Brain Strain from Motion of Sparse Markers.

Q2 Medicine
Zhou Zhou, Xiaogai Li, Svein Kleiven, Warren N Hardy
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引用次数: 33

Abstract

Brain strain secondary to head impact or inertial loading is closely associated with pathologic observations in the brain. The only experimental brain strain dataset under loadings close to traumatic levels was calculated by imposing the experimentally measured motion of markers embedded in the brain to an auxiliary model formed by triad elements (Hardy et al., 2007). However, fidelity of the calculated strain as well as the suitability of using triad elements for three-dimensional (3D) strain estimation remains to be verified. Therefore, this study proposes to use tetrahedron elements as a new approach to estimate the brain strain. Fidelity of this newly-proposed approach along with the previous triad-based approach is evaluated with the aid of three independently-developed finite element (FE) head models by numerically replicating the experimental impacts and strain estimation procedures. Strain in the preselected brain elements obtained from the whole head simulation exhibits good correlation with its tetra estimation and exceeds its triad estimation, indicating that the tetra approach more accurately estimates the strain in the preselected region. The newly calculated brain strain curves using tetra elements provide better approximations for the 3D experimental brain deformation and can be used for strain validation of FE models of human head.

稀疏标记运动引起的脑疲劳。
继发于头部撞击或惯性负荷的脑劳损与脑部病理观察密切相关。在接近创伤水平的负荷下,唯一的实验脑应变数据集是通过将实验测量的嵌入大脑的标记物的运动施加到由三元元素组成的辅助模型中来计算的(Hardy等,2007)。然而,计算应变的保真度以及使用三元元进行三维(3D)应变估计的适用性仍有待验证。因此,本研究提出将四面体元素作为评估脑应变的新方法。通过三种独立开发的有限元(FE)头部模型,通过数值模拟实验冲击和应变估计过程,评估了这种新提出的方法与先前基于三元组的方法的保真度。全头部仿真得到的预选脑单元应变与其四元估计值具有良好的相关性,且优于三元估计值,说明四元方法对预选区域应变的估计更为准确。新计算的四元脑应变曲线能较好地逼近三维脑变形实验,可用于人头有限元模型的应变验证。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Stapp car crash journal
Stapp car crash journal Medicine-Medicine (all)
CiteScore
3.20
自引率
0.00%
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