Department of Psychiatry, Center for Sleep and Consciousness, University of Wisconsin-Madison, Madison, WI, USA.
Stanford University.
Sleep. 2022 Apr 11;45(4). doi: 10.1093/sleep/zsab294.
(1) To critically test whether a previously reported increase in frontolateral 40 Hz power in lucid REM sleep, used to justify the claim that lucid dreaming is a "hybrid state" mixing sleep and wakefulness, is attributable to the saccadic spike potential (SP) artifact as a corollary of heightened REM density. (2) To replicate the finding that lucid dreams are associated with physiological activation, including heightened eye movement density, during REM sleep. (3) To conduct an exploratory analysis of changes in EEG features during lucid REM sleep.
We analyzed 14 signal-verified lucid dreams (SVLDs) and baseline REM sleep segments from the same REM periods from six participants derived from the Stanford SVLD database. Participants marked lucidity onset with standard left-right-left-right-center (LR2c) eye-movement signals in polysomnography recordings.
Compared to baseline REM sleep, lucid REM sleep had higher REM density (β = 0.85, p = 0.002). Bayesian analysis supported the null hypothesis of no differences in frontolateral 40 Hz power after removal of the SP artifact (BH = 0.18) and ICA correction (BH = 0.01). Compared to the entire REM sleep period, lucid REM sleep showed small reductions in low-frequency and beta band spectral power as well as increased signal complexity (all p < 0.05), which were within the normal variance of baseline REM sleep.
Lucid dreams are associated with higher-than-average levels of physiological activation during REM sleep, including measures of both subcortical and cortical activation. Increases in 40 Hz power in periorbital channels reflect saccadic and microsaccadic SPs as a result of higher REM density accompanying heightened activation.
(1)批判性地检验在前额叶皮层 40 Hz 功率增加的情况下,清醒 REM 睡眠是否能证明清醒梦是一种混合睡眠和清醒的“混合状态”,这种增加是否归因于眼跳尖峰电位(SP)作为 REM 密度增加的副产物。(2)复制清醒梦与 REM 睡眠期间的生理激活有关的发现,包括眼动密度增加。(3)对清醒 REM 睡眠期间 EEG 特征的变化进行探索性分析。
我们分析了来自斯坦福清醒梦数据库的六个参与者的 REM 期内相同 REM 期的 14 个信号验证的清醒梦(SVLD)和基线 REM 睡眠段。参与者在多导睡眠图记录中用标准的左右左右中心(LR2c)眼动信号标记清醒梦的开始。
与基线 REM 睡眠相比,清醒 REM 睡眠的 REM 密度更高(β=0.85,p=0.002)。贝叶斯分析支持在去除 SP 伪影(BH=0.18)和 ICA 校正(BH=0.01)后,额叶皮层 40 Hz 功率没有差异的零假设。与整个 REM 睡眠期相比,清醒 REM 睡眠的低频和β波段谱功率降低,信号复杂度增加(均 p<0.05),这在基线 REM 睡眠的正常方差范围内。
清醒梦与 REM 睡眠期间高于平均水平的生理激活有关,包括皮质下和皮质激活的测量。眶周通道 40 Hz 功率的增加反映了 REM 密度增加伴随激活增强而导致的眼跳和微眼跳 SP。
