Spinal Cord

Question 1

Compression of the spinal cord from outside in will first affect which tract?

Answer 1

Spinothalamic

• pain/temp
• will give a sensory level

Question 2

Where is T4/T10?

What touches T2 in the chest?

Answer 2

• T4 = nipple
• T10 = umbilicus
• C4 touches T2; C5-8 and T1 are pulled out in the arm

Question 3

Tract of urinary control from cortex to spine

Answer 3

• Frontal lobe: micturition inhibiting center; motor sphincter control
• Deep brain: basal ganglia, pontine micturition center, cerebellar vermis
• Spine: sacral motor nuclei (sphincteromotor nucleus, AHCs, PSNS nuclei), sympathetics from T11-L1
• Urethral and bladder afferents/efferents are at S2-S4

Question 4

Acute vs. Chronic bladder dysfunction

Answer 4

Acute = urinary retention
Chronic = spastic bladder, urinary frequency

Question 5

When a patient has a myelopathy what do you do?

Answer 5

• if acute/subacute: consider it a neurologic emergency
• take a good history, ask where it hurts/palpate, check for fever, do neuro exam (including motor, sensory, reflexes, and gait)
• get imaging (MRI) - looking for compression, masses, structural abnormalities
• if MRI is negative, do LP
• if acute/subacute, tx is usually steroids; if chronic tx will be directed toward the underlying cause

Question 6

Progression of an epidural lesion

Answer 6

• Occurs over hours to days
  A. first CST/motor sx - even if not weak will see hyperreflexia, +Babinski, and difficulty walking; sensory loss at the level 2/2 DRG compression; urinary urgency (common and they may leave it out)
  B. motor - legs get spastic and weak; sensory sx are worse with contralat. numbness and ipsilat epicritic loss; definite sphincter dysfunction
  C. flaccid muscles, areflexic; complete sensory level to all modalities; if acute then spinal cord shock is likely

Question 7

Types of extradural myelopathies

Answer 7

• disc disease (w/ edema)
• mets
• abscess
• also: hemangioma, hemorrhage, other cancer, etc.

Question 8

Types of intradural, extramedullary myelopathies

Answer 8

• nerve sheath tumors (Schwannoma/neurofibroma)
• meningioma
• also: tumor seeding (CNS tumors), cauda equina lesions, cyst, clot, etc.

Question 9

Types of intramedullary myelopathies

Answer 9

• syringomyelia
• tumor (ependymoma, glioma, hemangioblastoma)
• myelitis
• also: edema, lipoma, abscess, hematoma, mets, etc.

Question 10

Spinal cord trauma

Answer 10

• acute spinal cord compression, with hematoma and/or infarct, maybe cord transection
• IV methylprednisolone for 24hrs

Question 11

Causes of spinal cord dysfunction in patients with cancer

Answer 11

• epidural cord compression (tumor [gets in vert, weakens, expands], abscess, hematoma)
• intramedullary processes (mets, abscess, hematoma, syrinx)
• other myelopathies (rad/chemo, paraneoplastic)
• neoplastic meningitis
• spinal arachnoiditis
• *BLT with KP

Question 12

Most metastatic cancer begins in ____. Most spinal abscesses begin in ____.

Answer 12

vertebral body
disc space (MCC is S. aureus)

Question 13

Pott’s disease

Answer 13

TB of the spine

• osteomyelitis of vertebral bodies
• will see paraspinous abscess and bony destruction on imaging
• can cause kyphosis
• stain CSF for tubercle bacilli

Question 14

Where does spinal meningioma occur?

Answer 14

Intradural, extramedullary

• common in thoracic spine
• classic pt is a middle aged woman

Question 15

Progression of a Central Cord lesion

Answer 15

Compressing the spine from inside to out
A. begins with pain; anterior white commissure is involved early so loss of pain/temp bilaterally
B. severe loss of pain/temp; post columns spared until late (called “dissociated sensory level”); afferent reflex arc is compressed, reflexes lost; CST involvement means spastic paraparesis, +Babinski
C. symptoms worsen; sacral sparing because these fibers are most lateral; may involve face if high enough to hit sensory nuc of CN5

Question 16

Anterior spinal cord syndrome

Answer 16

• supplies the anterior 2/3 of the spinal cord (1 ant : 2 post arteries)
• if occluded will cause dissociated sensory level (won’t touch dorsal columns) and arm > leg paralysis/paresis (ant–>post goes arm/trunk/leg in CST)

Question 17

What does spinal cord shock look like?

Answer 17

• acute myelopathy
• flaccidity
• complete sensory level to all modalities
• urinary retention (if full bladder, likely distended abdomen)

Question 18

Subacute combined degeneration of the spinal cord

Answer 18

• from B12 deficiency/pernicious anemia
• causes bilateral lesions in dorsal columns and CSTs in spine
• therefore spastic weakness of LEs and decreased vibration/proprioception sense; +Romberg sign

Question 19

HTLV-1

Answer 19

• causes HAM (HTLV1 associated myelopathy)
• pt gets paraparesis, CNS is infiltrated by monocytes; axons are demyelinated and degenerate (CST > PCs)
• CSF shows oligoclonal bands and increased IgG

Question 20

Vacuolar myelopathy

Answer 20

• neuro complication of HIV
• progressive spastic paraparesis
• vacuolation and myelin pallor in PC/LC)
• looks like B12 deficiency

Question 21

Tabes dorsalis

Answer 21

• ‘wasting away’ of dorsal columns
• complication of neurosyphilis
• +Romberg sign

Question 22

What is MS?

Answer 22

• chronic inflammatory disease of CNS involving destruction of myelin, their axons, and the neurons
• plaques form (inflammation and sclerosis) where the myelin was
• get mulstiple episodes of loss of neuro function (relapse) separated by time and space (areas of function)
• overall progressive disability - each time you relapse it recovers but not as well
• dx: MRI finds plaques within white matter; CSF will have inflammatory profile with high IgG and oligoclonal bands; no NTs

Question 23

Uhthoff’s phenomenon

Answer 23

• MS symptoms that worsen in the heat or an increase in body temp
• occurs because of poor electrical conduction along demyelinated axons
• don’t put the patient in a hot bath anymore, they’ll get paralyzed and stop breathing

Question 24

MS Plaques on MRI and pathology

Answer 24

• MRI will find the plaques which are diagnostic of MS
• if new plaques, they will be gadolinium-enhancing and hyperintense; this represents active inflammation and breakdown of BBB that allows gadolinium to illuminate the white matter (in brain and/or spinal cord)
• in brain they are periventricular or juxtacortical
• @ edge is robust inflammatory response: monocytes, T cells, B cells, and MPs - but NOT NTs

Question 25

Visual evoked response (aka VEP)

Answer 25

• also called P100 because it normally takes 100msec for light to reach V1 from retina
• in MS may see normal P100 on one side, abnormal/delayed on the other side

Question 26

Pathogenesis of MS

Answer 26

• immune-mediated disease of CNS: LCs penetrate BBB, release cytokines, AI attack on myelin antigens
• etiology unknown, perhaps 2-hit style
• TH1 cells get into BBB, stimulate B cells to make Abs, and MPs to eat myelin; TH2 cells reduce the process a little

Question 27

Relapsing/Remitting vs. Primary Progressive MS

Answer 27

• relapsing remits - exacerbations, then complete or incomplete recovery; slow inconsistent disability accumulates; F>M, 85% of MS cases
• PPMS is a steady progression without relapses; F=M; develop spastic paresis over years, weakness, also sensory disturbance and urinary sx - from CST damage
• if RRMS turns into progressive, then it’s call secondary progressive MS

Question 28

Natural history of MS

Answer 28

• avg age of onset 15-45yr
• mortality after about 25yr
• 50% of pts need walking aid w/in 15yr of dx
• average relapse is 1 per yr; fewer over time
• 25% of pts never lose ADLs

Question 29

MS Diagnosis

Answer 29

• clinical signs/sx (subacute onset): MC are optic neuritis, myelitis, CN issues (3/5/7/8/etc), cerebellar ataxia
• MRI: gadolinium enhanced are best for evaluating progression
• LP: look for elevated MBP, oligoclonal banding
• VEP

Question 30

Clinically isolated syndrome

Answer 30

• a clinical episode that suggests a first relapse in a patient with MS
• can manifest as optic neuritis, internuclear ophthalmoplegia, partial transverse myelitis
• lasts at least 24hr, around age 20-45
• w/o evidence of infection, fever, or encephalopathy

Question 31

How to diagnose MS?

Answer 31

• a clinical diagnosis: need 2 attacks, symptomatically distinct, at 2 different times
• 2 distinct clinically isolated syndromes will qualify; or an MRI with a gad-enhancing plus a non-gad-enhancing lesion in different brain regions
• only 1 attack–> you have Monosymptomatic MS (aka CIS); w/o MRI lesion 20% chance of MS in 14yr; if >1 lesion ~90% chance
• to dx, r/o conditions that mimic MS (stroke, vasculitis, Lyme, HIV, HTLV-1, B12 def, structural lesions, etc.)

Question 32

Treatment for MS

Answer 32

• steroids to help acute attacks

- immune modulating drugs (IFN, mabs, etc.)

Question 33

Transverse myelitis

Answer 33

• acute neuro condition (usually asymmetric) reflecting focal inflammation of the spinal cord
• well-defined sensory level; may have motor/sensory/sphincter disturbances
• hyperintense on T2 weighted MRI; acutely gad-enhancing
• no evidence of spinal cord compression, no back pain, may be the first sign of MS (30% chance)
• treat with IV steroids

Question 34

Neuromyelitis Optica (NMO)

Answer 34

• a disorder of inflammation and demyelination of both the optic nerve and spinal cord
• central spinal MRI lesion (gad-enhancing) in 3/more VB segments
• test positive for aquaporin-4 Abs (“NMO IgG”) - this is ab-mediated demyelination, axonal injury, and necrosis
• path: demyelination of gray/white matter with eosinophils; infiltration by MPs; thick hyalinized vessels with complement deposition
• tx: aggressive immunosuppression

Question 35

Internuclear ophthalmoplegia (INO)

Answer 35

• dysconjugate lateral gaze that results in the affected eye being unable to adduct
• results from damage to MLF; seen in MS