Vertical topography in EEG microstates: Physiology or artifact manifestation?

medRxiv Pub Date : 2024-07-29 DOI:10.1101/2024.07.29.24311153

T. Jordanek, M. Lamos, R. Mareček

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Abstract

The analysis of EEG microstates is a useful method for exploring large-scale networks and brain dynamics. In addition to the often-reported microstates, or so-called 'canonical microstates', another topography has been reported in the literature - topography with a prominent straight line separating positive and negative values that extends from the nasion to the inion (vertical topography - VT). This topography was also revealed in our simultaneous EEG/fMRI and shielded cabin EEG data collected from 77 participants. Following analyses based on human and phantom data, we conclude that VT partially reflects artifacts caused by unspecified movements of the EEG cap and its metallic components. Our conclusion is supported by evaluation of spatiotemporal characteristics of VT estimated from EEG acquired under various conditions, especially by significant correlation between the framewise displacement (obtained from human EEG/fMRI) and the temporal characteristics of VT. We recommend cautious interpretation of VT when revealed in the data. Its very presence as a resulting topography may affect the spatiotemporal parameters of the other microstates and distorts the shapes of the other topographies.

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脑电图微状态中的垂直地形图：生理学还是人工痕迹？

脑电图微观状态分析是探索大规模网络和大脑动态的有效方法。除了经常报道的微观状态或所谓的 "典型微观状态 "外，文献中还报道了另一种拓扑图--从内侧延伸到内侧的正负值之间有一条明显的直线分隔的拓扑图（垂直拓扑图 - VT）。我们从 77 名参与者收集的同步脑电图/核磁共振成像和屏蔽舱脑电图数据也显示了这一地形。根据对人体和模型数据的分析，我们得出结论，VT 部分反映了脑电图帽及其金属部件的不明运动所造成的伪影。根据不同条件下获得的脑电图估算出的 VT 时空特征，尤其是帧向位移（从人体脑电图/fMRI 中获得）与 VT 时空特征之间的显著相关性，为我们的结论提供了支持。我们建议对数据中显示的 VT 进行谨慎解释。VT作为地形图的存在可能会影响其他微状态的时空参数，并扭曲其他地形图的形状。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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