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Rapid Eye Movement Sleep Sawtooth Waves Are Associated with Widespread Cortical Activations

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FRAUSCHER Birgit VON ELLENRIEDER Nicolas DOLEŽALOVÁ Irena BOUHADOUN Sarah GOTMAN Jean PETER-DEREX Laure

Rok publikování 2020
Druh Článek v odborném periodiku
Časopis / Zdroj JOURNAL OF NEUROSCIENCE
Fakulta / Pracoviště MU

Lékařská fakulta

Citace
www https://www.jneurosci.org/content/40/46/8900
Doi http://dx.doi.org/10.1523/JNEUROSCI.1586-20.2020
Klíčová slova gamma; polysomnography; REM; signal analysis; sleep; stereo-EEG
Popis Sawtooth waves (STW) are bursts of frontocentral slow oscillations recorded in the scalp electroencephalogram (EEG) during rapid eye movement (REM) sleep. Little is known about their cortical generators and functional significance. Stereo-EEG per-formed for presurgical epilepsy evaluation offers the unique possibility to study neurophysiology in situ in the human brain. We investigated intracranial correlates of scalp-detected STW in 26 patients (14 women) undergoing combined stereo-EEG/ polysomnography. We visually marked STW segments in scalp EEG and selected stereo-EEG channels exhibiting normal activity for intracranial analyses. Channels were grouped in 30 brain regions. The spectral power in each channel and frequency band was computed during STW and non-STW control segments. Ripples (80-250 Hz) were automatically detected during STW and control segments. The spectral power in the different frequency bands and the ripple rates were then compared between STW and control segments in each brain region. An increase in 2-4 Hz power during STW segments was found in all brain regions, except the occipital lobe, with large effect sizes in the parietotemporal junction, the lateral and orbital frontal cortex, the anterior insula, and mesiotemporal structures. A widespread increase in high-frequency activity, including ripples, was observed concomitantly, involving the sensorimotor cortex, associative areas, and limbic structures. This distribution showed a high spatiotemporal heterogeneity. Our results suggest that STW are associated with widely distributed, but locally regulated REM sleep slow oscillations. By driving fast activities, STW may orchestrate synchronized reactivations of multifocal activities, allowing tagging of complex representations necessary for REM sleep-dependent memory consolidation.

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