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DEVELOPMENT OF FINITE ELEMENT RAT HEAD MODEL TO STUDY THE EFFECT OF INCIDENT PRESSURE AND SKULL RIGIDITY UNDER BLAST-INDUCED BIOMECHANICAL LOADING

机译：有限元大鼠头模型研究爆炸诱导生物力学负荷下事故压力和颅骨刚度的影响

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Blast waves generated by improvised explosive devices (IEDs) cause traumatic brain injury (TBI) in soldiers and civilians. Currently, in vivo animal models are extensively used to study blast TBI, to identify mechanisms of injury, and to develop injury thresholds. This work focuses on the study of the effect of Incident Pressure (IP), skull rigidity on the measured Intracranial Pressure (ICP) and maximum principle strain measured on the skull using a validated finite element model of the rat head. Our results indicate that the ICP has a negative correlation with the skull rigidity; i.e., with increase in the skull rigidity the ICP tends to decrease. Similarly, ICP linearly increases with an increase in the IP. Finally, the strain has a negative non linear relationship with the skull rigidity.

机译：由简易爆炸装置（IED）产生的爆炸波引起士兵和平民的创伤性脑损伤（TBI）。目前，在体内动物模型中广泛用于研究爆炸TBI，以识别伤害机制，并开发伤害阈值。这项工作侧重于研究事故压力（IP），头骨刚度对测量的颅内压（ICP）的影响以及使用RAT头部的验证的有限元模型测量的颅骨上测量的最大原理应变。我们的结果表明，ICP与颅骨刚性具有负相关性;即，随着颅骨刚度的增加，ICP趋于降低。类似地，ICP随着IP的增加而线性地增加。最后，该菌株具有与颅骨刚度的负非线性关系。

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《ASME Bioengineering Conference》|2014年||共2页
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A. Sundaramurthy; N. Chandra;
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2. Development of skull fracture criterion based on real-world head trauma simulations using finite element head model [J] . Sahoo Debasis, Deck Caroline, Yoganandan Narayan, Journal of the mechanical behavior of biomedical materials . 2016,第Null期

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3. Creating a human head finite element model using a multi-block approach for predicting skull response and brain pressure [J] . Cai Zhihua, Xia Yun, Bao Zheng, Computer methods in biomechanics and biomedical engineering . 2019,第1a4期

机译：使用多块方法创建人头有限元模型，以预测头骨反应和脑压
4. DEVELOPMENT OF FINITE ELEMENT RAT HEAD MODEL TO STUDY THE EFFECT OF INCIDENT PRESSURE AND SKULL RIGIDITY UNDER BLAST-INDUCED BIOMECHANICAL LOADING [C] . A. Sundaramurthy, N. Chandra ASME bioengineering conference . 2014

机译：爆炸冲击力作用下有限元大鼠头部模型的发展，以研究入射压力和头骨刚度的影响
5. Development of Rat Head Finite Element Model and Tissue Level Biomechanical Threshold for Traumatic Axonal Injury [D] . Zhou, Runzhou. 2020

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6. A porohyperelastic finite element model of the eye: the influence of stiffness and permeability on intraocular pressure and optic nerve head biomechanics [O] . Avinash Ayyalasomayajula, Robert I. Park, Bruce R. Simon, -1

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机译：深隧道顶部爆炸挖掘损伤区混合有限离散元建模

DEVELOPMENT OF FINITE ELEMENT RAT HEAD MODEL TO STUDY THE EFFECT OF INCIDENT PRESSURE AND SKULL RIGIDITY UNDER BLAST-INDUCED BIOMECHANICAL LOADING

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