Effects of Exposure to a Weak Extremely Low Frequency Electromagnetic Field on Daytime Sleep Architecture and Length

Q4 Medicine

Sleep Medicine Research Pub Date : 2019-12-31 DOI:10.17241/smr.2019.00486

V. Dorokhov, A. Taranov, A. M. Narbut, D. Sakharov, S. Gruzdeva, O. Tkachenko, G. N. Arsen’ev, Ilya S. Blochin, Arcady A. Putilov

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引用次数: 8

Abstract

Background and ObjectiveaaHuman brain appears to be able to absorb, detect, and respond to low-level extremely low-frequency electromagnetic fields (ELF EMF). Controlled laboratory studies on human sleep under exposure to such fields are scarce. Only sleep-disturbing effects on nighttime sleep were reported for frequencies of 50/60 Hz, while lower frequencies (i.e., below 20 Hz) have not been tested. These frequencies overlap with the frequency range of the electroencephalographic (EEG) signal, and sleep researchers utilized the specific frequency patterns (1–15 Hz) for subdivision of the sleep-wake state continuum into wake and sleep stages. In particular, the deepest sleep stage (N3) is characterized by slow-wave EEG activity (1–4 Hz) and serves as an electrophysiological indicator of sleep restorative function. We examined the effects of exposure to a low-level ELF EMF on sleep architecture in afternoon naps. MethodsaaTen polysomnographic sleep characteristics obtained during two naps of 23 healthy volunteers, either with or without exposure to a 1 Hz/0.004 μT electromagnetic field, were compared. ResultsaaThe effect of the 1 Hz/0.004 μT electromagnetic field exposure on amount of stage N3 was not significant despite the overlap of this intervention frequency with the frequency of slow waves. However, the total duration of sleep was significantly increased due to a significant increase of amount of stage N2. Thus, the exposure to an extremely slow (1 Hz) electromagnetic field did not reveal any sleep-disturbing effects. Instead, total duration of sleep increased due to increase of N2 amount. ConclusionsaaA sleep-promoting action of exposure to the low-level 1 Hz electromagnetic field cannot be excluded. Sleep Med Res 2019;10(2):97-102

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弱极低频电磁场暴露对日间睡眠结构和睡眠时间的影响

背景和目的人类大脑似乎能够吸收、检测和响应低水平极低频电磁场（ELF EMF）。对暴露在这种环境中的人类睡眠的对照实验室研究很少。仅报告了50/60 Hz频率对夜间睡眠的睡眠干扰影响，而较低频率（即低于20 Hz）尚未进行测试。这些频率与脑电图（EEG）信号的频率范围重叠，睡眠研究人员利用特定的频率模式（1-15 Hz）将睡眠-觉醒状态连续体细分为觉醒和睡眠阶段。特别是，最深睡眠阶段（N3）以慢波脑电图活动（1-4 Hz）为特征，是睡眠恢复功能的电生理指标。我们研究了在下午小睡时暴露于低水平ELF EMF对睡眠结构的影响。方法对23名健康志愿者在1 Hz/0.004μT电磁场照射或不照射的情况下两次小睡时获得的10个多导睡眠图特征进行比较。结果a尽管该干预频率与慢波频率重叠，但1Hz/0.004μT电磁场暴露对N3期数量的影响并不显著。然而，由于N2阶段的量显著增加，睡眠的总持续时间显著增加。因此，暴露在极慢（1Hz）的电磁场中并没有显示出任何睡眠干扰效应。相反，总睡眠时间由于N2量的增加而增加。结论saaa对睡眠的促进作用不能排除暴露于低水平1Hz电磁场。睡眠医学研究2019；10（2）：97-102

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来源期刊

Sleep Medicine Research Medicine-Neurology (clinical)

CiteScore

0.90

自引率

0.00%

发文量

审稿时长

8 weeks