轻度低温对患有缺血性中风和扩散性去极化的脑回脑的神经生理效应。

The neurophysiological effect of mild hypothermia in gyrencephalic brains submitted to ischemic stroke and spreading depolarizations.

作者信息

Díaz-Peregrino Roberto, Kentar Modar, Trenado Carlos, Sánchez-Porras Renán, Albiña-Palmarola Pablo, Ramírez-Cuapio Francisco L, San-Juan Daniel, Unterberg Andreas, Woitzik Johannes, Santos Edgar

机构信息

Department of Neurosurgery, University Hospital Heidelberg, Ruprecht-Karls-University Heidelberg, Heidelberg, Germany.

Departement of Neurosurgery, Städtisches Klinikum Braunschweig gGmbH, Braunschweig, Germany.

出版信息

Front Neurosci. 2024 Mar 14;18:1302767. doi: 10.3389/fnins.2024.1302767. eCollection 2024.

DOI:10.3389/fnins.2024.1302767

PMID:38567280

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10986791/

Abstract

OBJECTIVE

Characterize the neurophysiological effects of mild hypothermia on stroke and spreading depolarizations (SDs) in gyrencephalic brains.

METHODS

Left middle cerebral arteries (MCAs) of six hypothermic and six normothermic pigs were permanently occluded (MCAo). Hypothermia began 1 h after MCAo and continued throughout the experiment. ECoG signals from both frontoparietal cortices were recorded. Five-minute ECoG epochs were collected 5 min before, at 5 min, 4, 8, 12, and 16 h after MCAo, and before, during, and after SDs. Power spectra were decomposed into fast (alpha, beta, and gamma) and slow (delta and theta) frequency bands.

RESULTS

In the vascular insulted hemisphere under normothermia, electrodes near the ischemic core exhibited power decay across all frequency bands at 5 min and the 4th hour after MCAo. The same pattern was registered in the two furthest electrodes at the 12th and 16th hour. When mild hypothermia was applied in the vascular insulted hemispheres, the power decay was generalized and seen even in electrodes with uncompromised blood flow. During SD analysis, hypothermia maintained increased delta and beta power during the three phases of SDs in the furthest electrode from the ischemic core, followed by the second furthest and third electrode in the beta band during preSD and postSD segments. However, in hypothermic conditions, the third electrode showed lower delta, theta, and alpha power.

CONCLUSION

Mild hypothermia attenuates all frequency bands in the vascularly compromised hemisphere, irrespective of the cortical location. During SD formation, it preserves power spectra more significantly in electrodes further from the ischemic core.

摘要

目的

描述轻度低温对脑回脑中风和扩散性去极化（SDs）的神经生理影响。

方法

对六只低温猪和六只常温猪的左侧大脑中动脉（MCA）进行永久性闭塞（MCAo）。低温在MCAo后1小时开始，并持续整个实验过程。记录双侧额顶叶皮质的脑电信号（ECoG）。在MCAo前5分钟、MCAo后5分钟、4小时、8小时、12小时和16小时以及SDs之前、期间和之后收集5分钟的ECoG时段。功率谱被分解为快速（α、β和γ）和慢速（δ和θ）频段。

结果

在常温下血管受损的半球中，缺血核心附近的电极在MCAo后5分钟和第4小时所有频段均出现功率衰减。在第12小时和16小时，最远的两个电极也出现了相同的模式。当在血管受损的半球应用轻度低温时，功率衰减是全身性的，甚至在血流未受影响的电极中也能看到。在SD分析期间，低温在离缺血核心最远的电极的SDs三个阶段中使δ和β功率增加，随后在预SD和后SD段中β频段的第二远和第三电极也出现这种情况。然而，在低温条件下，第三电极的δ、θ和α功率较低。

结论

轻度低温可减弱血管受损半球的所有频段，无论皮质位置如何。在SD形成过程中，它在离缺血核心较远的电极中更显著地保留功率谱。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/810f/10986791/2b5e98e4dd0d/fnins-18-1302767-g001.jpg

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轻度低温对患有缺血性中风和扩散性去极化的脑回脑的神经生理效应。

The neurophysiological effect of mild hypothermia in gyrencephalic brains submitted to ischemic stroke and spreading depolarizations.

作者信息

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出版信息

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METHODS

RESULTS

CONCLUSION

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结果

结论

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