Jaramillo Valeria, Hebron Henry, Wong Sara, Atzori Giuseppe, Bartsch Ullrich, Dijk Derk-Jan, Violante Ines R
School of Psychology, University of Surrey, Guildford, UK.
Surrey Sleep Research Centre, University of Surrey, Guildford, UK.
Sleep. 2024 Dec 11;47(12). doi: 10.1093/sleep/zsae193.
Alpha and theta oscillations characterize the waking human electroencephalogram (EEG) and can be modulated by closed-loop auditory stimulation (CLAS). These oscillations also occur during rapid eye movement (REM) sleep, but their function here remains elusive. CLAS represents a promising tool to pinpoint how these brain oscillations contribute to brain function in humans. Here we investigate whether CLAS can modulate alpha and theta oscillations during REM sleep in a phase-dependent manner.
We recorded high-density EEG during an extended overnight sleep period in 18 healthy young adults. Auditory stimulation was delivered during both phasic and tonic REM sleep in alternating 6-second ON and 6-second OFF windows. During the ON windows, stimuli were phase-locked to four orthogonal phases of ongoing alpha or theta oscillations detected in a frontal electrode.
The phases of ongoing alpha and theta oscillations were targeted with high accuracy during REM sleep. Alpha and theta CLAS induced phase-dependent changes in power and frequency at the target location. Frequency-specific effects were observed for alpha trough (speeding up) and rising (slowing down) and theta trough (speeding up) conditions. CLAS-induced phase-dependent changes were observed during both REM sleep substages, even though auditory evoked potentials were very much reduced in phasic compared to tonic REM sleep.
This study provides evidence that faster REM sleep rhythms can be modulated by CLAS in a phase-dependent manner. This offers a new approach to investigating how modulation of REM sleep oscillations affects the contribution of this vigilance state to brain function.
α波和θ波振荡是清醒人类脑电图(EEG)的特征,并且可以通过闭环听觉刺激(CLAS)进行调节。这些振荡在快速眼动(REM)睡眠期间也会出现,但其在此处的功能仍不明确。CLAS是一种有前景的工具,可用于确定这些脑振荡如何对人类脑功能产生影响。在此,我们研究CLAS是否能以相位依赖的方式调节REM睡眠期间的α波和θ波振荡。
我们记录了18名健康年轻成年人在整夜延长睡眠期间的高密度脑电图。在REM睡眠的快速眼动期和紧张期,交替在6秒开启和6秒关闭的时间段内给予听觉刺激。在开启时间段内,刺激与在额电极中检测到的正在进行的α波或θ波振荡的四个正交相位锁相。
在REM睡眠期间,正在进行的α波和θ波振荡的相位被高精度靶向。α波和θ波CLAS在目标位置诱导了功率和频率的相位依赖性变化。在α波谷(加速)、上升(减速)和θ波谷(加速)条件下观察到了频率特异性效应。即使与紧张性REM睡眠相比,快速眼动期的听觉诱发电位大大降低,但在两个REM睡眠亚阶段均观察到了CLAS诱导的相位依赖性变化。
本研究提供了证据,表明更快的REM睡眠节律可以被CLAS以相位依赖的方式调节。这为研究REM睡眠振荡的调节如何影响这种警觉状态对脑功能的贡献提供了一种新方法。
