著者
内田直
所属
題材
生体リズム
被検体
ヒト
データ収集方法
実験
専門分野
時間生物学神経科学生理学
評価指標
自発脳波生理指標
キーワード
all-night NREM sleep EEGindividual differencestotal delta poweracute hypoxiaslow-wave sleep
概要

書誌: European Journal of Sport Science , 2010

Masako Hoshikawa, Sunao Uchida, Takayuki Sugo, Yasuko Kumai, Yoshiteru Hanai & Takashi Kawahara (2010). European Journal of Sport Science, 10:3, 191-198.

Abstract In the present study, we evaluated the duration of slow-wave sleep (Stage 3 and 4) and total delta power (B3Hz) in all-night non-rapid eye movement (NREM) sleep electroencephalograms (EEGs) of athletes during normobaric hypoxia at simulated altitudes of 1500 m. Seven male athletes slept for two nights in a normoxic condition and one night in an hypoxic condition equivalent to an altitude of 1500 m. Whole-night polysomnographic recordings, thoracic and abdominal motion, nasal and oral airflow, and blood oxygen saturation (SpO2) were recorded. Visual sleep stage scoring and fast Fourier transformation analyses of EEG were performed using 30-s epochs. Mean and minimum SpO2 decreased significantly during sleep in the hypoxic condition. Between groups, changes in heart rate, respiratory disturbance measures including apnoea and hypopnoea, slow-wave sleep and total delta power of the all-night NREM sleep EEG were small and non-significant for the hypoxic condition. However, individual difference in time at an SpO2 below 90% were large in the hypoxic condition, and both slow-wave sleep and total delta power of all-night NREM sleep EEG decreased in three participants who spent a prolonged time below 90% SpO2. The present results suggest that monitoring time below 90% SpO2 is recommended when studying individuals’ living-high schedule even under hypoxic conditions equivalent to an altitude of 1500 m.

Keywords: Acute hypoxia, slow-wave sleep, total delta power, all-night NREM sleep EEG, individual differences 

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2015年02月02日 00:06
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