Central cord syndrome: Difference between revisions
(Expand with concise EM-focused content: mechanism, clinical features, evaluation pearls, prognosis)
 
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[[File:Dermatoms alt.png|thumb|Sensory dermatome by spinal level.]]
[[File:Dermatoms alt.png|thumb|Sensory dermatome by spinal level.]]
[[File:Spinal cord tracts.svg|thumb|Spinal cord tracts]]
[[File:Spinal cord tracts.svg|thumb|Spinal cord tracts]]
*Most common incomplete [[spinal cord injury]]
[[File:Central Cord.png|thumb|Anatomy of central cord injury.]]
*Most common incomplete [[spinal cord injury]] (accounts for ~9% of all traumatic spinal cord injuries)
*Injury to the central gray matter and medial portions of the corticospinal tracts


===Etiology===
===Etiology===
*Hyperextension injury of cervical spine
*'''Classic:''' Elderly patient with pre-existing cervical [[spondylosis]]/[[spinal stenosis]] who sustains a hyperextension injury (e.g., ground-level fall)
*Disruption of blood flow to the spinal cord
**Ligamentum flavum buckles inward → cord contusion of central gray matter
*Cervical [[spinal stenosis]]
**May occur '''without fracture or dislocation''' (important — can have normal plain films/CT)
*Typically elderly patient with significant DJD (ligamentum flavum compresses cord, causing contusion to central portion of spinal cord)
*Young patients: high-energy trauma with cervical fracture/dislocation
*[[Syringomyelia]] (progressive, chronic, pain/temperature loss first)
*Non-traumatic: [[syringomyelia]] (progressive, chronic onset), central canal ependymoma
*Central canal ependymoma


==Clinical Features==
==Clinical Features==
*[[weakness|Quadriparesis]] (characteristically worse function in upper extremities than lowers)
*'''Upper extremity weakness > lower extremity weakness''' (hallmark finding)
*Rare: [[numbness|loss of pain]]/temperature sensation in upper > lower extremities
**Due to somatotopic organization of corticospinal tract: upper extremity fibers are medial (central), lower extremity fibers are lateral (peripheral)
*+/- bladder dysfunction/[[urinary retention]]
*'''Sacral sparing''' — distinguishes incomplete from complete injury:
*Has better outcomes than other cord syndromes
**Intact toe flexion
**Intact perianal sensation
**Normal rectal tone
*Variable sensory deficits: pain/temperature loss in ''cape-like'' distribution (upper extremities > lower)
*+/- bladder dysfunction, [[urinary retention]]


==Differential Diagnosis==
==Differential Diagnosis==
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==Evaluation==
==Evaluation==
*[[mri|MRI]] for direct evidence for impingement
*[[MRI]] of cervical spine — gold standard; shows cord edema/contusion, pre-existing stenosis
*CT may show central canal stenosis with indirect estimation of impingement
*CT cervical spine — may show spondylosis, stenosis, fracture
*'''Key pearl:''' May have normal CT in elderly patients with low-energy mechanism — always obtain MRI if clinical suspicion is high
*Neurological exam: document motor levels, sensory levels, rectal tone (ASIA scoring)


==Management==
==Management==
{{Acute spinal cord injury treatment}}
{{Acute spinal cord injury treatment}}
*Early surgical decompression within 24 hours is safe and effective for patients with cord compression
*Mean arterial pressure goal ≥85 mmHg to maintain spinal cord perfusion
==Prognosis==
*Best prognosis of all incomplete cord syndromes (>50% regain ambulatory function)
*Lower extremities recover first, then bladder, then upper extremities
*Fine hand motor function recovers last and often incompletely


==Disposition==
==Disposition==
*Admission for acute injury
*Admit all patients with acute spinal cord injury
*Surgery within 24 hours is safe and effective, but may be extended to < 2 weeks after injury<ref>Anderson KK et al. Optimal Timing of Surgical Decompression for Acute Traumatic Central Cord Syndrome: A Systematic Review of the Literature. Neurosurgery. 2015 Oct;77 Suppl 4:S15-32.</ref>
*Neurosurgery consult for surgical decompression timing
 
*Surgery within 24 hours is safe and effective, but may be extended to <2 weeks after injury
==External Links==


==See Also==
==See Also==
*[[Spinal cord syndromes]]
*[[Anterior cord syndrome]]
*[[Brown-Séquard syndrome]]
*[[Spinal cord injury]]
*[[Spinal cord injury]]
*[[Anterior cord syndrome]]


==References==
==References==

Latest revision as of 01:15, 21 March 2026

Background

Sensory dermatome by spinal level.
Spinal cord tracts
Anatomy of central cord injury.
  • Most common incomplete spinal cord injury (accounts for ~9% of all traumatic spinal cord injuries)
  • Injury to the central gray matter and medial portions of the corticospinal tracts

Etiology

  • Classic: Elderly patient with pre-existing cervical spondylosis/spinal stenosis who sustains a hyperextension injury (e.g., ground-level fall)
    • Ligamentum flavum buckles inward → cord contusion of central gray matter
    • May occur without fracture or dislocation (important — can have normal plain films/CT)
  • Young patients: high-energy trauma with cervical fracture/dislocation
  • Non-traumatic: syringomyelia (progressive, chronic onset), central canal ependymoma

Clinical Features

  • Upper extremity weakness > lower extremity weakness (hallmark finding)
    • Due to somatotopic organization of corticospinal tract: upper extremity fibers are medial (central), lower extremity fibers are lateral (peripheral)
  • Sacral sparing — distinguishes incomplete from complete injury:
    • Intact toe flexion
    • Intact perianal sensation
    • Normal rectal tone
  • Variable sensory deficits: pain/temperature loss in cape-like distribution (upper extremities > lower)
  • +/- bladder dysfunction, urinary retention

Differential Diagnosis

Spinal Cord Syndromes

Evaluation

  • MRI of cervical spine — gold standard; shows cord edema/contusion, pre-existing stenosis
  • CT cervical spine — may show spondylosis, stenosis, fracture
  • Key pearl: May have normal CT in elderly patients with low-energy mechanism — always obtain MRI if clinical suspicion is high
  • Neurological exam: document motor levels, sensory levels, rectal tone (ASIA scoring)

Management

Acute Management of Spinal Cord Injury

  • Neurogenic shock management
  • Consider intubation injuries at C5 or above
    • Manual in-line stabilization reduces cervical movement better than C-collar, but be careful of tracheal pressures inadvertently applied which can worsen laryngeal visualization[1][2]
    • Direct laryngoscopy causes C-spine extension at atlanto-occipital junction, C1-C2, and C4-C7 in order from most to least
    • Consider video laryngoscopy with hyperangulated stylet or bougie assisted DL to intubate higher-grade laryngoscopy views of vocal cords without C-spine overextension[3]
    • Post-intubation sedation takes into consideration hemodynamics and potential intraoperative EMG and evoked potential monitoring by anesthesia
  • Consider surgical intervention for:
  • Steroids are no longer recommended
    • Administration of methylprednisolone (MP) for the treatment of acute spinal cord injury (SCI) is not recommended. Clinicians considering MP therapy should bear in mind that the drug is NOT approved by the FDA for this indication. There is no Class I or Class II medical evidence supporting the clinical benefit of MP in the treatment of acute SCI. Scattered reports of Class III evidence claim inconsistent effects likely related to random chance or selection bias. However, Class I, II, and III evidence exists that high-dose steroids are associated with harmful side effects including death.[6]
    • See EBQ:High Dose Steroids in Cord Injury for further discussion
  • Early surgical decompression within 24 hours is safe and effective for patients with cord compression
  • Mean arterial pressure goal ≥85 mmHg to maintain spinal cord perfusion

Prognosis

  • Best prognosis of all incomplete cord syndromes (>50% regain ambulatory function)
  • Lower extremities recover first, then bladder, then upper extremities
  • Fine hand motor function recovers last and often incompletely

Disposition

  • Admit all patients with acute spinal cord injury
  • Neurosurgery consult for surgical decompression timing
  • Surgery within 24 hours is safe and effective, but may be extended to <2 weeks after injury

See Also

References

  1. The effect of laryngoscopy of different cervical spine immobilisation techniques. Heath KJ. Anaesthesia. 1994 Oct; 49(10):843-5.
  2. Manual in-line stabilization increases pressures applied by the laryngoscope blade during direct laryngoscopy and orotracheal intubation. Santoni BG, Hindman BJ, Puttlitz CM, Weeks JB, Johnson N, Maktabi MA, Todd MM. Anesthesiology. 2009 Jan; 110(1):24-31.
  3. Cervical spinal motion during intubation: efficacy of stabilization maneuvers in the setting of complete segmental instability. Lennarson PJ, Smith DW, Sawin PD, Todd MM, Sato Y, Traynelis VC. J Neurosurg. 2001 Apr; 94(2 Suppl):265-70.
  4. Improvement of motor-evoked potentials by ketamine and spatial facilitation during spinal surgery in a young child. Erb TO, Ryhult SE, Duitmann E, Hasler C, Luetschg J, Frei FJ. Anesth Analg. 2005 Jun; 100(6):1634-6.
  5. Effects of dexmedetomidine on intraoperative motor and somatosensory evoked potential monitoring during spinal surgery in adolescents. Tobias JD, Goble TJ, Bates G, Anderson JT, Hoernschemeyer DG. Paediatr Anaesth. 2008 Nov; 18(11):1082-8.
  6. Hurlbert RJ et al. Pharmacological therapy for acute spinal cord injury. Neurosurgery. 2013 Mar;72 Suppl 2:93-105 http://www.ncbi.nlm.nih.gov/pubmed/23417182
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