非致命性爆炸可在脑脊液中产生空化现象，而严重的头盔撞击则不会：一种新型的爆炸脑损伤机制。

Non-Lethal Blasts can Generate Cavitation in Cerebrospinal Fluid While Severe Helmeted Impacts Cannot: A Novel Mechanism for Blast Brain Injury.

作者信息

Yu Xiancheng, Nguyen Thuy-Tien, Wu Tianchi, Ghajari Mazdak

机构信息

HEAD lab, Dyson School of Design Engineering, Imperial College London, London, United Kingdom.

Centre for Blast Injury Studies, Imperial College London, London, United Kingdom.

出版信息

Front Bioeng Biotechnol. 2022 Jul 7;10:808113. doi: 10.3389/fbioe.2022.808113. eCollection 2022.

DOI:10.3389/fbioe.2022.808113

PMID:35875481

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9302597/

Abstract

Cerebrospinal fluid (CSF) cavitation is a likely physical mechanism for producing traumatic brain injury (TBI) under mechanical loading. In this study, we investigated CSF cavitation under blasts and helmeted impacts which represented loadings in battlefield and road traffic/sports collisions. We first predicted the human head response under the blasts and impacts using computational modelling and found that the blasts can produce much lower negative pressure at the contrecoup CSF region than the impacts. Further analysis showed that the pressure waves transmitting through the skull and soft tissue are responsible for producing the negative pressure at the contrecoup region. Based on this mechanism, we hypothesised that blast, and not impact, can produce CSF cavitation. To test this hypothesis, we developed a one-dimensional simplified surrogate model of the head and exposed it to both blasts and impacts. The test results confirmed the hypothesis and computational modelling of the tests validated the proposed mechanism. These findings have important implications for prevention and diagnosis of blast TBI.

摘要

脑脊液（CSF）空化是机械负荷作用下导致创伤性脑损伤（TBI）的一种可能物理机制。在本研究中，我们研究了爆炸和戴头盔撞击下的脑脊液空化情况，这分别代表了战场负荷以及道路交通/体育碰撞中的负荷。我们首先使用计算模型预测了爆炸和撞击下的人体头部反应，发现爆炸在对冲脑脊液区域产生的负压比撞击产生的负压低得多。进一步分析表明，穿过颅骨和软组织传播的压力波是在对冲区域产生负压的原因。基于这一机制，我们推测爆炸而非撞击会导致脑脊液空化。为验证这一假设，我们开发了一个头部的一维简化替代模型，并使其受到爆炸和撞击作用。测试结果证实了该假设，并且测试的计算模型验证了所提出的机制。这些发现对爆炸性脑损伤的预防和诊断具有重要意义。

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Non-Lethal Blasts can Generate Cavitation in Cerebrospinal Fluid While Severe Helmeted Impacts Cannot: A Novel Mechanism for Blast Brain Injury.非致命性爆炸可在脑脊液中产生空化现象，而严重的头盔撞击则不会：一种新型的爆炸脑损伤机制。

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非致命性爆炸可在脑脊液中产生空化现象，而严重的头盔撞击则不会：一种新型的爆炸脑损伤机制。

Non-Lethal Blasts can Generate Cavitation in Cerebrospinal Fluid While Severe Helmeted Impacts Cannot: A Novel Mechanism for Blast Brain Injury.

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