Recent Advances in Biomechanics of Brain Injury Research: a Review

Overview

Journal J Neurotrauma

Publisher Mary Ann Liebert

Specialties Emergency Medicine
Neurology

Date 1995 Aug 1

PMID 8683616

Citations 13

Authors

A I King

J S Ruan

C Zhou

W N Hardy

T B Khalil

Affiliations

Soon will be listed here.

Abstract

Biomechanics of cerebral trauma attempts to delineate the dynamic response of the cranial vault contents to a direct or indirect impact to the head. Consequently, brain injury mechanisms and associated tolerance to impact can be deduced by establishing a relationship between neurological deficit and mechanical dosage. The resulting information is invaluable to brain injury prevention and diagnosis. This paper presents an overview of our recent research on head injury focusing on establishing brain injury biomechanics by developing a comprehensive and validated mathematical model. To achieve our goal, we developed a comprehensive three-dimensional finite element human head model, finite element porcine head models, and sensors to monitor head kinematics and brain strains by neutral density accelerometers. The information obtained from this research thus far provided a predictive and somewhat validated mathematical model of the head, which clearly shows a correspondence between brain mechanical response and experimentally observed injuries.

Citing Articles

Diffusion in the corpus callosum predicts persistence of clinical symptoms after mild traumatic brain injury, a multi-scanner study.

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Effect of helmet design on impact performance of industrial safety helmets.

Bottlang M, DiGiacomo G, Tsai S, Madey S Heliyon. 2022; 8(8):e09962.

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Exposure to Repetitive Head Impacts Is Associated With Corpus Callosum Microstructure and Plasma Total Tau in Former Professional American Football Players.

Kochsiek J, ODonnell L, Zhang F, Bonke E, Sollmann N, Tripodis Y J Magn Reson Imaging. 2021; 54(6):1819-1829.

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Impact Performance Comparison of Advanced Bicycle Helmets with Dedicated Rotation-Damping Systems.

Bottlang M, Rouhier A, Tsai S, Gregoire J, Madey S Ann Biomed Eng. 2019; 48(1):68-78.

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Evaluation of a novel bicycle helmet concept in oblique impact testing.

Bliven E, Rouhier A, Tsai S, Willinger R, Bourdet N, Deck C Accid Anal Prev. 2019; 124:58-65.

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