time of diagnosis Weakness symmetric Ascending numbness Autonomic dysfunction, urinary retention

    44. MESCC Plain X-ray 10-17% false negative 30-50% of bone must be destroyed for X-ray to be positive MRI, CT myelography are standards

    45. MESCC Plain X-ray 10-17% false negative 30-50% of bone must be destroyed for X-ray to be positive MRI, CT myelography are standards

    46. MESCC

    47. MESCC Corticosteroids first line for edema Dexamethosone, 20-100 mg load, 4-24 mg 4 times/day Radiation therapy within 24 hours

    48. MESCC Surgery for: unresponsive to radiation therapy Acute neurological deteriorations Chemotherapy – Non-Hodgkin’s lymphoma

    49. The Case 55 yo male with low back pain. The pain is sharp, right-sided, worse with movement and non-radiating. He has no weakness, numbness or incontinence. No hx of trauma. Pmhx: HTN, irritable bowel syndrome, cervical disc herniation Meds: none Sochx: alcohol use PE: afebrile, VSS Back: mild tenderness right paraspinal area, L2-3 Neuro: normal What do you want to do?

    50. The Case He is given NSAI which makes him better and is sent home. 5 days later he is at a new hospital with the complaint of back pain, says it is the same as before, “I ran out of my medicine”. PE: Afebrile, VSS Back: right paraspinal tenderness, worse with movement Neuro: numbness anterior and med thigh What do you want to do?

    51. The Case He has an abdominal CT scan to R/O renal stone which was normal. He is given a shot of paracetamol which makes him feel better and is discharged with paracetamol and Valium. He returns 2 days later with worsening pain that radiates to the right foot and left knee. He has numbness to the thighs and groin, and has been incontinent of stool. PE: Afebrile, VSS Back: diffuse tenderness to lumbar spine palpation Neuro: RLE- 3/5 strength, numbness anterior and med thigh, decreased reflex. LLE- 4/5 strength. What do you want to do?

    52. The Case

    53. The Case MRI is done which confirms a compressive lesion from L2 to L4. WBC = 18,000. The patient is given antibiotics and is admitted to neurosurgery. An L3-L4 laminectomy is done and pus is drained. Organism= Streptococcus and Stomatococcus mucilaginosis Patient was discharged to a rehab facility on hospital day 13 for 6 weeks of Vancomycin therapy. At the time of discharge he was continent, but could only ambulate with assisted use of a walker.

    54. Conclusion Back pain is common in the ED Radicular pain requires diligence to find the cause The severity of spinal cord compression is related to force, duration and rate Emergent therapy is necessary “Spinal Cord Attack”

    55. SEA Risk Factor IVDA Diabetes Trauma Prior spinal surgery or nerve blocks Immune compromised host

    56. SEA Presenting Complaints Back pain Paresthesias Motor deficits Fever

    57. SEA Diagnosis WBC Sedimentation Rate MRI = gold standard

    58. SEA Organisms Staphylococcus aureus - Methicillin resistant – 15% Streptococcus Escherichia coli Pseudomonas Klebsiella Mycobacterium Tuberculosis

    59. SEA Treatment Surgery – depending on severity of neuro deficits Extent of spine involved Infecting organism Antibiotics

    60. SEA Non-Operative Indications Panspinal involvement Lumbosacral SEA and normal neuro exam Fixed neuro deficit for > 48 hours

    61. SEA Antibiotics Start immediately Vancomycin Aminoglycoside or 3rd generation cephalosporin 4 to 6 weeks

    62. Vertebral Osteomyelitis

    63. VO / Epidural abcess

    64. Spinal Epidural Hematoma (SEH) Risk Factors Coagulapathy Trauma Vascular lesion Surgery Epidural catheterization

    65. SEH Diagnosis Back pain, neuro deficit Symptom onset to max. neuro deficit = 13 hours All segments of spinal cord MRI = gold standard Plain X-ray or CT scan for fractures or dislocation

    66. SEH Treatment Surgical evacuation Immediate surgery within 12 hours of presentation had better outcome than later surgery

    67. LBP Spinal stenosis Ankylosing spondylitis Spinal tumors

    68. First line of therapy for epidural spinal cord compression from metastatic cancer is: A. Radiation therapy B. Surgery C. Corticosteroids D. Chemotherapy

    69. The most common site of epidural spinal cord compression from metastatic cancer is: A. Cervical spine B. Thoracic spine C. Lumbar spine D. Sacral spine

    70. All of the following are indications for non-operative treatment of spinal epidural abscesses except: A. Pan-spinal involvement B. Lumbosacral SEA and normal neurological exam C. Fixed neurological deficits for greater than 48 hrs D. Urinary incontinence and sensory deficit

    71. All of the following contribute to the severity of spinal cord compression except: A. Force of compression B. Length of spinal cord compressed C. Duration of compression D. Rate of compression

    72. The most common organism cultured in spinal epidural abscesses is: A. Streptococcus B. Pseudomonas C. Staphylococcus aureus D. Klebsiella E. Mycobacterium tuberculosis

    73. Objectives Discuss the different types of LBP Review anatomical principles Review nontraumatic etiologies for LBP Treatment options for patients with LBP

    74. Nerve Root Diagnosis L4 Pain = lateral back, antero-lateral thigh, anterior calf Numbness = anterior thigh Weakness = quadriceps Diminished knee jerk Squat and rise

    75. Nerve Root Diagnosis L5 Pain = hip, groin, postero-lateral thigh, lateral calf and dorsum of foot Numbness = lateral calf Weakness = dorsiflex great toe Heel walking

    76. Nerve Root Diagnosis S1 Pain = mid-gluteal region, posterior thigh, posterior calf to heel & sole Numbness = posterior calf Weakness = plantar flex great toe Diminished ankle jerk Walk on toes

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