反复睡眠限制及恢复过程中的睡眠稳态：脑电图动力学的支持

Sleep homeostasis during repeated sleep restriction and recovery: support from EEG dynamics.

作者信息

Akerstedt Torbjörn, Kecklund Göran, Ingre Michael, Lekander Mats, Axelsson John

机构信息

Stress Research Institute, University of Stockholm, Stockholm, Sweden.

出版信息

Sleep. 2009 Feb;32(2):217-22. doi: 10.1093/sleep/32.2.217.

DOI:10.1093/sleep/32.2.217

PMID:19238809

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2635586/

Abstract

STUDY OBJECTIVES

Sleep reduction normally causes a homeostatic response during subsequent recovery sleep, but this does not seem to be true for repeated partial sleep loss. The aim of the present study was to test the response to repeated partial sleep loss through detailed focus on spectral data and parts of sleep.

DESIGN

The experiment involved 4 h of sleep across 5 days in the laboratory (partial sleep deprivation [PSD]), followed by 3 days of recovery sleep. PSD was achieved through a delayed bedtime. Nine individuals participated. To avoid "laboratory monotony," subjects were permitted to leave the lab for a few hours each day.

MEASUREMENTS AND RESULTS

All sleep stages and the latencies to sleep and slow wave sleep (SWS) showed a significant reduction during PSD. However, SWS and TST (total sleep time) during the first half of sleep increased gradually across days with PSD. During the first recovery sleep, SWS was significantly increased, while stage 1 and latency to stage 3 were reduced. All were back to baseline on the second night of recovery sleep. Summed spectral power during the first 3.8 h of sleep showed a gradual and robust increase (50% above baseline) in the range 1.25-7.25 Hz across days with PSD up to first recovery sleep and then returned to baseline.

CONCLUSIONS

SWS and summed power density in a broad low-frequency band respond to repeated partial sleep deprivation in a dose-response fashion during the first 4 h sleep, apparently reflecting a robust and stable homeostatic response to sleep loss.

摘要

研究目的

睡眠减少通常会在随后的恢复睡眠期间引起稳态反应，但对于反复的部分睡眠剥夺，情况似乎并非如此。本研究的目的是通过详细关注频谱数据和睡眠的各个部分来测试对反复部分睡眠剥夺的反应。

设计

实验在实验室中进行，为期5天，每天睡眠4小时（部分睡眠剥夺[PSD]），随后是3天的恢复睡眠。通过延迟就寝时间实现部分睡眠剥夺。9名个体参与。为避免“实验室单调”，受试者每天被允许离开实验室几个小时。

测量与结果

在部分睡眠剥夺期间，所有睡眠阶段以及入睡潜伏期和慢波睡眠（SWS）均显著减少。然而，随着部分睡眠剥夺天数的增加，睡眠前半段的慢波睡眠和总睡眠时间（TST）逐渐增加。在首次恢复睡眠期间，慢波睡眠显著增加，而第1阶段和进入第3阶段的潜伏期减少。在恢复睡眠的第二晚，所有指标均恢复到基线水平。在睡眠的前3.8小时内，总的频谱功率在部分睡眠剥夺期间直至首次恢复睡眠期间，在1.25 - 7.25赫兹范围内逐渐且强劲地增加（比基线高50%），然后恢复到基线水平。

结论

在最初4小时睡眠期间，慢波睡眠和一个较宽低频带内的总功率密度以剂量反应方式对反复的部分睡眠剥夺做出反应，这显然反映了对睡眠剥夺的一种强大且稳定的稳态反应。

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