Anatomy, Back, Spinal Cord


Article Author:
Oluwaseun Adigun


Article Editor:
Matthew Varacallo


Editors In Chief:
Rodrigo Kuljis
Oleg Chernyshev
Aninda Acharya


Managing Editors:
Orawan Chaigasame
Carrie Smith
Abdul Waheed
Frank Smeeks
Kristina Soman-Faulkner
Benjamin Eovaldi
Radia Jamil
Sobhan Daneshfar
Saad Nazir
William Gossman
Pritesh Sheth
Hassam Zulfiqar
Navid Mahabadi
Steve Bhimji
John Shell
Matthew Varacallo
Ahmad Malik
Mark Pellegrini
James Hughes
Beata Beatty
Hajira Basit
Phillip Hynes


Updated:
12/19/2018 7:55:16 PM

Introduction

The spinal cord is a tubular structure composed of nervous tissue that extends from the brainstem and continuing distally before tapering at the lower thoracic/upper lumbar region as the conus medullaris.  The spinal cord is anchored distally by the filum terminale, a fibrous extension of the pia mater anchoring the spinal cord to the coccyx.[1] Protecting the spinal cord is the surrounding cerebrospinal fluid (CSF), supportive soft tissue membranes and meninges, and the osseous vertebral column.[2] A basic knowledge of the structure and function of the spinal cord and spinal column is essential for healthcare providers as the recognition of characteristic clinical signs and symptoms is imperative for the appropriate treatment of patients presenting with a wide range of clinical symptoms.

Structure and Function

Meninges and Spaces

  • Epidural space - fatty space between the bony framework of the spinal vertebral column and the thick dura mater surrounding the spinal cord. It contains adipose tissue and blood vessels.
  • Dura mater - Thick outermost covering (meninges) of the spinal cord, extending down to the level of the S2 vertebra
  • Arachnoid mater - The middle covering of the spinal cord
  • Subarachnoid space - Space between the arachnoid mater and the innermost covering of the spinal cord. It contains Cerebrospinal fluid.
  • Pia mater - The innermost covering of the spinal cord, intimately adhering to its surface, it stabilizes the spinal cord through lateral extensions of the pia called the denticulate ligaments, extending between the ventral and dorsal roots unto the dura mater.

Spinal cord

  • The length is about 45 cm in men and 43 cm in women[1]
  • Anatomic course originates in the brainstem before coursing through the foramen magnum.  The spinal cord continues distally through the cervical and thoracic regions of the spinal column before terminating as a tapered structure known as the conus medullaris
  • The spinal cord proper terminates at the L1-L2 vertebral level and is anchored distally via the filum terminale, representing an extension of the pia mater with fibrous attachments to the coccyx
  • The spinal cord comprise 5 segments, cervical, thoracic, lumbar, sacral and coccygeal
  • Long, cylindrical structure with varying levels of thickness/width depending on the corresponding vertebral levels
  • 31 total nerve root segments
    • 8 cervical 
    • 12 thoracic
    • 5 lumbar
    • 5 sacral
    • 1 coccygeal
  • Cord width ranges from 0.64-0.83 cm in the thoracic region to 1.27-1.33 cm in the cervical and lumbar regions
    • A 2016 systematic review of the literature demonstrated that, on average, the largest transverse diameter corresponded to the C5 neuronal segment (1.33 +/- 0.22 cm) and the smallest transverse diameter, on average, corresponded to the T8 segment (0.83 +/- 0.21 cm)[3] 
    • Enlarged regions of gray matter correspond to nerve root distribution to the upper and lower extremities
  • Cross-sectional view of the spinal cord shows its organization into gray and white matter. The anterior aspect of the cord is identifiable with presence of anterior median fissure. The gray matter is organized into an H- shaped body of cell bodies. The anterior horn comprises motor nuclei while the posterior horn comprises sensory nuclei. The surrounding white matter is organized into anterior, posterior and lateral columns (funiculi), from neuronal axons organized into tracts that convey neural messages back and forth the CNS (the ascending and descending tracts). The anterolateral columns carry temperature and pain information, while the dorsal column communicates the sense of touch, proprioception, vibration. The cervical and thoracic spinal segments present an intermediolateral gray horn which give off preganglionic sympathetic fibers onto the sympathetic trunk on both sides of the spinal cord.
  • The spinal cord's central canal is an extension of the 4th ventricle. It contains CSF, surrounding it is the gray commissure and the anterior white commissure. Decussation of the tracts of the white columns occurs at the anterior white commissure.

Embryology

After the 3rd week of development, there is a fusion of the neural folds into a tube (neurulation); the neural tube then closes completely at day 28 and forms the brain and the spinal cord.

The caudal neural tube's cross-sectional view initially appears diamond shaped, lined by neuroepithelial cells, which divide and multiply into neuroblasts that populate surrounding areas called the mantle zone, which eventually forms the gray mater. Divided neuroepithelial cells now form the ependymal lining of the central spinal canal with roles in CSF production.

The mantle zone differentiates into - basal plate, alar plate, and intermediolateral plate. More lateral parts form into the marginal zone which becomes the white mater with ascending and descending myelinated fibers.

The basal plates differentiate into the anterior or ventral gray horn. Multipolar neurons in the anterior horn are first-order neurons and give off motor fibers that exit the spinal segments and become myelinated by Schwann cells (derivative of neural crest cells).

The alar plates differentiate into the posterior or dorsal gray horn. They comprise second order pseudo-unipolar neurons, which receive sensory communication from first-order neurons derived from neural crest-derived dorsal ganglia.

The intermediolateral plates in cervical and thoracic regions are populated by pre-ganglion neurons which give off fibers exiting ventrally onto the sympathetic trunk.

Blood Supply and Lymphatics

  • Anterior spinal artery - branch of the vertebral artery, supplies the anterior 2/3 of the spinal segment[4]
  • Left and right posterior spinal arteries - The pair posterior branches of the vertebral artery supply the posterior 1/3 of the spinal segment

Radiculo-medullary branches from the anterior and posterior spinal arteries and the costocervical trunk anastomose to supply the cervical region of the spinal cord. The thoracolumbar segments of the spinal cord receive extra arterial blood supply through radiculo-medullary branches of segmental arteries from the aorta; of note is the great radicular artery called Adamkiewicz artery.[4] It has a variable origin arising anywhere between T9 and L5 vertebra.

Nerves

There are 31 spinal nerve pairs (mixed) that arise from the intervertebral foramen on both sides of the vertebral column.

  • 8 Cervical nerves - C1 - C7 nerves arising from above corresponding cervical vertebra except for C8 which exits from between C7 and T1 Vertebrae
  • 12 Thoracic nerves
  • 5 Lumber nerves
  • 5 Sacral nerves
  • 1 Coccygeal segment

Nerves from the lower spinal segment exit terminal to the conus medullaris and form the cauda equina.

Ventral spinal nerve roots - make up the motor component of the spinal innervation with rootlets arising from the anterior horn of the spinal segment, sending motor impulses to muscles and joints, etc

Dorsal spinal nerve roots - make up the sensory component, with the dorsal ganglia sending sensory impulses via nerve rootlets to the posterior horn of spinal segments.

Clinical Significance

Spinal cord disorders, injuries (SCIs), or syndromes may include (but are not limited to)[5][6][7]

  • Traumatic (ground-level falls in the elderly, high-energy motor vehicle accidents in any age group) 
    • The incidence and prevalence of traumatic SCI in the United States is higher compared to rates reported in the literature for other countries worldwide[8][9]
    • Average age at clinical presentation continues to increase, corresponding to the aging of the general population[8]
    • Heightened clinical suspicion should be given to vertebral compression fractures which can occur spontaneously (i.e., in the absence of trauma)[10][11][12][13][14][15]
  • Infection[16]
  • Tumors/malignancy (including metastatic disease)[17][18][19]
  • Disc herniations[20][21]
  • Spinal stenosis/degenerative conditions/facet arthropathy[20][22][23][24][25]
  • Syringomyelia[26][27]

In general, the extent of disability depends on the level of injury and underlying degree of severity of the corresponding clinical pathology.  For example, injuries at the levels of the cervical segment affect both upper and lower limbs while lesions from thoracic segments downwards affect the lower limb.[28] 

Spinal cord injury (SCI) patterns

  • Descriptive
    • Tetraplegia
      • Cervical spine injury resulting in impaired arm/trunk/leg/pelvic organ function
    • Paraplegia
      • Thoracic/lumbar/sacral spinal injury leading to impaired trunk/leg/pelvic organ function
      • Preserved arm function
    • Complete injuries
      • By definition, a complete SCI yields no sparing of the motor or sensory function below the injured level
        • The patient must have already recovered from the acute phase of spinal shock (usually 48 hours from presentation)
        • Spinal shock: by definition, the temporary (typically 48 hours) loss of all spinal cord function (including reflex activity) below the level of injury
          • Absent bulbocavernosus reflex
          • Flaccid paralysis
          • Bradycardia/hypotension
  • Spina bifida - Neural tube defect in which the neural tube does not completely close leaving a dorsal defect. Folate deficiency in early pregnancy is a risk factor.[29] The severity of symptoms depends on the extent of the defect; myelomeningocele is the most severe variant with the spinal cord, meninges both exposed. Other variants include meningocele, which exposes only the meninges, and spina bifida occulta which is the mildest. Symptoms include loss of lower limb sensations, lower limb weakness, urinary incontinence, bowel incontinence

Incomplete spinal cord injuries (SCIs)

  • Central cord syndrome[5]
    • Most common incomplete SCI
    • Pathophysiology: central gray matter injury
    • Mechanism(s): hyperextension (i.e., from a fall) in a patient with underlying cervical spinal canal stenosis
    • Clinical presentation:
      • Upper extremity loss of motor function (lower extremity motor function no affected/minimally affected)
      • Sensory sparing variable
    • Prognosis: Good
  • Anterior cord syndrome[28] 
    • Second most common incomplete SCI
    • Pathophysiology: injuries occur secondary to direct compression to the anterior spinal cord (e.g., hyperflexion injuries, anterior spinal artery occlusion, or disc prolapse)
    • Mechanism(s): hyperflexion injuries, anterior spinal artery occlusion, disc prolapse
    • Clinical presentation:
      • Loss of motor, pain, and temperature reception below the level of injury
      • Preserved dorsal column function (i.e., proprioception, vibration sensation, and deep pressure sensation)
    • Prognosis: Poor (for motor recovery specifically)
  • Posterior cord syndrome[30]
    • Very rare/least common incomplete SCI pattern of injury
    • Pathophysiology: injury to the dorsal column
    • Mechanism(s): 
      • subacute combined degeneration
      • tabes dorsalis (i.e., secondary to syphilis)
      • multiple sclerosis
      • vascular malformations (AVM)
      • malignancy (e.g., compressive extramedullary tumors)
      • degenerative conditions (e.g., spondylosis)
    • Clinical presentation:
      • Loss of proprioception, vibration, and deep pressure sensation below the level of injury
      • Preserved ambulatory function
        • patients will complain of difficulty balancing in the dark or with his/her eyes closed
      • Classic exam consistent with a positive Romberg sign
    • Prognosis: Preserved ambulatory function; dorsal column recovery unpredictable
  • Spinal cord hemisection/hemicord (Brown-Sequard syndrome)[31]
    • Rare (2% to 4% of SCIs)[32]
    • Pathophysiology: trauma to one side of the spinal cord (in cross-sectional reference)
    • Mechanism(s): 
      • Penetrating trauma (knife, gunshot wound)
    • Clinical presentation:
      • Ipsilateral loss of motor and proprioception (directly below the level of injury)
      • Contralateral loss of pain/temperature
        • Classically the contralateral pain/temperature loss occurs one to two levels below the level of injury)
    • Prognosis: 90% recover ambulatory function
  • Cauda equina syndrome[30][33]
    • Pathophysiology: Injury to (only) the nerve roots of the cauda equina itself (i.e., spares the spinal cord itself) 
    • Mechanism(s):
      • disc herniations
      • burst fractures (e.g., associated hematoma from trauma)
    • Clinical presentation:
      • bilateral buttock/lower extremity pain
      • bowel/bladder dysfunction (urinary retention)
      • saddle anesthesia
      • loss of lower extremity motor/sensory function
        • differentiated from conus medullaris syndrome in that findings are asymmetrical, as opposed to symmetrical (i.e. conus medullaris motor symptoms are symmetrical in presentation)
    • Prognosis: surgical decompression within the first 48 hours appears to yield improved overall outcomes (although the overall prognosis remains guarded)
  • Conus medullaris syndrome[30]
    • Often confused with cauda equina syndrome, although this must be recognized as a separate clinical entity
    • Pathophysiology: injury to the spinal cord at L1-L2 level
    • Mechanism(s):
      • Direct spinal trauma to the thoracolumbar junction[30]
    • Clinical presentation:
      • Saddle anesthesia
      • bowel/bladder dysfunction (often presents with dysfunction more acutely compared to cauda equina which can evolve over a variable period time prior to the patient's presentation)
      • classically presents with mild, symmetrical motor symptoms (often mixed upper and lower motor neuron syndromes)
        • can present with both spasticity and flaccid paresis
        • hyperreflexia and/or hyporeflexia
      • Prognosis: guarded

Other Issues

  • Epidural anesthesia - Injecting anesthetic medications into the epidural space, using a catheter and multiple dosing is achievable.
  • Subarachnoid anesthesia- anesthetic medications delivered into the subarachnoid space, usually between L3 and L5
  • Lumbar puncture - Tiny needle through L3 and L5 to obtain CSF from the subarachnoid space for biochemical and microbiology investigations.

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Anatomy, Back, Spinal Cord - Questions

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Which of the following statements concerning the anatomy of the spinal cord is false?

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In most adults, the spinal cord terminates at what vertebrae?



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What is the terminal portion of the spinal cord called?



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From which of the following anatomical segments is the artery of Adamkiewicz most likely to arise?



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Which of the following structures is absent at the L4 spinal cord level?



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Anatomy, Back, Spinal Cord - References

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