Fehér, Kristoffer D; Omlin, Ximena; Tarokh, Leila; Schneider, Carlotta L; Morishima, Yosuke; Züst, Marc A; Wunderlin, Marina; König, Thomas; Hertenstein, Elisabeth; Ellenberger, Benjamin; Ruch, Simon; Schmidig, Flavio; Mikutta, Christian; Trinca, Ersilia; Senn, Walter; Feige, Bernd; Klöppel, Stefan; Nissen, Christoph (2023). Feasibility, efficacy, and functional relevance of automated auditory closed-loop suppression of slow-wave sleep in humans. Journal of sleep research, 32(4), e13846. Wiley-Blackwell 10.1111/jsr.13846
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Journal_of_Sleep_Research_-_2023_-_Feh_r_-_Feasibility_efficacy_and_functional_relevance_of_automated_auditory.pdf - Published Version Available under License Creative Commons: Attribution-Noncommercial-No Derivative Works (CC-BY-NC-ND). Download (4MB) | Preview |
Slow-wave sleep (SWS) is a fundamental physiological process, and its modulation is of interest for basic science and clinical applications. However, automatised protocols for the suppression of SWS are lacking. We describe the development of a novel protocol for the automated detection (based on the whole head topography of frontal slow waves) and suppression of SWS (through closed-loop modulated randomised pulsed noise), and assessed the feasibility, efficacy and functional relevance compared to sham stimulation in 15 healthy young adults in a repeated-measure sleep laboratory study. Auditory compared to sham stimulation resulted in a highly significant reduction of SWS by 30% without affecting total sleep time. The reduction of SWS was associated with an increase in lighter non-rapid eye movement sleep and a shift of slow-wave activity towards the end of the night, indicative of a homeostatic response and functional relevance. Still, cumulative slow-wave activity across the night was significantly reduced by 23%. Undisturbed sleep led to an evening to morning reduction of wake electroencephalographic theta activity, thought to reflect synaptic downscaling during SWS, while suppression of SWS inhibited this dissipation. We provide evidence for the feasibility, efficacy, and functional relevance of a novel fully automated protocol for SWS suppression based on auditory closed-loop stimulation. Future work is needed to further test for functional relevance and potential clinical applications.