Cauda Equina Syndrome M. Creech Feb 2012. Outline Definition Epidemiology Pathophysiology...
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Transcript of Cauda Equina Syndrome M. Creech Feb 2012. Outline Definition Epidemiology Pathophysiology...
Cauda Equina Syndrome
M. CreechFeb 2012
Outline
• Definition• Epidemiology• Pathophysiology• Presentation• Imaging• Treatment• Outcomes
Definition
• Cauda equina: “horse’s tail”– refers to the terminal portion of the
spinal cord and roots of the spinal nerves beginning at the L1
• Cauda Equina Syndrome (CES):– is a compression of some or all of
the nerve roots of the cauda equina– symptoms:
• bowel and bladder dysfunction• saddle anesthesia• varying degrees of loss of lower
extremity sensory and motor function
Epidemiology• Causes for CES
– DISC HERNIATION• (1-6% of operated discs are CES)
– Trauma– Tumor– Spinal stenosis – Epidural hematoma/abscess
• Iatrogenic causes:– Lumbar spine surgery– Durotomy– Annuloplasty– Gel- foam – Epidural fat graft placement– Spinal manipulation
Spector et al. JAAOS 2008;16:471-479
Pathophysiology
• Conus medularis: – Caudal end of spinal cord btwn T12 to L2
• Filum terminale attaches conus to coccyx
• Cauda equina is collection of peripheral nerves L1-S5– Contained in dural sac in lumbar spinal canal
• Lesions of cauda equina result in:– Lower motor neuron lesion– Weakness, loss of sensation, decreased
reflexes
CES: Bladder dysfunction
• S2-4 parasympathetic (empty bladder by contract detrusor, and relax internal sphincter)
• T11-L3 sympathetic hypogastric plexus (retain urine by detrusor relaxation, sphincter contraction)
• S2-4 Somatic (pudendal nerve) controls external sphincter
• Reflex arc disrupted by lower motor neuron lesion: – resultant loss of sensation and motor
fxn causes retention and overflow incontinence, as unable to void voluntarily
3 Main Causes of CES:
1. Mechanical Compression
2. Ischemia
3. Venous overflow (compartment syndrome)
Mechanical Compression
• Exposed nerve roots• No epineurium, • No perineurium• Only endoneurium• Increased susceptibility to trauma
Mechanical compression
• Compressing nerve roots also reduces nutrition
• Animal studies (canine model) demonstrated decreased nutrition by reducing both blood flow and nutrient diffusion from the surrounding cerebrospinal fluid
Delamarter; Spine 1991Delamarter; Spine 1991
Ischemia
• Most important observation: watershed area of hypo vascularity around cauda equina
• Primary blood supply of anterior spinal artery, and paired dorsolateral spinal aa
• Nerve roots supplied by distal and proximal radicular artery = anastomosis
• Tentative blood supply that is susceptible to damage
•Parke JBJS A 1981: anatomic studyParke JBJS A 1981: anatomic study
Venous Congestion (Compartment Syndrome)
• Mechanical pressure causes intraneural edema• Directly causes nerve damage• Secondary injury due to increase in intraneural pressure,
when greater than the nerve root perfusion pressure ischemia occurs
• Animal studies (porcine) showed 2 level compression worse than 1 – Preventing outflow
Rydevik et al Clin Orthop Relat Res 1992
Pathophysiology
CES: post-operative spine surgery•lumbar discectomy: retraction or hematoma•reports suggest spinal stenosis and edema cause venous congestion and resultant CES•usually <24hrs, can be 7d before develops•reported CES after arthrodesis for spondylolisthesis, which was detected late 2-7d (5/12 recovered), thought routine urinary catheter (and lack of awareness by surgeon) delayed diagnosis.
Delamarter et al Spine 1991
Pathophysiology
Peri-op anticoagulation: •suggested to start LWMH 2 hrs post lumbar puncture, later or avoid if a “traumatic” bloody tap.•wait 8-12hrs after LMWH before inserting spinal needle
CHEST guidelines:•Elective spine surgery: recommends against mechanical or chemical anticoagulation, recommends mobilization•Resuming pre-op anticoagulants after 48-72hrs•Weighting risk of post-op bleed/ CES vs need for anticoag•Recommend: no loading dose or bridging anticoag
Presentation
Hx:•LBP &/or bilateral leg pain (progressively worsening nature)•Acute vs insidious onset•Inquire about bowel or bladder habits
– difficulty voiding, urinary incontinence, and/ or loss of bowel control
•high index of suspicion of anticoagulated or post operative pts
Presentation
PE:•Myotomes•Dermatomes •Reflexes•Sensation to pinprick in perianal region (S2-S4 dermatomes),•discrimination btwn pinprick/ light touch req’d
– typically preserved sensation to pressure and light touch
Presentation
• Rectal examination: assess tone and voluntary contracture of external anal sphincter
• Decreased rectal tone early finding of CES• Anal wink test
– Tactile stimulus cause contraction of anal sphincter muscles and also flexion
– The stimulus is detected by nociceptors in perineal skin and causes a reflex arc involving the pudendal nerve (S2-4)
– Absence of reflex indicates interruption of reflex arc
• Bulbocavernosus reflex
Bulbocavernosus reflex
• Bulbocavernosus reflex• Segmental polysynaptic reflex with crossover in S1-4• Apply pressure to glans penis or clitoris and/or
traction on the Foley catheter• Normal response involves contraction of the anal
sphincter• Absence of reflex indicates spinal shock
PresentationSymptoms: •LBP, or groin or perineal pain•Bilateral sciatica, leg weakness, sensory deficits•Loss of bowel or bladder fxnSigns:•lower extremity weakness•hypo/ areflexia, sensory deficits, perineal hypoesthesia or saddle anesthesia, loss of bowel or bladder function•Saddle anesthesia: late finding/ poor prognosis•Bladder dysfxn (required for dx)•Difficulty initiating flow > retention> overflow(often have prodrome of sciatica/ LBP)•LBP: often severe, or resolving, bilateral sciatica is most associated with CES
Presentation
Acute:•Sudden severe LBP, sciatica, urinary retention requiring catheterization, motor weakness of LE, and perineal anesthesia
– most commonly from acute central disc herniation
Insidious: •Recurrent episodes of LBP over weeks to years, followed by gradual onset sciatica, sensorimotor loss, and bowel and bladder dysfunction
– most commonly with spinal stenosis
• Kostuik et al. JBJS 1986, Spector et al AAOS 2008
Presentation
previous LBP confuses CES dx, and delays treatment– acute presentation 1.1d until decompression– insidious presentation 3.3d (17/31 had unilateral sciatica)
•sensory deficit in the perineal area (partial, complete, unilateral, or bilateral) was most important prognostic indicator
Missing the diagnosis delays tx.•Widely varying presentation causes delayed recognition•44 cases: 24 pts had delayed dx by 9d avg
– (pt related causes 17%; MD related 83%)
Imaging
• Clinical diagnosis!• Emergent imaging used to help
determine characteristics and to plan approach to surgery
• In post-op pts, may Rx surgically without imaging if not available or if MRI preop
• MRI is preferred modality• Myelography and CT if MRI not
possible/ available
Treatment
• Surgical exploration and decompression of any compressive lesions– if medically stable
• Micro discectomy, or wide laminectomy, discectomy, and open inspection of nerve roots
• Goals: minimize manipulation of nerves; may require larger laminectomy than uncomplicated disk herniation
Treatment
Can this wait until the morning?
•Retrospective reviews indicate optimal outcomes if decompressed within 48hrs
– no benefit between 24hrs vs 48hrs – After 48hrs since presentation, recovery decreases
Shown by:• Ahn, Spine 2000• Shapiro, Neurosurgery 1993• Kostuik, JBJS 1986• Shapiro, Spine 2000
Outcomes• Initial report was bleak:
– 1966 Schaeffer; recovery unlikely (5pts)
• Reports improved over time:– 17/22 regained urinary fxn; 13/17 motor recovery, 14/21 sensory recovery, 13/15
regained perianal sensation
– Urodynamics: at 8w ranged 0-110 post-void residuals, and essentially full recovery by 8-12mo for 9/11 pts (4 did not recover)
– Sexual dysfunction 26-50%; loss of sensation, urinary incontinence
– Chronic LBP associated with worse recovery of urinary and rectal function
– Increased age correlated w poor sexual function recovery
– Surgery within 48hrs improved recovery for B/B fxn, sensory and motor deficits. No difference for pain and sexual fxn
Thank you.
• OITE
• A man has a T5 Burst fracture. Examination reveals 0/5 motor strength in both lower extremities in all groups. He has no light touch or pinprick sensation in his lower extremities or trunk. He has decreased rectal tone but has an intact perianal sensation and bulbocavernosus reflex. According to ASIA what is the classification of spinal cord injury?
1. ASIA A, complete
2. ASIA A, incomplete
3. ASIA B, complete
4. ASIA B, incomplete
5. ASIA C, incomplete
4. ASIA B, incomplete
• Figure 1 and 2 show MRI scans of a 62 year old male with 1 year hx of worsening low back pain and bilateral leg pain. His leg pain is greater than his back pain and increases in severity when he walks more than 5 mins. He has normal bowel and bladder. Conservative management has failed. Appropriate treatment include;
1. computer-assisted axial traction
2. interspinous process spacer placement
3. L4/5 laminectomy with posterior spine arthrodesis
4. Complete laminectomy at L4 with bilateral NR decompression
5. anterior discectomy and interbody fusion at L4/5
4. Complete laminectomy at L4 with bilateral NR decompression
• A 51-year-old male with a extensive cardiac history including insertion of pacemaker reports difficulty with urination and numbness in his bilateral buttock. His symptoms began 12 hours ago. What is the next step in management?
1. MRI of the spine
2. CT myelogram of the lumbar spine
3. Epidural steroid injection
4. Physical therapy, NSAIDs, and outpatient followup
5. High dose methylprednisone
• 4. CT Myelogram of lumbar spine
• A 49-year-old male presents with saddle anesthesia, lower extremity weakness, and urinary retention. When must surgical decompression be done to improve bladder and motor recovery?
1. less than 24 hours after symptom onset
2. less than 48 hours after symptom onset
3. less than 60 hours after symptom onset
4. less than one week after symptom onset
5. less than two weeks after symptom onset
2. less than 48 hours after symptom onset
Thank you
Neurogenic Shock
• Abnormal Hemodynamics:
1. Hypotension
2. Bradycardia
3. Peripheral vasodilation
• Resulting from autonomic dysfunction and the interruption of sympathetic nervous system.
• Usually in injuries above T6, secondary to the disruption of the sympathetic outflow from T1-L2 and to unopposed vagal tone, leading to a decrease in vascular resistance
Spinal Shock
• Complete loss of all neurologic function, including reflexes and rectal tone, below a specific level that is associated with autonomic dysfunction.
• State of transient physiologic (rather than anatomic) reflex depression of cord function below the level of injury
• Flaccid paralysis, including of the bowel and bladder, is observed, and sometimes sustained priapism develops.
• Usually resolves in 48-72 hrs