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A Model for the Future Care of Acute Spinal Cord Injuries

Published online by Cambridge University Press:  18 September 2015

E.H. Botterell ,
A.T. Jousse ,
A.S. Kraus ,
M.G. Thompson ,
M. Wynne-Jones  and
W.O. Geisler
E.H. Botterell*
Affiliation:
departments of Surgical Neurology, Clinical Anatomy and Community Health and Epidemiology, Queens University, Kingston; LyndHurst Hospital, Toronto; and the department of Rehabilitation Medicine, University of Toronto
A.T. Jousse
Affiliation:
departments of Surgical Neurology, Clinical Anatomy and Community Health and Epidemiology, Queens University, Kingston; LyndHurst Hospital, Toronto; and the department of Rehabilitation Medicine, University of Toronto
A.S. Kraus
Affiliation:
departments of Surgical Neurology, Clinical Anatomy and Community Health and Epidemiology, Queens University, Kingston; LyndHurst Hospital, Toronto; and the department of Rehabilitation Medicine, University of Toronto
M.G. Thompson
Affiliation:
departments of Surgical Neurology, Clinical Anatomy and Community Health and Epidemiology, Queens University, Kingston; LyndHurst Hospital, Toronto; and the department of Rehabilitation Medicine, University of Toronto
M. Wynne-Jones
Affiliation:
departments of Surgical Neurology, Clinical Anatomy and Community Health and Epidemiology, Queens University, Kingston; LyndHurst Hospital, Toronto; and the department of Rehabilitation Medicine, University of Toronto
W.O. Geisler
Affiliation:
departments of Surgical Neurology, Clinical Anatomy and Community Health and Epidemiology, Queens University, Kingston; LyndHurst Hospital, Toronto; and the department of Rehabilitation Medicine, University of Toronto
*
Queens University, Kingston, Ontario, Canada, K7L 3N6
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Summary:

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This is a review of the total care of those acute spinal cord injury patients in Ontario during the years 1969 and 1970, from extrication and transportation following the accident to death, or the completion of primary definitive rehabilitation.

Information was extracted from the available ambulance records, the patients and many of the responsible physicians were interviewed personally. The study was detailed and intensive and included a review of each patient's hospital records in each hospital up to discharge from the rehabilitation programme into the community, or to a chronic care unit. The data was compiled in accordance with a detailed and lengthy questionnaire developed for this study.

The incidence of acute cord injuries in Ontario in 1969 and 1970 amounted to 244; in 1969, 15.9 per million population and in 1970, 13.6 per million. As in other studies road accidents took first place, followed by falls from a height; sports injuries ranked third and 65.7% of these were caused by diving into shallow water. Age incidence, and incidence by month, day of week and time of day were identified. Fridays and Saturday afternoons in July and August are particularly hazardous.

The study continued to the end of 1974 by which time 34 deaths had been recorded. Peak incidence of death occurred within fourteen days of injury. The most common cause of death was respiratory in origin.

Geographical distribution was identified and the type of hospital treating the acutely injured patient.

Fourteen percent of persons with spinal column injury suffered progressive or sequential spinal cord damage both prior to and following medical contact. The incidence of pressure sores and genitourinary sepsis and calculosis was high in all types of hospitals. The effect of operative treatment was noted in the cases of complete quadriplegia and paraplegia.

Of the 133 survivors who undertook a rehabilitation program, 84% returned to their homes and 59% achieved gainful employment or ongoing education.

The cost was determined of general hospital services and rehabilitation programmes.

A new model for the care of the spinal cord injury patients in Ontario was proposed.

Type
Research Article
Information
Canadian Journal of Neurological Sciences , Volume 2 , Issue 4 , November 1975 , pp. 361 - 380
Copyright
Copyright © Canadian Neurological Sciences Federation 1975

References

REFERENCES

Albin, S., White, R.J., Acosta-Rua, G. and Yashon, D. (1968). Study of Functional Recovery Produced by Delayed Localized Cooling After Spinal Cord Injury in Primates. Journal of Neurosurgery. 29, 113119.CrossRefGoogle ScholarPubMed
Botterell, E.H. (1939). Presentation at Canadian Medical Association Meeting, Montreal, Quebec, 22 June 1939.Google Scholar
Coyle, T.F. and Bulmer, E. (1975). Personal Communication.Google Scholar
Crutchfield, W.G. (1933). Skeletal Traction for Dislocation of the Cervical Spine, Report of a Case. Southern Surgeon, 2, 156159.Google Scholar
Ducker, T.B. and Hamit, H.F. (1969). Experimental Treatments of Acute Spinal Cord Injury. Journal of Neurosurgery, 30, 693697.CrossRefGoogle ScholarPubMed
Ducker, T.B. and Lucas, J. (1974). Recovery from Spinal Cord Injury. Frontiers in Neurology and Neuroscience Research, 16, 142152.Google Scholar
Gallie, W.E. (1937). Skeletal Traction in the Treatment of Fractures and Dislocations of the Cervical Spine. Annals of Surgery, 106, 770776.CrossRefGoogle ScholarPubMed
Gallie, W.E. (1939). Fractures and Dislocations of the Cervical Spine. American Journal of Surgery, 46, 495499.CrossRefGoogle Scholar
Gillingham, F.J. (1974). Personal Communication.Google Scholar
Gingras, G. (1973). Neglect of Urinary Tract and Kidneys in Paraplegic Patients Can Be Euthanasia in Disguise, CMA President Warns Doctors. Canadian Family Physician, 17, June 1973.Google Scholar
Gregg, T.M. and Wilmot, C.B. (1964). The Flying Squad and the Paraplegic Unit (Preliminary Report). Paraplegia, 2, 1516.Google ScholarPubMed
Gregg, T.M. (1967). Organization of a Spinal Injury Unit Within a Rehabilitation Center. Paraplegia, 5, 163166.Google Scholar
Gregg, T.M. (1975). Personal Communication.Google Scholar
Guttmann, L. (1949). Management of Paralysis. In: Intermittent Catheterization. British Surgical Practice, 6, 445.Google Scholar
Guttmann, L. and Frankel, H. (1966). The Value of Intermittent Catheterization in the Early Management of Traumatic Paraplegia and Tetraplegia. Paraplegia, 4, 6383.Google ScholarPubMed
Guttmann, L. (1973). Spinal Cord Injuries: Comprehensive Management and Research. F. A. Davis, Philadelphia, 1973.Google Scholar
Hachen, H.J. (1974). Emergency Transportation in the Event of Acute Spinal Cord Lesion. Paraplegia, 12, 3337.Google ScholarPubMed
Hepburn, A.L. (1975). Personal Communication.Google Scholar
Jackson, R.W. (1975). Surgical Stabilization of the Spine. In press 1975 (to be published in Paraplegia, August, 1975).Google Scholar
Jousse, A.T., Breithaupt, D.J., Wynne-Jones, M. and Geisler, W.O. (1975). Personal Communication.Google Scholar
McKenzie, K.G. (1935). Fracture, Dislocation and Fracture-Dislocation of the Spine. Canadian Medical Association Journal, 2, 263269.Google Scholar
Meacham, W.F. and McPherson, W.F. (1973). Local Hypothermia in the Treatment of Acute Injuries of the Spinal Cord. Southern Medical Journal, 66, 9597.CrossRefGoogle ScholarPubMed
Meadows, D.H., Meadows, D.L., Randers, J. and Behrens, W.W. (III). (1972). The Limits to Growth: A Report for the Club of Rome’s Project on the Predicament of Mankind. Earth Island Ltd., London, Potomac Associates Inc., Washington, D.C. Page 20.Google Scholar
Munro, D. (1936). Activity of the Urinary Bladder as Measured by a New and Inexpensive Cystometer. New England Journal of Medicine, 214, 517624.CrossRefGoogle Scholar
Munro, D. (1943). Tidal Drainage and Cystometry in the Treatment of Sepsis Associated with Spinal Cord Injuries: A Study of 165 Cases. New England Journal of Medicine, 229, 614.CrossRefGoogle Scholar
Osterholm, J.L. (1974). The Pathophysiological Response to Spinal Cord Injury: The Current Status of Related Research. Journal of Neurosurgery, 40, 533.CrossRefGoogle ScholarPubMed
Pearman, J.W. and England, E.J. (1973). The Urological Management of the Patient Following Spinal Cord Injury. Charles C. Thomas, Springfield, 111.Google Scholar
Peerless, S.J. and Schweigel, J.F. (1974). The Medical and Economic Fate of Twenty-Nine Industrial Spinal Cord Injured Patients. Paraplegia, 12, 145150.Google ScholarPubMed
Romero-Sierra, C., Hansebout, R., Sierhuis, A. and Lewin, M. (1974). A New Method for Localized Spinal-Cord Cooling. Medical and Biological Engineering, 12, 188193.CrossRefGoogle ScholarPubMed
Rossier, A., Berney, J., Rosenbaum, A. and Hachen, J. (1973). The Value of Gas Myelography in the Early Management of Acute Cervical Spinal Cord Injuries. Presented at the Joint Conference of the International Medical Society of Paraplegia and the U.S. Veterans Administration Spinal Cord Injury Conference, Scottsdale, Arizona, October 1973 and at a meeting of the American Association of Neurological Surgeons, St. Louis. Missouri, April 1974. (To be published in the Journal of Neurosurgery.)Google Scholar
Tator, C.H. and Deecke, L. (1973). Value of normothermic perfusion, hypothermic perfusion and durotomy in the treatment of experimental acute spinal cord trauma. Journal of Neurosurgery, 39, 5264.CrossRefGoogle ScholarPubMed
Tator, C.H. (1974). Personal Communication.Google Scholar