Central cord syndrome
|Central cord syndrome|
Central cord syndrome (CCS) is the most common form of cervical spinal cord injury. It is characterized by loss of motion and sensation in arms and hands. It usually results from trauma which causes damage to the neck, leading to major injury to the central corticospinal tract of the spinal cord. The syndrome is more common in people over the age of 50 because osteoarthritis in the neck region causes weakening of the vertebrae. CCS most frequently occurs among older persons with cervical spondylosis, however, it also may occur in younger individuals.
CCS is the most common incomplete spinal cord injury syndrome. It accounts for approximately 9% of traumatic SCIs. After an incomplete injury, the brain still has the capacity to send and receive some signals below the site of injury. Sending and receiving of signals to and from parts of the body is reduced, not entirely blocked. CCS gives a greater motor loss in the upper limbs than in the lower limbs, with variable sensory loss.
It was first described by Schneider in 1954. It is generally associated with favorable prognosis for some degree of neurological and functional recovery. However, factors such as age, preexisting conditions, and extent of injury will affect the recovery process.
Signs and symptoms
CCS is characterized by disproportionately greater motor impairment in upper compared to lower extremities, and variable degree of sensory loss below the level of injury in combination with bladder dysfunction and urinary retention. This syndrome differs from that of a complete lesion, which is characterized by total loss of all sensation and movement below the level of the injury.
In older patients, CCS most often occurs after acute hyperextension injury in an individual with long-standing cervical spondylosis. A slow, chronic cause in this age group is when the cord gets caught and squeezed between a posterior intervertebral disc herniation against the anterior cord and/or with posterior pressure on the cord from hypertrophy of the ligamentum flavum (Lhermitte's sign may be the experience that causes the patient to seek medical diagnosis). However, CCS is not exclusive to older patients as younger individuals can also sustain an injury leading to CCS. Typically, younger patients are more likely to get CCS as a result of a high-force trauma or a bony instability in the cervical spine. Historically, spinal cord damage was believed to originate from concussion or contusion of the cord with stasis of axoplasmic flow, causing edematous injury rather than destructive hematomyelia. More recently, autopsy studies have demonstrated that CCS may be caused by bleeding into the central part of the cord, portending less favorable prognosis. Studies also have shown from postmortem evaluation that CCS probably is associated with selective axonal disruption in the lateral columns at the level of the injury to the spinal cord with relative preservation of the grey matter.
In terms of the diagnosis we find that the following is done to evaluate the individual:
In many cases, individuals with CCS can experience a reduction in their neurological symptoms with conservative management. The first steps of these intervention strategies include admission to an intensive care unit (ICU) after initial injury. After entering the ICU, early immobilization of the cervical spine with a neck collar would be placed on the patient to limit the potential of further injury. Cervical spine restriction is maintained for approximately six weeks until the individual experiences a reduction in pain and neurological symptoms. Inpatient rehabilitation is initiated in the hospital setting, followed by outpatient physical therapy and occupational therapy to assist with recovery.
An individual with a spinal cord injury may have many goals for outpatient occupational and physiotherapy. Their level of independence, self-care, and mobility are dependent on their degree of neurological impairment. Rehabilitation organization and outcomes are also based on these impairments. The physiatrist, along with the rehabilitation team, work with the patient to develop specific, measurable, action-oriented, realistic, and time-centered goals.
With respect to physical therapy interventions, it has been determined that repetitive task-specific sensory input can improve motor output in patients with central cord syndrome. These activities enable the spinal cord to incorporate both supraspinal and afferent sensory information to help recover motor output. This occurrence is known as "activity dependent plasticity". Activity dependent plasticity is stimulated through such activities as: locomotor training, muscle strengthening, voluntary cycling, and functional electrical stimulation (FES) cycling
Surgical intervention is usually given to those individuals who have increased instability of their cervical spine, which cannot be resolved by conservative management alone. Further indications for surgery include a neurological decline in spinal cord function in stable patients as well as those who require cervical spinal decompression.
- ↑ Quencer RM, Bunge RP, Egnor M, Green BA, Puckett W, Naidich TP, Post MJ, Norenberg M (1992). "Acute traumatic central cord syndrome: MRI-pathological correlations". Neuroradiology. 34 (2): 85–94. doi:10.1007/BF00588148. PMID 1603319. S2CID 23666330.
- ↑ "Disease course". Myelopathy.org. Archived from the original on 2018-06-26. Retrieved 2018-06-26.
- ↑ Rich V, McCaslin E (2006). "Central Cord Syndrome in a High School Wrestler: A Case Report". J Athl Train. 41 (3): 341–4. PMC 1569555. PMID 17043705.
- ↑ McKinley W, Santos K, Meade M, Brooke K (2007). "Incidence and Outcomes of Spinal Cord Injury Clinical Syndromes". J Spinal Cord Med. 30 (3): 215–24. doi:10.1080/10790268.2007.11753929. PMC 2031952. PMID 17684887.
- ↑ Schneider RC, Cherry G, Pantek H (1954). "The syndrome of acute central cervical spinal cord injury; with special reference to the mechanisms involved in hyperextension injuries of cervical spine". J. Neurosurg. 11 (6): 546–77. doi:10.3171/jns.1954.11.6.0546. PMID 13222164.
- ↑ 6.0 6.1 6.2 Harrop, James S; Ashwini Sharan; Jonathon Ratliff (2006). "Central cord injury: pathophysiology, management, and outcomes". The Spine Journal. 6 (6 Suppl. 1): 198S–206S. doi:10.1016/j.spinee.2006.04.006. PMID 17097539.
- ↑ 7.0 7.1 7.2 Nowak, Douglas D.; Joseph K. Lee; Daniel E. Gelb; Kornelis A. Poelstra; Steven C. Ludwig (December 2009). "Central Cord Syndrome". Journal of the American Academy of Orthopaedic Surgeons. 17 (12): 756–765. doi:10.5435/00124635-200912000-00004. PMID 19948700. S2CID 25827586. Archived from the original on 2022-09-20. Retrieved 2021-12-02.
- ↑ "Central Cord Syndrome – Causes, Symptoms, Diagnosis and Treatments". www.aans.org. Archived from the original on 19 November 2021. Retrieved 8 September 2022.
- ↑ Behrman, Andrea, L.; Harkema, Susan J. (2007). "Physical Rehabilitation as an Agent for Recovery After Spinal Cord Injury". Physical Medicine and Rehabilitation Clinics of North America. 18 (2): 183–202. doi:10.1016/j.pmr.2007.02.002. PMID 17543768.
- ↑ Behram, A.L.; Harkema, S.J. (2007). "Physical Rehabilitation as an Agent for Recovery After Spinal Cord Injury". Physical Medicine and Rehabilitation Clinics of North America. 18 (2): 183–202. doi:10.1016/j.pmr.2007.02.002. PMID 17543768.
- ↑ Yadla, S.; Klimo, J.; Harrop, J.S. (2010). "Traumatic Central Cord Syndrome: Etiology, Management, and Outcomes". Topics in Spinal Cord Injury Rehabilitation. 15 (3): 73–84. doi:10.1310/sci1503-73.
- ↑ Yadla, Sanjay; Paul Klimo; James S. Harrop (2010). "Traumatic Central Cord Syndrome: Etiology, Management, and Outcomes". Topics in Spinal Cord Injury Rehabilitation. 15 (3): 73–84. doi:10.1310/sci1503-73. Archived from the original on 2012-07-16.