Knufinke Melanie, Nieuwenhuys Arne, Geurts Sabine A E, Møst Els I S, Maase Kamiel, Moen Maarten H, Coenen Anton M L, Kompier Michiel A J
Behavioural Science Institute, Radboud University, The Netherlands.
Behavioural Science Institute, Radboud University, The Netherlands.
J Sci Med Sport. 2018 Apr;21(4):427-432. doi: 10.1016/j.jsams.2017.07.003. Epub 2017 Jul 12.
Sleep is essential for recovery and performance in elite athletes. While it is generally assumed that exercise benefits sleep, high training load may jeopardize sleep and hence limit adequate recovery. To examine this, the current study assessed objective sleep quantity and sleep stage distributions in elite athletes and calculated their association with perceived training load.
Mixed-methods.
Perceived training load, actigraphy and one-channel EEG recordings were collected among 98 elite athletes during 7 consecutive days of regular training.
Actigraphy revealed total sleep durations of 7:50±1:08h, sleep onset latencies of 13±15min, wake after sleep onset of 33±17min and sleep efficiencies of 88±5%. Distribution of sleep stages indicated 51±9% light sleep, 21±8% deep sleep, and 27±7% REM sleep. On average, perceived training load was 5.40±2.50 (scale 1-10), showing large daily variability. Mixed-effects models revealed no alteration in sleep quantity or sleep stage distributions as a function of day-to-day variation in preceding training load (all p's>.05).
Results indicate healthy sleep durations, but elevated wake after sleep onset, suggesting a potential need for sleep optimization. Large proportions of deep sleep potentially reflect an elevated recovery need. With sleep quantity and sleep stage distributions remaining irresponsive to variations in perceived training load, it is questionable whether athletes' current sleep provides sufficient recovery after strenuous exercise.
睡眠对于精英运动员的恢复和表现至关重要。虽然一般认为运动有益于睡眠,但高强度训练负荷可能会危及睡眠,从而限制充分恢复。为了对此进行研究,本研究评估了精英运动员的客观睡眠量和睡眠阶段分布,并计算了它们与感知训练负荷的关联。
混合方法。
在98名精英运动员进行连续7天的常规训练期间,收集他们的感知训练负荷、活动记录仪数据和单通道脑电图记录。
活动记录仪显示总睡眠时间为7:50±1:08小时,入睡潜伏期为13±15分钟,睡眠中觉醒时间为33±17分钟,睡眠效率为88±5%。睡眠阶段分布显示浅睡眠占51±9%,深睡眠占21±8%,快速眼动睡眠占27±7%。平均而言,感知训练负荷为5.40±2.50(1-10分制),每日变化较大。混合效应模型显示,睡眠量或睡眠阶段分布不会因前一天训练负荷的日常变化而改变(所有p值>.05)。
结果表明睡眠时间健康,但睡眠中觉醒时间增加,这表明可能需要优化睡眠。较大比例的深睡眠可能反映了更高的恢复需求。由于睡眠量和睡眠阶段分布对感知训练负荷的变化没有反应,运动员目前的睡眠是否能在剧烈运动后提供足够的恢复值得怀疑。
