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大面积左半球脑梗死患者昏迷恢复相关事件相关电位的变化。

Changes in Event-Related Potentials Underlying Coma Recovery in Patients with Large Left Hemispheric Infarction.

机构信息

Department of Neurology, Xuanwu Hospital, Capital Medical University, Beijing, China (mainland).

出版信息

Med Sci Monit. 2019 Jul 10;25:5098-5113. doi: 10.12659/MSM.917157.

DOI:10.12659/MSM.917157
PMID:31326972
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6637818/
Abstract

BACKGROUND The aim of this study was to investigate changes in event-related potentials (ERPs) between coma and awakening in patients with large left hemispheric infarction (left LHI). MATERIAL AND METHODS Ten patients with left LHI who suffered coma and survived to awaken were enrolled in this study. The eye-opening subscore of the Glasgow Coma Scale (GCS) was used to assess the extent of patients' arousal. ERPs elicited by the passive oddball paradigm were collected during coma and awakening states, respectively. Peak latencies, peak amplitudes, topography, and time-frequency information of P1, N1, P2, and mismatch negativity (MMN) were compared between the 2 sessions. RESULTS No significant differences in the peak amplitudes and peak latencies of P1 and N1, but significantly greater P2 amplitude with shorter latency in left hemisphere and midline was shown in the awakening state compared with that in coma. A marked shift of P2 topography in response to deviant tones was also seen, from the right centro-parieto-frontal areas during coma to left frontal-midline areas during awakening. MMN waveforms were not detected in 6/10 patients during the coma state, but these 6 patients all recovered to awakening. Evoked oscillations in bilateral hemisphere were profoundly inhibited during the coma state, with poor inter-trial phase synchronization, while obvious activities with broader frequency ranges and consistent inter-trial phase synchronization were observed during awakening state, and different frequency activities were distributed in distinct brain regions. CONCLUSIONS P2 may be a central index of coma recovery and a component of the arousal system. Changes in time-frequency information could provide more information during coma recovery, perhaps including some cognitive processing of the sensory stimulus.

摘要

背景:本研究旨在探讨左侧大脑半球大面积梗死(left LHI)患者从昏迷到觉醒过程中事件相关电位(ERPs)的变化。

材料与方法:本研究纳入了 10 例左侧大脑半球大面积梗死导致昏迷并最终苏醒的患者。采用格拉斯哥昏迷量表(GCS)的睁眼分项评估患者的觉醒程度。分别在昏迷和觉醒状态下采集被动Oddball 范式诱发的 ERPs。比较了两次试验中 P1、N1、P2 和失匹配负波(MMN)的潜伏期、振幅、地形图和时频信息。

结果:与昏迷状态相比,觉醒状态时左侧和中线半球的 P2 振幅更大,潜伏期更短,但 P1 和 N1 的振幅和潜伏期无显著差异。对偏离音的 P2 地形图也发生了明显的变化,从昏迷时的右中央顶额区转移到觉醒时的左额中线区。6/10 例患者在昏迷状态下未检测到 MMN 波形,但这 6 例患者均恢复至觉醒状态。昏迷状态下双侧半球的诱发振荡受到强烈抑制,试验间相位同步性差,而觉醒状态下观察到明显的活动,频率范围较宽,试验间相位同步性一致,不同频率的活动分布在不同的脑区。

结论:P2 可能是昏迷恢复的中枢指标和觉醒系统的组成部分。时频信息的变化可能在昏迷恢复期间提供更多信息,包括对感觉刺激的一些认知处理。

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