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The paradox of Rapid Eye Movement sleep in the light of oscillatory activity and functional synchronization during phasic and tonic microstates

View ORCID ProfilePéter Simor, Gwen van Der Wijk, View ORCID ProfileFerenc Gombos, Ilona Kovács
doi: https://doi.org/10.1101/498212
Péter Simor
1Institute of Psychology, ELTE Eötvös Loránd University, 1064, Budapest, Hungary
2Semmelweis University, Institute of Behavioural Sciences, 1089, Budapest, Hungary
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Gwen van Der Wijk
3University of Calgary, Department of Psychology, 2500 Calgary, Alberta, Canada
4Budapest University of Technology and Economics, Cognitive Science Department, 1111, Budapest, Hungary
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Ferenc Gombos
5Pázmány Péter Catholic University, Department of General Psychology, 1088, Budapest, Hungary
6MTA-PPKE Adolescent Development Research Group, 1088, Budapest, Hungary
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Ilona Kovács
5Pázmány Péter Catholic University, Department of General Psychology, 1088, Budapest, Hungary
6MTA-PPKE Adolescent Development Research Group, 1088, Budapest, Hungary
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Abstract

Rapid Eye Movement (REM) sleep is a peculiar neural state showing a combination of muscle atonia and intense cortical activity. REM sleep is usually considered as a unitary state in neuroscientific research; however, it is composed of two different microstates: phasic and tonic REM. These differ in awakening thresholds, sensory processing, and cortical oscillations. Nevertheless, studies examining cortical oscillations during REM microstates are scarce, and used low spatial sampling. Here, we analyzed the data of 18 healthy individuals assessed by high-density sleep EEG recordings. We systematically contrasted phasic and tonic REM periods in terms of topographical distribution, source localization, as well as local, global and long-range synchronization of frequency-specific cortical activity. Tonic periods showed relatively increased high alpha and beta power over frontocentral derivations. In addition, higher frequency components of beta power exhibited increased global synchronization during tonic compared to phasic states. In contrast, in phasic periods we found increased power and synchronization of low frequency oscillations coexisting with increased and synchronized gamma activity. Source localization revealed several multimodal, higher-order associative, as well as sensorimotor areas as potential sources of increased high alpha/beta power during tonic compared to phasic REM. Increased gamma power in phasic REM was attributed to medial prefrontal and right lateralized temporal areas associated with emotional processing. Our findings emphasize the heterogeneous nature of REM sleep, expressed in two microstates with remarkably different neural activity. Considering the microarchitecture of REM sleep may provide new insights into the mechanisms of REM sleep in health and disease.

Significance Statement Rapid Eye movement (REM) is composed of the alternation of two markedly different microstates: phasic and tonic REM. Here we present the first high-resolution topographical study that systematically contrasted spectral power, neural synchronization and brain topography of spontaneous cortical oscillations across phasic and tonic microstates. Phasic REM was characterized by the combination of synchronized low frequency oscillations resembling deeper sleep stages and high frequency oscillations reflecting intense cortical activity. In contrast, tonic REM sleep showed increased oscillatory activity in the alpha and beta ranges that may reflect a shift towards increased environmental alertness resembling resting wakefulness. Exploring the neurophysiological aspects of REM microstates may shed new light on the mechanisms of REM sleep in healthy and pathological conditions.

Acknowledgements

The project was supported by the UNKP-18-4 (Bolyai +) New National Excellence Program of the Ministry of Human Capacities. P.S. was supported by the Hungarian Scientific Research Fund (NKFI FK 128100) of the National Research, Development and Innovation Office and by the Bolyai János Research Scholarship of the Hungarian Academy of Sciences. I. K. was supported by the Hungarian Scientific Research Fund (NKFI NK 104481) of the National Research, Development and Innovation Office.

Footnotes

  • Conflict of Interest: The authors declare no competing financial interests.

Copyright 
The copyright holder for this preprint is the author/funder, who has granted bioRxiv a license to display the preprint in perpetuity. All rights reserved. No reuse allowed without permission.
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Posted December 16, 2018.
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The paradox of Rapid Eye Movement sleep in the light of oscillatory activity and functional synchronization during phasic and tonic microstates
Péter Simor, Gwen van Der Wijk, Ferenc Gombos, Ilona Kovács
bioRxiv 498212; doi: https://doi.org/10.1101/498212
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The paradox of Rapid Eye Movement sleep in the light of oscillatory activity and functional synchronization during phasic and tonic microstates
Péter Simor, Gwen van Der Wijk, Ferenc Gombos, Ilona Kovács
bioRxiv 498212; doi: https://doi.org/10.1101/498212

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