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Connectivity differences between consciousness and unconsciousness in non-rapid eye movement sleep: a TMS–EEG study

Minji Lee, Benjamin Baird, Olivia Gosseries, Jaakko O. Nieminen, Melanie Boly, Bradley R. Postle, Giulio Tononi, Seong–whan Lee

Scientific Reports March 26, 2019 DOI: 10.1038/s41598-019-41274-2 via OpenAlex

Summary

During non-rapid eye movement sleep, conscious experiences are linked to reduced phase-locking at low frequencies (<4 Hz) and lower transitivity and clustering coefficient in delta and theta bands compared to unconsciousness, especially over parietal-occipital regions. No significant differences in Granger-causality patterns between frontal and parietal areas were found. These findings suggest that decreased local connectivity at low frequencies in posterior brain regions may indicate consciousness during sleep.

Study at a glance

Characteristics Observational study Peer reviewed
Population Humans during non-rapid eye movement sleep
Keywords Unconsciousness Electroencephalography Neuroscience Psychology Posterior parietal cortex
Citations 98
Key finding Consciousness during NREM sleep is associated with reduced local connectivity at low frequencies in posterior brain areas compared to unconsciousness.

Abstract

The neuronal connectivity patterns that differentiate consciousness from unconsciousness remain unclear. Previous studies have demonstrated that effective connectivity, as assessed by transcranial magnetic stimulation combined with electroencephalography (TMS-EEG), breaks down during the loss of consciousness. This study investigated changes in EEG connectivity associated with consciousness during non-rapid eye movement (NREM) sleep following parietal TMS. Compared with unconsciousness, conscious experiences during NREM sleep were associated with reduced phase-locking at low frequencies (<4 Hz). Transitivity and clustering coefficient in the delta and theta bands were also significantly lower during consciousness compared to unconsciousness, with differences in the clustering coefficient observed in scalp electrodes over parietal-occipital regions. There were no significant differences in Granger-causality patterns in frontal-to-parietal or parietal-to-frontal connectivity between reported unconsciousness and reported consciousness. Together these results suggest that alterations in spectral and spatial characteristics of network properties in posterior brain areas, in particular decreased local (segregated) connectivity at low frequencies, is a potential indicator of consciousness during sleep.

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