Meningeal Damage and Interface Astroglial Scarring in the Rat Brain Exposed to a Laser-Induced Shock Wave(s).

IF 3.9 2区 医学 Q1 CLINICAL NEUROLOGY Journal of neurotrauma Pub Date : 2024-08-01 Epub Date: 2024-05-08 DOI:10.1089/neu.2023.0572
Satoko Kawauchi, Akemi Kono, Yuriko Muramatsu, Grant Hennes, Shuta Seki, Susumu Tominaga, Yasue Haruyama, Yukari Komuta, Izumi Nishidate, Susumu Matsukuma, Yushan Wang, Shunichi Sato
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Abstract

In the past decade, signature clinical neuropathology of blast-induced traumatic brain injury has been under intense debate, but interface astroglial scarring (IAS) seems to be convincing. In this study, we examined whether IAS could be replicated in the rat brain exposed to a laser-induced shock wave(s) (LISW[s]), a tool that can produce a pure shock wave (primary mechanism) without dynamic pressure (tertiary mechanism). Under certain conditions, we observed astroglial scarring in the subpial glial plate (SGP), gray-white matter junctions (GM-WM), ventricular wall (VW), and regions surrounding cortical blood vessels, accurately reproducing clinical IAS. We also observed shock wave impulse-dependent meningeal damage (dural microhemorrhage) in vivo by transcranial near-infrared (NIR) reflectance imaging. Importantly, there were significant correlations between the degree of dural microhemorrhage and the extent of astroglial scarring more than 7 days post-exposure, suggesting an association of meningeal damage with astroglial scarring. The results demonstrated that the primary mechanism alone caused the IAS and meningeal damage, both of which are attributable to acoustic impedance mismatching at multi-layered tissue boundaries. The time course of glial fibrillary acidic protein (GFAP) immunoreactivity depended not only on the LISW conditions but also on the regions. In the SGP, significant increases in GFAP immunoreactivity were observed at 3 days post-exposure, whereas in the GM-WM and VW, GFAP immunoreactivity was not significantly increased before 28 days post-exposure, suggesting different pathological mechanisms. With the high-impulse single exposure or the multiple exposure (low impulse), fibrotic reaction or fibrotic scar formation was observed, in addition to astroglial scarring, in the cortical surface region. Although there are some limitations, this seems to be the first report on the shock-wave-induced IAS rodent model. The model may be useful to explore potential therapeutic approaches for IAS.

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暴露于激光诱导冲击波的大鼠脑膜损伤和界面星形胶质细胞瘢痕。
在过去的十年中,爆炸诱发的创伤性脑损伤的标志性临床神经病理学一直存在激烈的争论,但界面星形胶质细胞瘢痕(IAS)似乎令人信服。在本研究中,我们研究了大鼠大脑暴露于激光诱导冲击波(LISW[s])时是否会复制界面星形胶质细胞瘢痕(IAS),激光诱导冲击波是一种能产生纯粹冲击波(第一机制)而无动态压力(第三机制)的工具。在特定条件下,我们观察到星形胶质板(SGP)下、灰质-白质连接处(GM-WM)、室壁(VW)和皮质血管周围区域的星形胶质瘢痕,准确再现了临床 IAS。我们还通过经颅近红外反射成像观察到冲击波脉冲依赖性脑膜损伤(硬脑膜微出血)。重要的是,硬脑膜微出血的程度与暴露后 7 天以上星形胶质细胞瘢痕的程度之间存在明显的相关性,这表明脑膜损伤与星形胶质细胞瘢痕有关联。结果表明,主要机制单独导致了 IAS 和脑膜损伤,两者都可归因于多层组织边界的声阻抗失配。神经胶质纤维酸性蛋白(GFAP)免疫反应的时间进程不仅取决于 LISW 条件,还取决于不同区域。在SGP中,暴露后3天即可观察到GFAP免疫反应的显著增加,而在GM-WM和VW中,暴露后14天之前GFAP免疫反应没有显著增加,这表明病理机制不同。在高脉冲单次暴露或多次暴露(低脉冲)的情况下,除了星形胶质细胞瘢痕外,在皮质表面区域还观察到纤维化反应或纤维化瘢痕的形成。尽管存在一些局限性,但这似乎是关于冲击波诱导 IAS 啮齿动物模型的首次报道。该模型可能有助于探索 IAS 的潜在治疗方法。
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来源期刊
Journal of neurotrauma
Journal of neurotrauma 医学-临床神经学
CiteScore
9.20
自引率
7.10%
发文量
233
审稿时长
3 months
期刊介绍: Journal of Neurotrauma is the flagship, peer-reviewed publication for reporting on the latest advances in both the clinical and laboratory investigation of traumatic brain and spinal cord injury. The Journal focuses on the basic pathobiology of injury to the central nervous system, while considering preclinical and clinical trials targeted at improving both the early management and long-term care and recovery of traumatically injured patients. This is the essential journal publishing cutting-edge basic and translational research in traumatically injured human and animal studies, with emphasis on neurodegenerative disease research linked to CNS trauma.
期刊最新文献
Intravenous Immunomodulatory Nanoparticles Prevent Secondary Damage after Traumatic Brain Injury. Altered Dynamic Brain Functional Network Connectivity Related to Visual Network in Spinal Cord Injury. Genetic Differences Modify Anesthetic Preconditioning of Traumatic Brain Injury in Drosophila. Measuring Self-Efficacy for Concussion Recovery: Psychometric Characteristics of the Progressive Activities of Controlled Exertion-Self-Efficacy Scale. Correction to: Impact of Low-Level Blast Exposure on Brain Function after a One-Day Tactile Training and the Ameliorating Effect of a Jugular Vein Compression Neck Collar Device; DOI: 10.1089/neu.2018.5737.
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