脑电微观状态特征之间的规范性相互关系。

IF 2.3 3区 医学 Q3 CLINICAL NEUROLOGY
Brain Topography Pub Date : 2024-03-01 Epub Date: 2023-07-14 DOI:10.1007/s10548-023-00988-3
Tobias Kleinert, Kyle Nash, Thomas Koenig, Edmund Wascher
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引用次数: 0

摘要

脑电微观状态是短暂的、反复出现的稳定大脑活动期,反映了大规模神经网络的激活。这些微观状态的时间特征,包括其平均持续时间、发生次数和百分比贡献,已被证明是精神和神经疾病的生物标志物。然而,人们对原型网络类型的微观状态特征如何相互关联知之甚少。这些参数之间的规范性相互关联对于帮助研究人员更好地理解底层网络的功能和相互作用、解释和关联结果以及产生新的假设是必要的。在这里,我们对代表西方工作人群(n = 583)。值得注意的是,我们发现微观状态持续时间是一个随微观状态类型变化的一般特征。此外,微观状态A和B表现出相互强化,表明休息时听觉和视觉感觉处理之间的关系。微观状态C似乎发挥了特殊作用,因为它与所有其他微观状态类型的持续时间更长和全局场功率增加有关,这表明这些参数与前部默认模式网络之间存在关系。所有的发现都可以通过重新测试的独立脑电图记录来确认(n = 542)。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Normative Intercorrelations Between EEG Microstate Characteristics.

Normative Intercorrelations Between EEG Microstate Characteristics.

EEG microstates are brief, recurring periods of stable brain activity that reflect the activation of large-scale neural networks. The temporal characteristics of these microstates, including their average duration, number of occurrences, and percentage contribution have been shown to serve as biomarkers of mental and neurological disorders. However, little is known about how microstate characteristics of prototypical network types relate to each other. Normative intercorrelations among these parameters are necessary to help researchers better understand the functions and interactions of underlying networks, interpret and relate results, and generate new hypotheses. Here, we present a systematic analysis of intercorrelations between EEG microstate characteristics in a large sample representative of western working populations (n = 583). Notably, we find that microstate duration is a general characteristic that varies across microstate types. Further, microstate A and B show mutual reinforcement, indicating a relationship between auditory and visual sensory processing at rest. Microstate C appears to play a special role, as it is associated with longer durations of all other microstate types and increased global field power, suggesting a relationship of these parameters with the anterior default mode network. All findings could be confirmed using independent EEG recordings from a retest-session (n = 542).

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来源期刊
Brain Topography
Brain Topography 医学-临床神经学
CiteScore
4.70
自引率
7.40%
发文量
41
审稿时长
3 months
期刊介绍: Brain Topography publishes clinical and basic research on cognitive neuroscience and functional neurophysiology using the full range of imaging techniques including EEG, MEG, fMRI, TMS, diffusion imaging, spectroscopy, intracranial recordings, lesion studies, and related methods. Submissions combining multiple techniques are particularly encouraged, as well as reports of new and innovative methodologies.
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