Citation

Cournoyer J, Hoshizaki TB. Sports Biomech. 2019; ePub(ePub): 1-17.

Affiliation

School of Human Kinetics, Faculty of Health Sciences , University of Ottawa , Ottawa , Ontario , Canada.

Copyright

(Copyright © 2019, Edinburgh University Press)

DOI

10.1080/14763141.2019.1600004

PMID

31099312

Abstract

Loss of consciousness (LOC) associated with concussion is no longer considered an indicator of severity of injury in concussion management protocols. Studies investigating the association between LOC and recovery time or neurophysiological performance have reported ambiguous findings and resulted in a limited understanding of the severity of LOC-inducing head impacts. Concussive injuries with and without LOC from helmet-to-helmet and shoulder collisions and falls in elite American football were reconstructed in laboratory using a hybrid III headform and finite element model to obtain peak linear and rotational acceleration and brain tissue deformation metrics in the cerebral cortex, the cerebral white matter, the corpus callosum, the thalamus and the brainstem. Impact velocity, peak linear and rotational acceleration were significantly greater in the LOC group than the no LOC group. The brain tissue deformation metrics were greater in the LOC group than the no LOC group. The best overall predictor for LOC was impact velocity. Concussions with LOC are characterised by greater magnitudes of brain tissue deformation. This was mainly the result of higher impact velocities in the LOC group providing league decision-makers with an understanding of the importance of managing impact velocity through athlete education and rule enforcement or change.

Language: en

Keywords

Severity; brain tissue deformation; head accelerations; return-to-play