疲劳和困倦状态下的非快速眼动睡眠脑电图功率分布
Non-REM sleep EEG power distribution in fatigue and sleepiness.
作者信息
Neu Daniel, Mairesse Olivier, Verbanck Paul, Linkowski Paul, Le Bon Olivier
机构信息
Brugmann University Hospital, Sleep Laboratory & Unit for Chronobiology U78, Free University of Brussels (U.L.B/V.U.B.), Brussels, Belgium; UNI, ULB Neurosciences Institute, Faculty of Medicine, Laboratory for Medical Psychology ULB312, Université Libre de Bruxelles (U.L.B.), Brussels, Belgium.
Brugmann University Hospital, Sleep Laboratory & Unit for Chronobiology U78, Free University of Brussels (U.L.B/V.U.B.), Brussels, Belgium; UNI, ULB Neurosciences Institute, Faculty of Medicine, Laboratory for Medical Psychology ULB312, Université Libre de Bruxelles (U.L.B.), Brussels, Belgium; Department of Experimental and Applied Psychology (EXTO), Vrije Universiteit Brussel (V.U.B.), Brussels, Belgium.
出版信息
J Psychosom Res. 2014 Apr;76(4):286-91. doi: 10.1016/j.jpsychores.2014.02.002. Epub 2014 Feb 17.
OBJECTIVES
The aim of this study is to contribute to the sleep-related differentiation between daytime fatigue and sleepiness.
METHODS
135 subjects presenting with sleep apnea-hypopnea syndrome (SAHS, n=58) or chronic fatigue syndrome (CFS, n=52) with respective sleepiness or fatigue complaints and a control group (n=25) underwent polysomnography and psychometric assessments for fatigue, sleepiness, affective symptoms and perceived sleep quality. Sleep EEG spectral analysis for ultra slow, delta, theta, alpha, sigma and beta power bands was performed on frontal, central and occipital derivations.
RESULTS
Patient groups presented with impaired subjective sleep quality and higher affective symptom intensity. CFS patients presented with highest fatigue and SAHS patients with highest sleepiness levels. All groups showed similar total sleep time. Subject groups mainly differed in sleep efficiency, wake after sleep onset, duration of light sleep (N1, N2) and slow wave sleep, as well as in sleep fragmentation and respiratory disturbance. Relative non-REM sleep power spectra distributions suggest a pattern of power exchange in higher frequency bands at the expense of central ultra slow power in CFS patients during all non-REM stages. In SAHS patients, however, we found an opposite pattern at occipital sites during N1 and N2.
CONCLUSIONS
Slow wave activity presents as a crossroad of fatigue and sleepiness with, however, different spectral power band distributions during non-REM sleep. The homeostatic function of sleep might be compromised in CFS patients and could explain why, in contrast to sleepiness, fatigue does not resolve with sleep in these patients. The present findings thus contribute to the differentiation of both phenomena.
目的
本研究旨在促进日间疲劳和嗜睡在睡眠相关方面的区分。
方法
135名受试者,其中患有睡眠呼吸暂停低通气综合征(SAHS,n = 58)或慢性疲劳综合征(CFS,n = 52)并分别伴有嗜睡或疲劳主诉,以及一个对照组(n = 25),接受了多导睡眠图检查以及针对疲劳、嗜睡、情感症状和感知睡眠质量的心理测量评估。对额部、中央和枕部导联进行了睡眠脑电图频谱分析,分析超慢波、δ波、θ波、α波、σ波和β波频段。
结果
患者组呈现出主观睡眠质量受损以及更高的情感症状强度。CFS患者的疲劳程度最高,SAHS患者的嗜睡程度最高。所有组的总睡眠时间相似。各受试者组主要在睡眠效率、睡眠开始后的觉醒、浅睡眠(N1、N2)和慢波睡眠的持续时间,以及睡眠片段化和呼吸紊乱方面存在差异。相对非快速眼动睡眠功率谱分布表明,在所有非快速眼动阶段,CFS患者高频段存在功率交换模式,以中央超慢波功率为代价。然而,在SAHS患者中,我们在N1和N2期间枕部导联发现了相反的模式。
结论
慢波活动是疲劳和嗜睡的交叉点,然而在非快速眼动睡眠期间具有不同的频谱功率带分布。CFS患者的睡眠稳态功能可能受损,这可以解释为什么与嗜睡不同,这些患者的疲劳不会通过睡眠缓解。因此,本研究结果有助于区分这两种现象。
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