Three-dimensional human head finite-element model validation against two experimental impacts

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Willinger, Remy; Kang, Ho-Sung; Diaw, Baye

Three-dimensional human head finite-element model validation against two experimental impacts

Ann Biomed Eng. May–June 1999;27(3):403-410

Affiliations

¹University of Strasbourg, CNRS UMR 7507 IMF-LSBM, 2 rue Boussingault, Strasbourg, France
Abstract and keywords

The impact response of a three-dimensional human head model has been determined by simulating two cadaver tests. The objective of this study was to validate a finiteelement human head model under different impact conditions by considering intracranial compressibility. The current University Louis Pasteur model was subjected initially to a direct head impact, of short (6 ms) duration, and the simulation results were compared with published experimental cadaver tests. The model response closely matched the experimental data. A long duration pulse was chosen for the second impact and this necessitated careful consideration of the head–neck joint in order to replicate the experimental kinematics. The skull was defined as a rigid body and was subjected to six velocities. Output from the model did not accurately match the experimental results and this clearly indicates that it is important to validate a finite-element head model under various impact conditions to define the range of validity. Lack of agreement for the second impact is attributed to the nonlinearity in the dynamic behavior of intracranial stress, a problem that is not reported in the literature.

Keywords: finite-element head impact modeling; Brain injury; Intracranial pressure
Links

DOI: 10.1114/1.165

PubMed: 10374732

WoS: 000084517700011
History

Received: 1997-04-11

Accepted: 1999-03-23

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