非致命弹丸头部撞击损伤风险评估。

Q3 Medicine
Open Biomedical Engineering Journal Pub Date : 2014-10-30 eCollection Date: 2014-01-01 DOI:10.2174/1874120701408010075
Amar Oukara, Nestor Nsiampa, Cyril Robbe, Alexandre Papy
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引用次数: 13

摘要

动能非致命弹丸用于对人产生足够的影响,以阻止不文明或危险的行为,其永久伤害的可能性很低。自首次使用以来,实际案例表明,这类弹丸造成的伤害可能是不可逆转的,有时会导致死亡,特别是头部撞击。考虑到此类碰撞所涉及的高速度和低质量,在汽车碰撞试验和运动中提出的评估方法可能不合适。因此,需要一种具体的方法来评估这些弹丸的杀伤力。在这个框架中,一些最近的研究数据在本文中被称为“力壁入路”,建议使用依赖于颅内压的三个病变阈值(无意识、脑膜损伤和骨损伤)。对参考弹丸确定了三个相应的临界冲击力。基于相同刚性壁最大撞击力对头部产生相同损伤的原理,这些极限可以用于任何其他弹丸。为了验证该创新方法的一致性,有必要将结果与其他现有评估方法进行比较。本文对“力墙法”和两种不同的头部模型进行了比较。第一个是来自斯特拉斯堡大学的数值模型(Strasbourg University Finite Element Head model - sufehm);第二个是来自生物动力学的机械替代品(弹道负载传感头形- blsh)。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Injury risk assessment of non-lethal projectile head impacts.

Injury risk assessment of non-lethal projectile head impacts.

Injury risk assessment of non-lethal projectile head impacts.

Injury risk assessment of non-lethal projectile head impacts.

Kinetic energy non-lethal projectiles are used to impart sufficient effect onto a person in order to deter uncivil or hazardous behavior with a low probability of permanent injury. Since their first use, real cases indicate that the injuries inflicted by such projectiles may be irreversible and sometimes lead to death, especially for the head impacts. Given the high velocities and the low masses involved in such impacts, the assessment approaches proposed in automotive crash tests and sports may not be appropriate. Therefore, there is a need of a specific approach to assess the lethality of these projectiles. In this framework, some recent research data referred in this article as "force wall approach" suggest the use of three lesional thresholds (unconsciousness, meningeal damages and bone damages) that depend on the intracranial pressure. Three corresponding critical impact forces are determined for a reference projectile. Based on the principle that equal rigid wall maximal impact forces will produce equal damage on the head, these limits can be determined for any other projectile. In order to validate the consistence of this innovative method, it is necessary to compare the results with other existing assessment methods. This paper proposes a comparison between the "force wall approach" and two different head models. The first one is a numerical model (Strasbourg University Finite Element Head Model-SUFEHM) from Strasbourg University; the second one is a mechanical surrogate (Ballistics Load Sensing Headform-BLSH) from Biokinetics.

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来源期刊
Open Biomedical Engineering Journal
Open Biomedical Engineering Journal Medicine-Medicine (miscellaneous)
CiteScore
1.60
自引率
0.00%
发文量
4
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