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. 2021 Jan;34(1):41-55.
doi: 10.1007/s10548-020-00805-1. Epub 2020 Nov 7.

EEG Microstates Predict Concurrent fMRI Dynamic Functional Connectivity States

Rodolfo Abreu  1   2 João Jorge  3   4 Alberto Leal  5 Thomas Koenig  6 Patrícia Figueiredo  7
Affiliations
Free article

EEG Microstates Predict Concurrent fMRI Dynamic Functional Connectivity States

Rodolfo Abreu et al. Brain Topogr. 2021 Jan.
Free article

Abstract

Brain functional connectivity measured by resting-state fMRI varies over multiple time scales, and recurrent dynamic functional connectivity (dFC) states have been identified. These have been found to be associated with different cognitive and pathological states, with potential as disease biomarkers, but their neuronal underpinnings remain a matter of debate. A number of recurrent microstates have also been identified in resting-state EEG studies, which are thought to represent the quasi-simultaneous activity of large-scale functional networks reflecting time-varying brain states. Here, we hypothesized that fMRI-derived dFC states may be associated with these EEG microstates. To test this hypothesis, we quantitatively assessed the ability of EEG microstates to predict concurrent fMRI dFC states in simultaneous EEG-fMRI data collected from healthy subjects at rest. By training a random forests classifier, we found that the four canonical EEG microstates predicted fMRI dFC states with an accuracy of 90%, clearly outperforming alternative EEG features such as spectral power. Our results indicate that EEG microstates analysis yields robust signatures of fMRI dFC states, providing evidence of the electrophysiological underpinnings of dFC while also further supporting that EEG microstates reflect the dynamics of large-scale brain networks.

Keywords: EEG microstates; Random forests; Simultaneous EEG-fMRI; fMRI dynamic functional connectivity.

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References

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