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Spinal Cord Injury Medicine. 1. Epidemiology and Classification

      Abstract

      Ho CH, Wuermser LA, Priebe MM, Chiodo AE, Scelza WM, Kirshblum SC. Spinal cord injury medicine. 1. Epidemiology and classification.
      This self-directed learning module reviews the demographics of traumatic and nontraumatic spinal cord injuries (SCIs). It is part of the study guide on SCI medicine in the Self-Directed Physiatric Educational Program for practitioners and trainees in physical medicine and rehabilitation. This article specifically focuses on the changing demographics of traumatic SCI, the classification of SCI, the common causes of nontraumatic SCI, and the incidence and prevalence of myelomeningocele.

      Overall Article Objective

      To summarize the demographics and classification of traumatic and nontraumatic spinal cord injuries in adults and children.

      Key Words

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      References

      1. Key reference.
        • National Spinal Cord Injury Statistical Center
        Spinal cord injury: facts and figures at a glance.
        J Spinal Cord Med. 2005; 28: 379-380
        • Jackson A.B.
        • Dijkers M.
        • DeVivo M.J.
        • Paczatek R.B.
        A demographic profile of new traumatic spinal cord injuries: change and stability over 30 years.
        Arch Phys Med Rehabil. 2004; 85: 1740-1748
      2. Key reference.
      3. Key reference.
        • American Spinal Injury Association
        International standards for neurological classification of spinal cord injury. ASIA, Chicago2002 (revised 2000)
        • American Spinal Injury Association
        Standards for neurological classification of spinal injured patients. ASIA, Chicago1982
        • American Spinal Injury Association, International Medical Society of Paraplegia (ASIA/IMSOP)
        International standards for neurological and functional classification of spinal cord injury. ASIA, Chicago1992 (revised 1992)
      4. International Spinal Cord Society (ISCoS). Available at: http://www.iscos.org.uk. Accessed October 31, 2006.

      5. American Spinal Injury Association. Available at: http://www.asia-spinalinjury.org. Accessed October 31, 2006.

        • Chapman J.
        Comparing medical complications from nontraumatic and traumatic spinal cord injury.
        Arch Phys Med Rehabil. 2000; 81 ([abstract]): 1264
        • Citterio A.
        • Franceschini M.
        • Spizzichino L.
        • Reggio A.
        • Rossi B.
        • Stampacchia G.
        Nontraumatic spinal cord injury: an Italian survey.
        Arch Phys Med Rehabil. 2004; 85: 1483-1487
        • McKinley W.O.
        • Huang M.E.
        • Tewksbury M.A.
        Neoplastic vs. traumatic SCI: an inpatient rehabilitation comparison.
        Am J Phys Med Rehabil. 2000; 79: 138-144
      6. Key reference.
        • McKinley W.O.
        • Tellis A.A.
        • Cifu D.X.
        • et al.
        Rehabilitation outcome of individuals with nontraumatic myelopathy resulting from spinal stenosis.
        J Spinal Cord Med. 1998; 21: 131-136
        • Ghezzi A.
        Clinical characteristics of multiple sclerosis with early onset.
        Neurol Sci. 2004; 25: S336-S339
        • Bergamaschi R.
        • Ghezzi A.
        Devic’s neuromyelitis optica: clinical features and prognostic factors.
        Neurol Sci. 2004; 25: S364-S367
        • Transverse Myelitis Consortium Working Group
        Proposed diagnostic criteria and nosology of acute transverse myelitis.
        Neurology. 2002; 59: 499-505
        • Rectenwald J.E.
        • Huber T.S.
        • Martin T.D.
        • Ozaki C.K.
        • Devidas M.
        • Welborn M.B.
        • Seeger J.M.
        Functional outcome after thoracoabdominal aortic aneurysm repair.
        J Vascular Surg. 2002; 35: 640-647
        • Tabayashi K.
        Spinal cord protection during thoracoabdominal aneurysm repair.
        Surg Today. 2005; 35: 1-6
        • Okada S.
        • Okeda R.
        Pathology of radiation myelopathy.
        Neuropathology. 2001; 21: 247-265
        • Sandalcioglu I.E.
        • Gasser T.
        • Asgari S.
        • et al.
        Functional outcome after surgical treatment of intramedullary spinal cord tumors: experience with 78 patients.
        Spinal Cord. 2005; 43: 34-41
        • Levack P.
        • Graham J.
        • Kidd J.
        Listen to the patient: quality of life of patients with recently diagnosed malignant cord compression in relation to their disability.
        Palliat Med. 2004; 7: 594-601
        • Centers for Disease Control (CDC)
        Spina bifida incidence at birth—United States, 1983-1990.
        MMWR Morb Mortal Wkly Rep. 1992; 41: 447-500
        • From the Centers for Disease Control and Prevention
        Recommendations for folic acid to reduce the number of spina bifida cases and other neural tube defects.
        JAMA. 1993; 269: 1233-1238
        • Tosi L.L.
        • Slater J.E.
        • Shaer C.
        • Mostello L.A.
        Latex allergy in spina bifida patients: prevalence and surgical implications.
        J Pediatr Orthop. 1993; 13: 709-712
        • Molnar G.E.
        Spina bifida.
        in: Molnar G.E. Alexander M.A. Pediatric rehabilitation. 3rd ed. Hanley & Belfus, Philadelphia1999: 219-244
        • Kaufman B.A.
        Neural tube defects.
        Pediatr Clin North Am. 2004; 51: 389-419
        • Charney E.B.
        • Rorke L.B.
        • Sutton L.N.
        • Schut L.
        Management of Chiari II complications in infants with myelomeningocele.
        J Pediatr. 1987; 111: 364-371
        • Tamaki N.
        • Shirataki K.
        • Kojima N.
        • Shouse Y.
        • Matsumoto S.
        Tethered cord syndrome of delayed onset following repair of myelomeningocele.
        J Neurosurg. 1988; 69: 393-398
        • Kirshblum S.C.
        • Donovan W.H.
        Neurologic assessment and classification of traumatic spinal cord injury.
        in: Kirshblum S. Campagnolo D.I. DeLisa J.A. Spinal cord medicine. Lippincott Williams & Wilkins, Philadelphia2002: 82-95