Int J Sports Physiol Perform. 2021 Apr 1;16(4):517-526. doi: 10.1123/ijspp.2019-0931. Epub 2020 Nov 4.
To assess the efficacy of a combined light exposure and sleep hygiene intervention to improve team-sport performance following eastward long-haul transmeridian travel.
Twenty physically trained males underwent testing at 09:00 and 17:00 hours local time on 4 consecutive days at home (baseline) and the first 4 days following 21 hours of air travel east across 8 time zones. In a randomized, matched-pairs design, participants traveled with (INT; n = 10) or without (CON; n = 10) a light exposure and sleep hygiene intervention. Performance was assessed via countermovement jump, 20-m sprint, T test, and Yo-Yo Intermittent Recovery Level 1 tests, together with perceptual measures of jet lag, fatigue, mood, and motivation. Sleep was measured using wrist activity monitors in conjunction with self-report diaries.
Magnitude-based inference and standardized effect-size analysis indicated there was a very likely improvement in the mean change in countermovement jump peak power (effect size 1.10, ±0.55), and likely improvement in 5-m (0.54, ±0.67) and 20-m (0.74, ±0.71) sprint time in INT compared with CON across the 4 days posttravel. Sleep duration was most likely greater in INT both during travel (1.61, ±0.82) and across the 4 nights following travel (1.28, ±0.58) compared with CON. Finally, perceived mood and motivation were likely worse (0.73, ±0.88 and 0.63, ±0.87) across the 4 days posttravel in CON compared with INT.
Combined light exposure and sleep hygiene improved speed and power but not intermittent-sprint performance up to 96 hours following long-haul transmeridian travel. The reduction of sleep disruption during and following travel is a likely contributor to improved performance.
评估光暴露和睡眠卫生干预相结合的效果,以改善跨子午线长途东行旅行后团队运动表现。
20 名体能训练男性在连续 4 天的家中(基线)和跨越 8 个时区 21 小时飞行后的前 4 天,在当地时间 09:00 和 17:00 进行了 4 次测试。采用随机、配对设计,参与者在有(INT;n=10)或没有(CON;n=10)光暴露和睡眠卫生干预的情况下进行旅行。通过反向跳跃、20 米冲刺、T 测试和 Yo-Yo 间歇性恢复水平 1 测试,以及时差、疲劳、情绪和动机的知觉测量来评估表现。使用腕部活动监测器结合自我报告日记来测量睡眠。
基于幅度的推理和标准化效应大小分析表明,与 CON 相比,INT 在跨旅行后 4 天内,反向跳跃峰值功率的平均变化(效应大小 1.10,±0.55)和 5 米(0.54,±0.67)和 20 米(0.74,±0.71)冲刺时间的改善非常可能。INT 在旅行期间(1.61,±0.82)和旅行后 4 个晚上(1.28,±0.58)的睡眠时长很可能大于 CON。最后,与 INT 相比,CON 在跨旅行后 4 天内的情绪和动机感知可能更差(0.73,±0.88 和 0.63,±0.87)。
光暴露和睡眠卫生干预相结合可提高速度和力量,但不能提高跨子午线长途东行旅行后 96 小时的间歇性冲刺表现。减少旅行期间和之后的睡眠中断可能是提高表现的一个原因。
