Role of translational and rotational accelerations on brain strain in lateral head impact.

Zhang J; Yoganandan N; Pintar FA; Gennarelli TA

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Role of translational and rotational accelerations on brain strain in lateral head impact.

机译：平移和旋转加速度对侧向头部撞击中脑疲劳的作用。

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Translational and rotational accelerations from blunt head impact can induce excessive brain strain and cause traumatic brain injuries. However, it is not clear which acceleration plays a major role in the mechanism. The current study used the SIMon human finite element head model (FEHM) and delineated the contributions of these accelerations using post mortem human subject (PMHS) lateral head impact experimental data. Results indicated that rotational acceleration contributes more than 90% of total strain, and translational acceleration produces minimal strain. Therefore, the rotational component is a more important biomechanical metric in this study.

机译：钝头撞击产生的平移和旋转加速度会引起过多的脑部劳损并造成颅脑损伤。但是，尚不清楚哪种加速在该机制中起主要作用。当前的研究使用SIMon人类有限元头部模型（FEHM），并使用事后人类受试者（PMHS）侧面头部撞击实验数据描述了这些加速度的贡献。结果表明，旋转加速度占总应变的90％以上，而平移加速度产生的应变最小。因此，旋转分量是这项研究中更重要的生物力学指标。

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《Biomedical sciences instrumentation》 |2006年第0期|共6页
作者
Zhang J; Yoganandan N; Pintar FA; Gennarelli TA;
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正文语种 eng
中图分类基础医学;
关键词
Head; Brain; Role; experiment; percent of total; 头部; 脑; 角色;

机译：Head;Brain;Role;experiment;percent of total;头部;脑;角色;

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1. Role of translational and rotational accelerations on brain strain in lateral head impact. [J] . Zhang J, Yoganandan N, Pintar FA, Biomedical sciences instrumentation . 2006,第0期

机译：平移和旋转加速度对侧向头部撞击中脑疲劳的作用。
2. Finite element model study of head impact based on Hybrid III head acceleration: the effects of rotational and translational acceleration [J] . Kazunari Ueno, John W. Melvin Journal of biomechanical engineering. . 1995,第3期

机译：基于混合动力III头部加速度的头部撞击的有限元模型研究：旋转和平移加速度的影响
3. Axial head rotation increases facet joint capsular ligament strains in automotive rear impact. [J] . Storvik SG, Stemper BD Medical and Biological Engineering and Computing: Journal of the International Federation for Medical and Biological Engineering . 2011,第2期

机译：轴向头部旋转会增加汽车后部碰撞时小关节囊膜韧带的应变。
4. ROLE OF TRANSLATIONAL AND ROTATIONAL ACCELERATIONS ON BRAIN STRAIN IN LATERAL HEAD IMPACT [C] . Jiangyue Zhang, Narayan Yoganandan, Frank A. Pintar, Annual Rocky Mountain Bioengineering Symposium . 2006

机译：平移和旋转加速对横向撞击脑菌株的作用
5. Development of A Subhuman Primate Brain Finite Element Model to Investigate Brain Injury Thresholds Induced by Head Rotation [D] . Arora, Tushar. 2018

机译：开发郊区灵长类动物有限元模型，以研究头旋转诱导的脑损伤阈值
6. Merging pathology with biomechanics using CHIMERA (Closed-Head Impact Model of Engineered Rotational Acceleration): a novel surgery-free model of traumatic brain injury [O] . Dhananjay R Namjoshi, Wai Hang Cheng, Kurt A McInnes, 2014

机译：使用CHIMERA（工程旋转加速度的闭合头冲击模型）将病理学与生物力学相结合：创伤性脑损伤的新型免手术模型
7. Profiling of translational and rotational head\ud accelerations in youth BMX with and without neck brace [O] . Hurst, HT, Rylands, L, Atkins, SJ, 2017

机译：平移和旋转头的轮廓\ ud 带或不带颈托的青年BMX的加速
8. Derivation of the Coupled Equations of Motion for a Beam Subjected to Three Translational Accelerations and Three Rotational Accelerations. [R] . benedetti, g. a. 1979

机译：三种平移加速度和三种转速下光束耦合运动方程的推导。

Role of translational and rotational accelerations on brain strain in lateral head impact.

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