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长时间清醒后睡眠脑电的局部经验依赖性变化。

Local experience-dependent changes in the wake EEG after prolonged wakefulness.

机构信息

Department of Psychiatry, University of Wisconsin, Madison, Madison, WI 53719, USA.

出版信息

Sleep. 2013 Jan 1;36(1):59-72. doi: 10.5665/sleep.2302.

DOI:10.5665/sleep.2302
PMID:23288972
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3524543/
Abstract

STUDY OBJECTIVES

Prolonged wakefulness leads to a progressive increase in sleep pressure, reflected in a global increase in slow wave activity (SWA, 0.5-4.5 Hz) in the sleep electroencephalogram (EEG). A global increase in wake theta activity (5-9 Hz) also occurs. Recently, it was shown that prolonged wakefulness in rodents leads to signs of "local sleep" in an otherwise awake brain, accompanied by a slow/theta wave (2-6 Hz) in the local EEG that occurs at different times in different cortical areas. Compelling evidence in animals and humans also indicates that sleep is locally regulated by the amount of experience-dependent plasticity. Here, we asked whether the extended practice of tasks that involve specific brain circuits results in increased occurrence of local intermittent theta waves in the human EEG, above and beyond the global EEG changes previously described.

DESIGN

Participants recorded with high-density EEG completed 2 experiments during which they stayed awake ≥ 24 h practicing a language task (audiobook listening [AB]) or a visuomotor task (driving simulator [DS]).

SETTING

Sleep laboratory.

PATIENTS OR PARTICIPANTS

16 healthy participants (7 females).

INTERVENTIONS

Two extended wake periods.

MEASUREMENTS AND RESULTS

Both conditions resulted in global increases in resting wake EEG theta power at the end of 24 h of wake, accompanied by increased sleepiness. Moreover, wake theta power as well as the occurrence and amplitude of theta waves showed regional, task-dependent changes, increasing more over left frontal derivations in AB, and over posterior parietal regions in DS. These local changes in wake theta power correlated with similar local changes in sleep low frequencies including SWA.

CONCLUSIONS

Extended experience-dependent plasticity of specific circuits results in a local increase of the wake theta EEG power in those regions, followed by more intense sleep, as reflected by SWA, over the same areas.

摘要

研究目的

长时间清醒会导致睡眠压力逐渐增加,这反映在睡眠脑电图(EEG)中慢波活动(SWA,0.5-4.5Hz)的整体增加。清醒theta 活动(5-9Hz)也会整体增加。最近,研究表明,长时间清醒会导致啮齿动物大脑出现“局部睡眠”的迹象,同时在局部 EEG 中出现慢/theta 波(2-6Hz),这种波在不同的皮质区域以不同的时间出现。动物和人类的有力证据也表明,睡眠是由经验依赖性可塑性的数量来局部调节的。在这里,我们想知道,是否长时间练习涉及特定大脑回路的任务会导致人类 EEG 中局部间歇性 theta 波的出现频率增加,超出了之前描述的全局 EEG 变化。

设计

参与者使用高密度 EEG 记录,在 2 个实验中保持清醒状态≥24 小时,练习语言任务(听有声读物[AB])或视动任务(驾驶模拟器[DS])。

环境

睡眠实验室。

患者或参与者

16 名健康参与者(7 名女性)。

干预措施

两个延长清醒期。

测量和结果

两种条件都导致 24 小时清醒后静息清醒 EEG 中的 theta 功率整体增加,同时伴有嗜睡增加。此外,theta 功率以及 theta 波的出现和幅度表现出区域、任务依赖性的变化,在 AB 中左额区增加更多,在 DS 中后顶叶区增加更多。这种清醒 theta 功率的局部变化与睡眠低频的类似局部变化相关,包括 SWA。

结论

特定回路的经验依赖性可塑性的延长导致这些区域的清醒 theta EEG 功率增加,随后是 SWA 等区域的睡眠增加,这反映了 SWA。