Lighting Research Center, Rensselaer Polytechnic Institute, 21 Union Street, Troy, NY 12280, United States.
Lighting Research Center, Rensselaer Polytechnic Institute, 21 Union Street, Troy, NY 12280, United States.
J Safety Res. 2020 Sep;74:169-177. doi: 10.1016/j.jsr.2020.06.003. Epub 2020 Jul 10.
Night work requires inversion of the natural, diurnal human activity-rest cycle and is associated with decreased alertness and some measures of performance, reduced safety, adverse health effects, and chronic disruption of the melatonin cycle that has been associated with increased risk for several major diseases. Previous studies show that red light exposures at night can promote alertness and improve performance while not negatively affecting melatonin secretion.
This ongoing crossover, mixed (within- and between-subjects) design field study is testing the efficacy and acceptance of red light delivered to day-shift and night-shift workers using personal light glasses while they are at work. Each participant experienced three lighting interventions at the eyes: red light (50 lx, 630 nm, the treatment intervention), blue light (50 lx, 460 nm, the positive control intervention), and dim white light (10 lx, 3,000 K, the placebo control). During the interventions, participants underwent visual performance testing, submitted salivary melatonin and cortisol samples, and provided subjective reports of sleepiness, sleep disturbance, and general health over the 20-week protocol. Due to the ongoing nature of the study, only the performance and subjective reports are presented here.
Preliminary results indicate that response times were improved by the red and blue interventions, but not accuracy and hit rates. Blue light was associated with improvements to self-reported sleep disturbances compared to dim light.
These field results partially support our laboratory results that showed a positive effect of red light for promoting alertness and certain performance outcomes during the day and at night. Practical Applications: Red light may be used to improve response times in shift workers. Continued research will elucidate the lighting interventions' effects on melatonin and objective sleep measures (actigraphy).
夜班需要颠倒自然的昼夜人类活动-休息周期,与警觉度降低和某些性能指标下降、安全性降低、健康影响负面以及褪黑素周期的慢性中断有关,褪黑素周期的中断与几种主要疾病的风险增加有关。先前的研究表明,夜间的红光照射可以提高警觉度并改善性能,而不会对褪黑素分泌产生负面影响。
本正在进行的交叉、混合(个体内和个体间)设计现场研究正在测试使用个人光眼镜在白天和夜班工作时向轮班工人提供红光的功效和接受度。每个参与者在眼睛上经历三种照明干预:红光(50 lx,630 nm,治疗干预)、蓝光(50 lx,460 nm,阳性对照干预)和暗白光(10 lx,3000 K,安慰剂对照)。在干预过程中,参与者进行了视觉性能测试,提交了唾液褪黑素和皮质醇样本,并在 20 周的方案中提供了关于嗜睡、睡眠障碍和一般健康的主观报告。由于研究的持续性质,这里仅介绍性能和主观报告。
初步结果表明,红光和蓝光干预提高了反应时间,但没有提高准确性和命中率。与暗白光相比,蓝光与自我报告的睡眠障碍改善有关。
这些现场结果部分支持我们的实验室结果,表明红光在白天和夜间提高警觉度和某些性能结果方面具有积极作用。实际应用:红光可用于提高轮班工人的反应时间。进一步的研究将阐明照明干预对褪黑素和客观睡眠测量(活动记录仪)的影响。