Biomechanics of diffuse brain injuries

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Thibault, Lawrence E.¹; Gennarelli, Thomas A.¹

Biomechanics of diffuse brain injuries

Proceedings of the 10th International Technical Conference on Experimental Safety Vehicles (ESV)

Affiliations

¹University of Pennsylvania
Abstract

This report discusses the development of brain injury tolerance criteria based on the study of three model systems: the primate, inanimate physical surrogates, and isolated tissue elements. Although we are equally concerned with the neural and neurovascular tissue components of the brain, the report will focus on the former and, in particular, the axonal elements. Under conditions of distributed, impulsive, angular acceleration loading, the primate model exhibits a pathophysiological response ranging from mild cerebral concussion to massive, diffuse white matter damage with prolonged coma. When physical models are subjected to identical loading conditions it becomes possible to map the displacements and calculate the associated strains and stresses within the field simulating the brain. Correlating these experimental models leads to predictive levels of tissue element deformation that may be considered as a threshold for specific mechanisms of injury. Isolated tissue studies in the axon then serve to confirm the relationship between ultimate strain, for example, and the pathophysiological consequences. At this time, we have found that elongating strains of between 5 and 10 percent at strain rates of greater than 50sec^-1 produce membrane depolarization and a concomitant decrease in excitability that recovers in minutes. The degree of depolarization is directly proportional to the magnitude of the stretch. Further, total structural failure of the axonal membrane (diameters 400-750.jmm) occurs between 25 and 50 percent elongation at comparable strain rates. These observations are in reasonable agreement with the estimations of critical strains obtained from the primate and physical model studies.
Links

SAE: 856022

Cited Works (4)

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Cited By (27)

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2001	Zhang L, Yang KH, King AI. Biomechanics of neurotrauma. Neurol Res. March–April 2001;23(2-3):144-156.
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2003	Franklyn M, Fildes B, Dwarampudi R, Zhang L, Yang K, Sparke L, Eppinger R. Analysis of computer models for head injury investigation. In: Proceedings of the 18th International Technical Conference on the Enhanced Safety of Vehicles (ESV). May 19-22, 2003; Nagoya, Japan.
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