爆炸诱发神经创伤二十年:知识现状》。

IF 1.8 Q3 CLINICAL NEUROLOGY
Neurotrauma reports Pub Date : 2024-03-14 eCollection Date: 2024-01-01 DOI:10.1089/neur.2024.0001
Tarun Sachdeva, Shailesh G Ganpule
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引用次数: 0

摘要

爆炸诱发神经创伤(BINT)是神经创伤研究的一个重要损伤范例。这篇简短的文章总结了目前有关 BINT 的知识。我们将 BINT 研究分为几大类--实验室中的爆炸波产生、生物力学、病理学、行为结果、动物模型中的重复爆炸以及人类的临床和神经影像学研究。每个子领域都考虑了 2000 年至 2023 年的出版物。通过对文献的分析,我们发现了一些突出的方面。在实验室中使用精心设计的冲击管可以合理地模拟初级爆炸波。已经提出了各种基于生物力学的 BINT 理论;每种理论都可能通过产生独特的生物力学特征而导致 BINT。BINT 的损伤阈值尚处于初级阶段。啮齿类动物的阈值已得到合理确定,但人类还没有此类阈值(以原始爆炸数据为指导)。单次爆炸暴露动物研究表明,神经元病变主要由血脑屏障通透性和氧化应激引起,具有剂量依赖性。这些病变通常是可逆的,恢复时间与剂量有关。动物的行为变化包括焦虑、听觉和识别记忆缺陷以及恐惧条件反射。重复爆炸在动物身上表现出类似的病理现象,但爆炸超压较低。在对暴露于爆炸的军事人员进行的神经影像学调查中观察到白质不规则以及皮质体积和厚度的改变。人类队列中的行为变化包括睡眠障碍、运动技能低下、认知功能障碍、抑郁和焦虑。总之,这篇文章简明扼要地概述了当前的认识、共识、争议和潜在的未来方向。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Twenty Years of Blast-Induced Neurotrauma: Current State of Knowledge.

Blast-induced neurotrauma (BINT) is an important injury paradigm of neurotrauma research. This short communication summarizes the current knowledge of BINT. We divide the BINT research into several broad categories-blast wave generation in laboratory, biomechanics, pathology, behavioral outcomes, repetitive blast in animal models, and clinical and neuroimaging investigations in humans. Publications from 2000 to 2023 in each subdomain were considered. The analysis of the literature has brought out salient aspects. Primary blast waves can be simulated reasonably in a laboratory using carefully designed shock tubes. Various biomechanics-based theories of BINT have been proposed; each of these theories may contribute to BINT by generating a unique biomechanical signature. The injury thresholds for BINT are in the nascent stages. Thresholds for rodents are reasonably established, but such thresholds (guided by primary blast data) are unavailable in humans. Single blast exposure animal studies suggest dose-dependent neuronal pathologies predominantly initiated by blood-brain barrier permeability and oxidative stress. The pathologies were typically reversible, with dose-dependent recovery times. Behavioral changes in animals include anxiety, auditory and recognition memory deficits, and fear conditioning. The repetitive blast exposure manifests similar pathologies in animals, however, at lower blast overpressures. White matter irregularities and cortical volume and thickness alterations have been observed in neuroimaging investigations of military personnel exposed to blast. Behavioral changes in human cohorts include sleep disorders, poor motor skills, cognitive dysfunction, depression, and anxiety. Overall, this article provides a concise synopsis of current understanding, consensus, controversies, and potential future directions.

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来源期刊
CiteScore
2.40
自引率
0.00%
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