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Journal Article

Citation

Jones CF, Clarke EC. Clin. Biomech. 2019; 64: 69-81.

Affiliation

Institute for Bone and Joint Research, Kolling Institute, Sydney Medical School, University of Sydney, Australia. Electronic address: Elizabeth.clarke@sydney.edu.au.

Copyright

(Copyright © 2019, Elsevier Publishing)

DOI

10.1016/j.clinbiomech.2018.03.019

PMID

29625748

Abstract

BACKGROUND: The mechanical interactions occurring between the spinal column and spinal cord during an injury event are complex and variable, and likely have implications for the clinical presentation and prognosis of the individual.

METHODS: The engineering approaches that have been developed to better understand spinal column and cord interactions during an injury event are discussed. These include injury models utilising human and animal cadaveric specimens, in vivo anaesthetised animals, finite element models, inanimate physical systems and combinations thereof.

FINDINGS: The paper describes the development of these modelling approaches, discusses the advantages and disadvantages of the various models, and the major outcomes that have had implications for spinal cord injury research and clinical practice.

INTERPRETATION: The contribution of these four engineering approaches to understanding the interaction between the biomechanics and biology of spinal cord injury is substantial; they have improved our understanding of the factors contributing to the spinal column disruption, the degree of spinal cord deformation or motion, and the resultant neurological deficit and imaging features. Models of the injury event are challenging to produce, but technological advances are likely to improve these models and, consequently, our understanding of the mechanical context in which the biological injury occurs.

Copyright © 2018 Elsevier Ltd. All rights reserved.


Language: en

Keywords

Animal model; Cadaveric; Closed column; Finite element model; Spinal cord injury; Surrogate

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