Spinal cord injury without radiographic abnormality

Last updated
Spinal cord injury without radiographic abnormality
Other namesSpinal cord injury without computed tomography evidence of trauma (SCIWOCTET) [1]
Specialty Emergency medicine, neurosurgery
Symptoms Numbness, weakness, abnormal reflexes, loss of bladder or bowel control, neck pain [2] [3]
DurationShort or long term [3]
Causes Motor vehicle collision, falls, sports injuries [3]
Diagnostic method Based on symptoms, medical imaging [2]
TreatmentConservative, rigid cervical collar, surgery [2]
Prognosis ~2% risk of death [2]
FrequencyRare [2]

Spinal cord injury without radiographic abnormality (SCIWORA) is symptoms of a spinal cord injury (SCI) with no evidence of injury to the spinal column on X-rays or CT scan. [4] [5] Symptoms may include numbness, weakness, abnormal reflexes, or loss of bladder or bowel control. [2] Neck or back pain is also common. [3] Symptoms may be brief or persistent. [3] Some do not develop symptoms until a few days after the injury. [3]

Contents

Causes may include motor vehicle collisions, falls, sports injuries, and non accidental trauma. [3] [2] A number of underlying mechanisms are proposed including spinal cord contusion, injury to the blood supply to the spinal cord, and excessive stretching of the cord. [3] Magnetic resonance imaging (MRI) is recommended to determine if further problems are present. [2]

Treatment is often based on the MRI findings and whether or not symptoms are persistent. [2] If the MRI is normal and symptoms have resolved no or brief neck bracing may be recommended. [2] Otherwise a rigid cervical collar or surgery to immobilize the neck for three months is recommended. [2] If the MRI is abnormal surgery to hold the neck still may be carried out [2] Typically people should avoid further high risk activities for the next six months. [3] The use of corticosteroids is not generally recommended. [2]

The condition is rare. [2] Most cases are believed to occur in children and the elderly. [4] Males are more frequently affected than females. [3] [2] Outcomes are generally good if the MRI is normal but less so if problems are found. [2] The risk of death is low at about 2%. [2] It was first defined in 1982. [2]

Signs and symptoms

SCIWORA may present as a complete spinal cord injury (total loss of sensation and function below the lesion) or incomplete spinal cord injury (some sensation and/or function is preserved). It is present in a significant number of children with SCI. [6] Notably, the clinical symptoms can present with a delay of hours to days after the trauma. This phenomenon was primarily seen in children but was reported in adults as well. The duration of symptoms varies widely. A full recovery can be achieved without treatment within minutes to hours and permanent injuries might prevail. Overall, there seems to be a relation between extent of damage to the spinal cord and the clinical prognosis. The prognostic value of intra- and extra-medullary MRI findings is subject of ongoing research in the field of SCIWORA.

Diagnosis

The application of MRI plays a significant role in the early diagnosis and treatment of SCIWORA in children and adults. Recently, systematic reviews on SCIWORA described the clinical and radiological patterns and correlations with neurological outcome. [7] [8] Boese and Lechler proposed an MRI-based classification for SCIWORA which correlated with the neurological outcome: [7]

Type 1No detectable abnormalities.
Type 2 aExtraneural abnormalities.
Type 2 bIntraneural abnormalities.
Type 2 cExtraneural and intraneural abnormalities.

History

The acronym SCIWORA was coined by Pang and Wilderer in 1982 [9] This first description on spinal cord injuries with clinics-radiological mismatch was followed by a large number of case reports and case series. [8] Later, a similar condition was reported in adults. It is most common in children. [10] There seem to be relevant differences between pediatric and adult SCIWORA. In particular, adults often present with degenerative changes of the spinal column resulting in predisposing spinal stenosis. [11] SCI in adults could be due to instability of vertebral ligaments or a herniation of a disk or a hematoma around the spinal cord that presses on it—none of which would show up on X-rays. [6] In older people, spondylosis or problems with blood vessels can cause SCIWORA. [6] The most common cause is being hit by a vehicle while on foot. [10]

Before 1982, the phenomenon of clinics-radiological mismatch was known as well. Historical literature regarding spinal cord concussion, spinal cord contusion and hyperextension/hyperflexion injuries to the spine describe similar cases to modern cases of SCIWORA.

After the introduction of SCIWORA, the term was expanded to adults presenting with degenerative changes. Some authors used the term spinal cord injury without radiographic evidence of trauma (SCIWORET) to describe these cases. Furthermore, the introduction of computed tomography enabled a more detailed depiction of the spine. Thus, the identification of injuries previously missed called for a delimitation from the classical SCIWORA and SCIWORET. The term SCIWOCTET (spinal cord injury without CT evidence of trauma) was introduced by Martinez-Perez. [1] Finally, the use of magnetic resonance imaging (MRI) allowed for even better depiction of the spine and soft tissue abnormalities in particular. Again, a novel acronym was proposed to classify patients without traumatic signs using radiographs, CT and MRI. The term spinal cord injury without neuroimaging abnormality (SCIWONA) was used. However, the novel acronyms were not generally accepted and the more general term SCIWORA is usually used to describe all variants of clinico-radiological mismatches.

Related Research Articles

<span class="mw-page-title-main">Syringomyelia</span> Disorder in which a cyst forms in the spinal cord

Syringomyelia is a generic term referring to a disorder in which a cyst or cavity forms within the spinal cord. Often, syringomyelia is used as a generic term before an etiology is determined. This cyst, called a syrinx, can expand and elongate over time, destroying the spinal cord. The damage may result in loss of feeling, paralysis, weakness, and stiffness in the back, shoulders, and extremities. Syringomyelia may also cause a loss of the ability to feel extremes of hot or cold, especially in the hands. It may also lead to a cape-like bilateral loss of pain and temperature sensation along the upper chest and arms. The combination of symptoms varies from one patient to another depending on the location of the syrinx within the spinal cord, as well as its extent.

<span class="mw-page-title-main">Back pain</span> Area of body discomfort

Back pain is pain felt in the back. It may be classified as neck pain (cervical), middle back pain (thoracic), lower back pain (lumbar) or coccydynia based on the segment affected. The lumbar area is the most common area affected. An episode of back pain may be acute, subacute or chronic depending on the duration. The pain may be characterized as a dull ache, shooting or piercing pain or a burning sensation. Discomfort can radiate to the arms and hands as well as the legs or feet, and may include numbness or weakness in the legs and arms.

<span class="mw-page-title-main">Lumbar spinal stenosis</span> Medical condition of the spine

Lumbar spinal stenosis (LSS) is a medical condition in which the spinal canal narrows and compresses the nerves and blood vessels at the level of the lumbar vertebrae. Spinal stenosis may also affect the cervical or thoracic region, in which case it is known as cervical spinal stenosis or thoracic spinal stenosis. Lumbar spinal stenosis can cause pain in the low back or buttocks, abnormal sensations, and the absence of sensation (numbness) in the legs, thighs, feet, or buttocks, or loss of bladder and bowel control.

<span class="mw-page-title-main">Clearing the cervical spine</span> Process of determining the existence of a cervical spine injury

Clearing the cervical spine is the process by which medical professionals determine whether cervical spine injuries exist, mainly regarding cervical fracture. It is generally performed in cases of major trauma. This process can take place in the emergency department or in the field by appropriately trained EMS personnel.

<span class="mw-page-title-main">Spinal cord injury</span> Injury to the main nerve bundle in the back of humans

A spinal cord injury (SCI) is damage to the spinal cord that causes temporary or permanent changes in its function. Symptoms may include loss of muscle function, sensation, or autonomic function in the parts of the body served by the spinal cord below the level of the injury. Injury can occur at any level of the spinal cord and can be complete, with a total loss of sensation and muscle function at lower sacral segments, or incomplete, meaning some nervous signals are able to travel past the injured area of the cord up to the Sacral S4-5 spinal cord segments. Depending on the location and severity of damage, the symptoms vary, from numbness to paralysis, including bowel or bladder incontinence. Long term outcomes also range widely, from full recovery to permanent tetraplegia or paraplegia. Complications can include muscle atrophy, loss of voluntary motor control, spasticity, pressure sores, infections, and breathing problems.

Myelopathy describes any neurologic deficit related to the spinal cord. The most common form of myelopathy in humans, cervical spondylotic myelopathy (CSM), also called degenerative cervical myelopathy, results from narrowing of the spinal canal ultimately causing compression of the spinal cord. When due to trauma, myelopathy is known as (acute) spinal cord injury. When inflammatory, it is known as myelitis. Disease that is vascular in nature is known as vascular myelopathy.

<span class="mw-page-title-main">Cervical fracture</span> Medical condition

A cervical fracture, commonly called a broken neck, is a fracture of any of the seven cervical vertebrae in the neck. Examples of common causes in humans are traffic collisions and diving into shallow water. Abnormal movement of neck bones or pieces of bone can cause a spinal cord injury, resulting in loss of sensation, paralysis, or usually death soon thereafter, primarily via compromising neurological supply to the respiratory muscles as well as innervation to the heart.

<span class="mw-page-title-main">Degenerative disc disease</span> Medical condition

Degenerative disc disease (DDD) is a medical condition typically brought on by the normal aging process in which there are anatomic changes and possibly a loss of function of one or more intervertebral discs of the spine. DDD can take place with or without symptoms, but is typically identified once symptoms arise. The root cause is thought to be loss of soluble proteins within the fluid contained in the disc with resultant reduction of the oncotic pressure, which in turn causes loss of fluid volume. Normal downward forces cause the affected disc to lose height, and the distance between vertebrae is reduced. The anulus fibrosus, the tough outer layers of a disc, also weakens. This loss of height causes laxity of the longitudinal ligaments, which may allow anterior, posterior, or lateral shifting of the vertebral bodies, causing facet joint malalignment and arthritis; scoliosis; cervical hyperlordosis; thoracic hyperkyphosis; lumbar hyperlordosis; narrowing of the space available for the spinal tract within the vertebra ; or narrowing of the space through which a spinal nerve exits with resultant inflammation and impingement of a spinal nerve, causing a radiculopathy.

<span class="mw-page-title-main">Spondylolisthesis</span> Displacement of one spinal vertebra compared to another

Spondylolisthesis is the displacement of one spinal vertebra compared to another. While some medical dictionaries define spondylolisthesis specifically as the forward or anterior displacement of a vertebra over the vertebra inferior to it, it is often defined in medical textbooks as displacement in any direction. Spondylolisthesis is graded based upon the degree of slippage of one vertebral body relative to the subsequent adjacent vertebral body. Spondylolisthesis is classified as one of the six major etiologies: degenerative, traumatic, dysplastic, isthmic, pathologic, or post-surgical. Spondylolisthesis most commonly occurs in the lumbar spine, primarily at the L5-S1 level, with the L5 vertebral body anteriorly translating over the S1 vertebral body.

<span class="mw-page-title-main">Spinal disc herniation</span> Injury to the connective tissue between spinal vertebrae

A spinal disc herniation is an injury to the cushioning and connective tissue between vertebrae, usually caused by excessive strain or trauma to the spine. It may result in back pain, pain or sensation in different parts of the body, and physical disability. The most conclusive diagnostic tool for disc herniation is MRI, and treatment may range from painkillers to surgery. Protection from disc herniation is best provided by core strength and an awareness of body mechanics including posture.

<span class="mw-page-title-main">Transient synovitis</span> Medical condition

Transient synovitis of hip is a self-limiting condition in which there is an inflammation of the inner lining of the capsule of the hip joint. The term irritable hip refers to the syndrome of acute hip pain, joint stiffness, limp or non-weightbearing, indicative of an underlying condition such as transient synovitis or orthopedic infections. In everyday clinical practice however, irritable hip is commonly used as a synonym for transient synovitis. It should not be confused with sciatica, a condition describing hip and lower back pain much more common to adults than transient synovitis but with similar signs and symptoms.

Tethered cord syndrome (TCS) refers to a group of neurological disorders that relate to malformations of the spinal cord. Various forms include tight filum terminale, lipomeningomyelocele, split cord malformations (diastematomyelia), occult, dermal sinus tracts, and dermoids. All forms involve the pulling of the spinal cord at the base of the spinal canal, literally a tethered cord. The spinal cord normally hangs loose in the canal, free to move up and down with growth, and with bending and stretching. A tethered cord, however, is held taut at the end or at some point in the spinal canal. In children, a tethered cord can force the spinal cord to stretch as they grow. In adults the spinal cord stretches in the course of normal activity, usually leading to progressive spinal cord damage if untreated. TCS is often associated with the closure of a spina bifida. It can be congenital, such as in tight filum terminale, or the result of injury later in life.

<span class="mw-page-title-main">Radiculopathy</span> Medical condition

Radiculopathy, also commonly referred to as pinched nerve, refers to a set of conditions in which one or more nerves are affected and do not work properly. Radiculopathy can result in pain, weakness, altered sensation (paresthesia) or difficulty controlling specific muscles. Pinched nerves arise when surrounding bone or tissue, such as cartilage, muscles or tendons, put pressure on the nerve and disrupt its function.

<span class="mw-page-title-main">Brown-Séquard syndrome</span> Human spinal cord disorder

Brown-Séquard syndrome is caused by damage to one half of the spinal cord, i.e. hemisection of the spinal cord resulting in paralysis and loss of proprioception on the same side as the injury or lesion, and loss of pain and temperature sensation on the opposite side as the lesion. It is named after physiologist Charles-Édouard Brown-Séquard, who first described the condition in 1850.

<span class="mw-page-title-main">Posterior spinal artery syndrome</span> Human spinal cord disorder

Posterior spinal artery syndrome(PSAS), also known as posterior spinal cord syndrome, is a type of incomplete spinal cord injury. PSAS is the least commonly occurring of the six clinical spinal cord injury syndromes, with an incidence rate of less than 1%.

<span class="mw-page-title-main">Magnetic resonance neurography</span>

Magnetic resonance neurography (MRN) is the direct imaging of nerves in the body by optimizing selectivity for unique MRI water properties of nerves. It is a modification of magnetic resonance imaging. This technique yields a detailed image of a nerve from the resonance signal that arises from in the nerve itself rather than from surrounding tissues or from fat in the nerve lining. Because of the intraneural source of the image signal, the image provides a medically useful set of information about the internal state of the nerve such as the presence of irritation, nerve swelling (edema), compression, pinch or injury. Standard magnetic resonance images can show the outline of some nerves in portions of their courses but do not show the intrinsic signal from nerve water. Magnetic resonance neurography is used to evaluate major nerve compressions such as those affecting the sciatic nerve (e.g. piriformis syndrome), the brachial plexus nerves (e.g. thoracic outlet syndrome), the pudendal nerve, or virtually any named nerve in the body. A related technique for imaging neural tracts in the brain and spinal cord is called magnetic resonance tractography or diffusion tensor imaging.

<span class="mw-page-title-main">Myelomalacia</span> Medical condition

Myelomalacia is a pathological term referring to the softening of the spinal cord. Possible causes of myelomalacia include cervical myelopathy, hemorrhagic infarction, or acute injury, such as that caused by intervertebral disc extrusion.

<span class="mw-page-title-main">Tarlov cyst</span> Medical condition

Tarlov cysts, are type II innervated meningeal cysts, cerebrospinal-fluid-filled (CSF) sacs most frequently located in the spinal canal of the sacral region of the spinal cord (S1–S5) and much less often in the cervical, thoracic or lumbar spine. They can be distinguished from other meningeal cysts by their nerve-fiber-filled walls. Tarlov cysts are defined as cysts formed within the nerve-root sheath at the dorsal root ganglion. The etiology of these cysts is not well understood; some current theories explaining this phenomenon have not yet been tested or challenged but include increased pressure in CSF, filling of congenital cysts with one-way valves, inflammation in response to trauma and disease. They are named for American neurosurgeon Isadore Tarlov, who described them in 1938.

<span class="mw-page-title-main">Bizhan Aarabi</span> Iranian-American neurosurgeon

Bizhan Aarabi is an Iranian-American neurosurgeon, researcher, author, and academic. He is a professor of neurosurgery at University of Maryland and the Director of Neurotrauma at the R Adams Cowley Shock Trauma Center.

Magnetic resonance myelography is a noninvasive medical imaging technique that can provide anatomic information about the subarachnoid space. It is a type of MRI examination that uses a contrast medium and magnetic resonance imaging scanner to detect pathology of the spinal cord, including the location of a spinal cord injury, cysts, tumors and other abnormalities. The procedure involves the injection of a gadolinium based contrast media into the cervical or lumbar spine, followed by the MRI scan.

References

  1. 1 2 Martinez-Perez R, Munarriz PM, Paredes I, Cotrina J, Lagares A (March 2017). "Cervical Spinal Cord Injury without Computed Tomography Evidence of Trauma in Adults: Magnetic Resonance Imaging Prognostic Factors". World Neurosurgery. 99: 192–199. doi:10.1016/j.wneu.2016.12.005. PMID   27979630.
  2. 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 Farrell CA, Hannon M, Lee LK (June 2017). "Pediatric spinal cord injury without radiographic abnormality in the era of advanced imaging". Current Opinion in Pediatrics. 29 (3): 286–290. doi:10.1097/MOP.0000000000000481. PMID   28306628. S2CID   3515237.
  3. 1 2 3 4 5 6 7 8 9 10 Knadmin (May 4, 2017). "Spinal cord injury without radiological abnormality". PM&R KnowledgeNow. Retrieved 30 May 2018.
  4. 1 2 Peitzman A, Rhodes M, Schwab CW, Yealy DM, Fabian TC (2012). The Trauma Manual: Trauma and Acute Care Surgery. Lippincott Williams & Wilkins. pp. 288–289. ISBN   978-1-4511-1679-3.
  5. Szwedowski D, Walecki J (2014). "Spinal Cord Injury without Radiographic Abnormality (SCIWORA) - Clinical and Radiological Aspects". Polish Journal of Radiology. 79: 461–4. doi:10.12659/PJR.890944 (inactive 2024-01-25). PMC   4262055 . PMID   25505497.{{cite journal}}: CS1 maint: DOI inactive as of January 2024 (link)
  6. 1 2 3 Brown J, Wyatt JP, Illingworth RN, Clancy MJ, Munro P (6 June 2008). Oxford American Handbook of Emergency Medicine. Oxford University Press. ISBN   978-0-19-977948-2.
  7. 1 2 Boese CK, Lechler P (August 2013). "Spinal cord injury without radiologic abnormalities in adults: a systematic review". J Trauma Acute Care Surg. 75 (2): 320–30. doi:10.1097/TA.0b013e31829243c9. PMID   23702634. S2CID   31958568.
  8. 1 2 Boese CK, Oppermann J, Siewe J, Eysel P, Scheyerer MJ, Lechler P (April 2015). "Spinal cord injury without radiologic abnormality in children: a systematic review and meta-analysis". J Trauma Acute Care Surg. 78 (4): 874–82. doi:10.1097/TA.0000000000000579. PMID   25807412. S2CID   46566546.
  9. Pang D, Wilberger JE (July 1982). "Spinal cord injury without radiographic abnormalities in children". J. Neurosurg. 57 (1): 114–29. doi:10.3171/jns.1982.57.1.0114. PMID   7086488.
  10. 1 2 Bigelow S, Medzon R (16 June 2011). "Injuries of the spine: Nerve". In Legome E, Shockley LW (eds.). Trauma: A Comprehensive Emergency Medicine Approach. Cambridge University Press. p. 180. ISBN   978-1-139-50072-2.
  11. Boese CK, Nerlich M, Klein SM, Wirries A, Ruchholtz S, Lechler P (March 2013). "Early magnetic resonance imaging in spinal cord injury without radiological abnormality in adults: a retrospective study". J Trauma Acute Care Surg. 74 (3): 845–8. doi:10.1097/TA.0b013e31828272e9. PMID   23425746. S2CID   8338263.