Liu Zehui, Zhou Yuqi, Hao Chao, Ma Ning
Philosophy and Social Science Laboratory of Reading and Development in Children and Adolescents (South China Normal University), Ministry of Education; Center for Sleep Research, Center for Studies of Psychological Application, Guangdong Key Laboratory of Mental Health & Cognitive Science, School of Psychology, South China Normal University, Guangzhou, China.
J Sleep Res. 2025 Feb;34(1):e14264. doi: 10.1111/jsr.14264. Epub 2024 Jun 9.
Insufficient sleep can significantly affect vigilance and increase slow-wave electroencephalographic power as homeostatic sleep pressure accumulates. Phase-amplitude coupling is involved in regulating the spatiotemporal integration of physiological processes. This study aimed to examine the functional associations of resting-state electroencephalographic power and delta/theta-gamma phase-amplitude coupling from the prefrontal cortex (PFC) to posterior regions with vigilance performance after sleep deprivation. Forty-six healthy adults underwent 24-hr sleep deprivation with resting-state electroencephalographic recordings, and vigilant attention was measured using the Psychomotor Vigilance Task. Power spectral and phase-amplitude coupling analyses were conducted, and correlation analysis was utilized to reveal the relationship between electroencephalographic patterns and changes in vigilance resulting from sleep deprivation. Sleep deprivation significantly declined vigilance performance, accompanied by increased resting-state electroencephalographic power in all bands and delta/theta-gamma phase-amplitude coupling. The increased theta activity in centro-parieto-occipital areas significantly correlated with decreased mean and slowest response speed. Conversely, the increased delta-low gamma and theta-high gamma phase-amplitude couplings negatively correlated with the deceleration of the fastest Psychomotor Vigilance Task reaction times. These findings suggest that sleep deprivation affects vigilance by altering electroencephalographic spectral power and information communication across frequency bands in different brain regions. The distinct effects of increased theta power and delta/theta-gamma phase-amplitude coupling might reflect the impairment and compensation of sleep deprivation on vigilance performance, respectively.
随着稳态睡眠压力的累积,睡眠不足会显著影响警觉性并增加慢波脑电图功率。相位-振幅耦合参与调节生理过程的时空整合。本研究旨在探讨睡眠剥夺后,从额叶前额皮质(PFC)到后部区域的静息态脑电图功率以及δ/θ-γ相位-振幅耦合与警觉性能之间的功能关联。46名健康成年人经历了24小时睡眠剥夺,并进行了静息态脑电图记录,使用精神运动警觉任务测量警觉注意力。进行了功率谱和相位-振幅耦合分析,并利用相关性分析揭示脑电图模式与睡眠剥夺导致的警觉性变化之间的关系。睡眠剥夺显著降低了警觉性能,同时所有频段的静息态脑电图功率以及δ/θ-γ相位-振幅耦合均增加。中央顶枕区θ活动增加与平均反应速度和最慢反应速度降低显著相关。相反,δ-低γ和θ-高γ相位-振幅耦合增加与精神运动警觉任务最快反应时间的减慢呈负相关。这些发现表明,睡眠剥夺通过改变不同脑区的脑电图频谱功率和跨频段信息交流来影响警觉性。θ功率增加和δ/θ-γ相位-振幅耦合的不同影响可能分别反映了睡眠剥夺对警觉性能的损害和补偿。
