Litcius/Paper detail

Effects of auditory sleep modulation approaches on brain oscillatory and cardiovascular dynamics

Stephanie Huwiler, Manuel Carro Dominguez, Silja Huwyler, Luca Kiener, Fabia Stich, Rossella Sala, Florent Aziri, Anna Trippel, Christian Schmied, Reto Huber, Nicole Wenderoth, Caroline Lustenberger

2022SLEEP33 citationsDOIOpen Access PDF

Abstract

Slow waves, the hallmark feature of deep nonrapid eye movement sleep, do potentially drive restorative effects of sleep on brain and body functions. Sleep modulation techniques to elucidate the functional role of slow waves thus have gained large interest. Auditory slow wave stimulation is a promising tool; however, directly comparing auditory stimulation approaches within a night and analyzing induced dynamic brain and cardiovascular effects are yet missing. Here, we tested various auditory stimulation approaches in a windowed, 10 s ON (stimulations) followed by 10 s OFF (no stimulations), within-night stimulation design and compared them to a SHAM control condition. We report the results of three studies and a total of 51 included nights and found a large and global increase in slow-wave activity (SWA) in the stimulation window compared to SHAM. Furthermore, slow-wave dynamics were most pronouncedly increased at the start of the stimulation and declined across the stimulation window. Beyond the changes in brain oscillations, we observed, for some conditions, a significant increase in the mean interval between two heartbeats within a stimulation window, indicating a slowing of the heart rate, and increased heart rate variability derived parasympathetic activity. Those cardiovascular changes were positively correlated with the change in SWA, and thus, our findings provide insight into the potential of auditory slow wave enhancement to modulate cardiovascular restorative conditions during sleep. However, future studies need to investigate whether the potentially increased restorative capacity through slow-wave enhancements translates into a more rested cardiovascular system on a subsequent day.

Topics & Concepts

Sleep (system call)AudiologyNeuroscienceDynamics (music)ElectroencephalographyMedicineModulation (music)PsychologyPhysicsComputer scienceOperating systemAcousticsPedagogySleep and Wakefulness ResearchEEG and Brain-Computer InterfacesSleep and related disorders
Effects of auditory sleep modulation approaches on brain oscillatory and cardiovascular dynamics | Litcius