REPRODUCTION ANALYSIS OF INJURY CONDITION USING FINITE ELEMENT MODELING OF THE HEAD IN CASES WITH TRAUMATIC HIGHER BRAIN DYSFUNCTION CAUSED BY TRAFFIC ACCIDENTS

机译：用交通事故造成的颅脑外伤性颅脑功能障碍病例的头部有限元模拟，再现伤害状况

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Following head trauma caused by traffic accidents, many patients are unable to completely recover their social functions due to higher brain dysfunction although they are able to return home. To predict the onset and severity of post-traumatic higher brain dysfunction, the visualization of responsible injury is considered urgent. In this study, we focused on five patients with higher brain dysfunction following head trauma caused by traffic accidents to establish a method for quantitatively evaluating higher brain dysfunction. The injury conditions were reproduced on the basis of multibody dynamic and collision analyses using finite element (FE) modeling of the human head to determine mechanical responses inside the cranium of these patients. The strain on the frontal lobe generated by an injury condition was suggested to contribute to the onset of attention disturbance during the chronic phase of medical treatment. Reproduction analysis of the injury conditions using FE modeling of the head could predict the onset and severity of traumatic higher brain dysfunction.

机译：由于交通事故引起的头部创伤后，许多患者因脑功能障碍而无法完全恢复社会功能，尽管它们能够回家。为了预测创伤后脑功能障碍的起始和严重程度，应迫切地考虑负责损伤的可视化。在这项研究中，我们专注于头部创伤后的五个脑功能障碍患者，这是由交通事故引起的，建立了定量评估更高脑功能障碍的方法。在使用人体头部的有限元（Fe）建模的多体动态和碰撞分析的基础上恢复损伤条件，以确定这些患者颅骨内的机械反应。通过损伤条件产生的额叶上的菌株有助于在医疗慢性阶段的注意力扰动中有助于注意力扰动。使用头部FE模型的损伤条件的再现分析可以预测创伤性高脑功能障碍的发作和严重程度。

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《ASME international mechanical engineering congress and exposition》|2018年|V003T04A089.1-V003T04A089.9|共9页
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Shigeto Hayashi; Yuelin Zhang; Hiromichi Nakadate; Kojiro Mekata; Haruo Yamashita; Yasuhiro Matsui; Shinichi Nakayama; Hong Ji; Eiji Kohmura; Shigeru Aomura;
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2. Finite element head model simulation of the case suspected of diffuse axonal injury in the traffic accident [J] . Nakadate Hiromichi, Zhang Yuelin, Han Lu, International journal of crashworthiness . 2018,第1a2期

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3. Investigation of the relationship between facial injuries and traumatic brain injuries using a realistic subject-specific finite element head model [J] . Tse Kwong Ming, Tan Long Bin, Lee Shu Jin, Accident Analysis & Prevention . 2015,第juna期

机译：使用特定于对象的有限元头部模型研究面部损伤与脑外伤之间的关系
4. REPRODUCTION ANALYSIS OF INJURY CONDITION USING FINITE ELEMENT MODELING OF THE HEAD IN CASES WITH TRAUMATIC HIGHER BRAIN DYSFUNCTION CAUSED BY TRAFFIC ACCIDENTS [C] . Shigeto Hayashi, Hiromichi Nakadate, Yuelin Zhang, ASME International Mechanical Engineering Congress and Exposition . 2019

机译：交通事故创伤性高脑功能障碍案例中损伤条件的损伤条件的再现分析
5. 3D finite element modeling and signal processing technique of broadband frequency modulated functional near infrared system for human head and detection of traumatic brain injuries. [D] . Sultan, Ebraheem Kh. 2013

机译：宽带调频功能近红外人体头部3D有限元建模和信号处理技术及脑外伤的检测。
6. A QCT-Based Nonsegmentation Finite Element Head Model for Studying Traumatic Brain Injury [O] . Zhaoyang Liang, Yunhua Luo 2015

机译：基于QCT的非分段有限元头部模型研究创伤性脑损伤
7. A QCT-Based Nonsegmentation Finite Element Head Model for Studying Traumatic Brain Injury [O] . Zhaoyang Liang, Yunhua Luo 2015

机译：一种基于QCT的非划分有限元用于研究创伤性脑损伤的非分段

REPRODUCTION ANALYSIS OF INJURY CONDITION USING FINITE ELEMENT MODELING OF THE HEAD IN CASES WITH TRAUMATIC HIGHER BRAIN DYSFUNCTION CAUSED BY TRAFFIC ACCIDENTS

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