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Instability of brain connectivity during nonrapid eye movement sleep reflects altered properties of information integration.


ABSTRACT: Nonrapid eye movement (NREM) sleep is associated with fading consciousness in humans. Recent neuroimaging studies have demonstrated the spatiotemporal alterations of the brain functional connectivity (FC) in NREM sleep, suggesting the changes of information integration in the sleeping brain. However, the common stationarity assumption in FC does not satisfactorily explain the dynamic process of information integration during sleep. The dynamic FC (dFC) across brain networks is speculated to better reflect the time-varying information propagation during sleep. Accordingly, we conducted simultaneous EEG-fMRI recordings involving 12 healthy men during sleep and observed dFC across sleep stages using the sliding-window approach. We divided dFC into two aspects: mean dFC (dFCmean ) and variance dFC (dFCvar ). A high dFCmean indicates stable brain network integrity, whereas a high dFCvar indicates instability of information transfer within and between functional networks. For the network-based dFC, the dFCvar were negatively correlated with the dFCmean across the waking and three NREM sleep stages. As sleep deepened, the dFCmean decreased (N0~N1?>?N2?>?N3), whereas the dFCvar peaked during the N2 stage (N0~N1?

SUBMITTER: Kung YC 

PROVIDER: S-EPMC6865651 | biostudies-literature | 2019 Aug

REPOSITORIES: biostudies-literature

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Instability of brain connectivity during nonrapid eye movement sleep reflects altered properties of information integration.

Kung Yi-Chia YC   Li Chia-Wei CW   Chen Shuo S   Chen Sharon Chia-Ju SC   Lo Chun-Yi Z CZ   Lane Timothy J TJ   Biswal Bharat B   Wu Changwei W CW   Lin Ching-Po CP  

Human brain mapping 20190402 11


Nonrapid eye movement (NREM) sleep is associated with fading consciousness in humans. Recent neuroimaging studies have demonstrated the spatiotemporal alterations of the brain functional connectivity (FC) in NREM sleep, suggesting the changes of information integration in the sleeping brain. However, the common stationarity assumption in FC does not satisfactorily explain the dynamic process of information integration during sleep. The dynamic FC (dFC) across brain networks is speculated to bett  ...[more]

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