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FINITE ELEMENT ANALYSIS OF A CLOSE HEAD AXONAL INJURY MODEL - RELATING BRAIN TISSUE BIOMECHANICS TO SKULL DEFORMATION

机译：头部轴突损伤模型的有限元分析-脑组织生物力学与颅骨变形的关系。

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Biomechanical responses of a rat brain in a new weight-drop model were investigated by comparing histological results against finite element model predictions. This graded axonal injury rat model differed from others because of its utilization of intact skull without global angular motion to confound data analyses. Results demonstrated that the maximum principal strain and the compressive strain along the impact direction best correlated the experimentally observed injury locations while the shear strain did not have positive correlation.

机译：通过比较组织学结果与有限元模型预测，研究了新的体重减轻模型中大鼠大脑的生物力学响应。这种分级的轴突损伤大鼠模型与其他模型有所不同，因为它利用了完整的颅骨而没有整体角度运动来混淆数据分析。结果表明，沿冲击方向的最大主应变和压缩应变与实验观察到的损伤位置最佳相关，而剪切应变没有正相关。

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《ASME summer bioengineering conference;SBC2008》|2009年|1061-1062|共2页
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Haojie Mao; Liying Zhang; King H. Yang; Albert I. King; Jozsef Pal; Ferenc Gallyas;
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1. The Biomechanical Determinants of Concussion: Finite Element Simulations to Investigate Brain Tissue Deformations During Sporting Impacts to the Unprotected Head [J] . Declan A. Patton, Andrew S. Mclntosh, Svein Kleiven Journal of Applied Biomechanics . 2013,第6期

机译：脑震荡的生物力学决定因素：运动对不受保护的头部的冲击过程中调查脑组织变形的有限元模拟。
2. BIOMECHANICAL ANALYSIS OF OCCUPANT'S BRAIN RESPONSE AND INJURY IN VEHICLE INTERIOR SECOND IMPACT UTILIZING A REFINED HEAD FINITE ELEMENT MODEL [J] . Ma Zhengwei, Jing Lele, Wang Jinlun, Journal of mechanics in medicine and biology . 2017,第7期

机译：利用精炼头有限元模型的乘员脑响应和车辆内部第二次冲击损伤的生物力学分析
3. Infant skull fractures: Accident or abuse? Evidences from biomechanical analysis using finite element head models [J] . Li Xiaogai, Sandler Hakan, Kleiven Svein Forensic science international . 2019,第期

机译：婴儿头骨骨折：事故或虐待？使用有限元头模型的生物力学分析证据
4. FINITE ELEMENT ANALYSIS OF A CLOSE HEAD AXONAL INJURY MODEL - RELATING BRAIN TISSUE BIOMECHANICS TO SKULL DEFORMATION [C] . ASME bioengineering conference . 2009

机译：近端轴突损伤模型与脑组织生物力学对头骨变形的有限元分析
5. Development of Rat Head Finite Element Model and Tissue Level Biomechanical Threshold for Traumatic Axonal Injury [D] . Zhou, Runzhou. 2020

机译：基于特性的特性模型和组织水平生物力学阈值的开发创伤性轴突损伤
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FINITE ELEMENT ANALYSIS OF A CLOSE HEAD AXONAL INJURY MODEL - RELATING BRAIN TISSUE BIOMECHANICS TO SKULL DEFORMATION

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