Daytime bright light exposure, metabolism, and individual differences in wake and sleep energy expenditure during circadian entrainment and misalignment

Edward L. Melanson , Hannah K. Ritchie , Tristan B. Dear , Victoria Catenacci , Karen Shea , Elizabeth Connick , Thomas M. Moehlman , Ellen R. Stothard , Janine Higgins , Andrew W. McHill , Kenneth P. Wright Jr
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引用次数: 20

Abstract

Daytime light exposure has been reported to impact or have no influence on energy metabolism in humans. Further, whether inter-individual differences in wake, sleep, 24 h energy expenditure, and RQ during circadian entrainment and circadian misalignment are stable across repeated 24 h assessments is largely unknown. We present data from two studies: Study 1 of 15 participants (7 females) exposed to three light exposure conditions: continuous typical room ~100 lx warm white light, continuous ~750 lx warm white light, and alternating hourly ~750 lx warm white and blue-enriched white light on three separate days in a randomized order; and Study 2 of 14 participants (8 females) during circadian misalignment induced by a simulated night shift protocol. Participants were healthy, free of medical disorders, medications, and illicit drugs. Participants maintained a consistent 8 h per night sleep schedule for one week as an outpatient prior to the study verified by wrist actigraphy, sleep diaries, and call-ins to a time stamped recorder. Participants consumed an outpatient energy balance research diet for three days prior to the study. The inpatient protocol for both studies consisted of an initial sleep disorder screening night. For study 1, this was followed by three standard days with 16 h scheduled wakefulness and 8 h scheduled nighttime sleep. For Study 2, it was followed by 16 h scheduled wake and 8 h scheduled sleep at habitual bedtime followed by three night shifts with 8 h scheduled daytime sleep. Energy expenditure was measured using whole-room indirect calorimetry. Constant posture bedrest conditions were maintained to control for energy expenditure associated with activity and the baseline energy balance diet was continued with the same exact meals across days to control for thermic effects of food. No significant impact of light exposure was observed on metabolic outcomes in response to daytime light exposure. Inter-individual variability in energy expenditure was systematic and ranged from substantial to almost perfect consistency during both nighttime sleep and circadian misalignment. Findings show robust and stable trait-like individual differences in whole body 24 h, waking, and sleep energy expenditure, 24 h respiratory quotient—an index of a fat and carbohydrate oxidation—during repeated assessments under entrained conditions, and also in 24 h and sleep energy expenditure during repeated days of circadian misalignment.

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在昼夜节律干扰和失调期间,白天的强光照射、新陈代谢和觉醒和睡眠能量消耗的个体差异
据报道,白天的光照对人体的能量代谢有影响或没有影响。此外,在重复的24 h评估中,清醒、睡眠、24 h能量消耗和昼夜节律干扰和昼夜节律失调期间的RQ的个体间差异是否稳定,在很大程度上是未知的。我们提供了两项研究的数据:研究1中有15名参与者(7名女性)在三个不同的光照条件下暴露:连续的典型房间~100 lx的暖白光,连续的~750 lx的暖白光,以及每小时交替的~750 lx的暖白光和蓝富白光,以随机顺序连续三天;和研究2中14名参与者(8名女性)在模拟夜班协议引起的昼夜节律失调期间。参与者身体健康,没有疾病、药物和非法药物。在研究之前,参与者作为门诊患者,在一周内保持每晚8 小时的睡眠时间,并通过手腕活动记录仪、睡眠日记和打电话到时间戳记录仪进行验证。参与者在研究前三天摄入了门诊能量平衡研究饮食。两项研究的住院方案都包括一个最初的睡眠障碍筛查之夜。在研究1中,接下来是3个标准日,16个 小时的清醒时间和8个 小时的夜间睡眠时间。在研究2中,随后是16个 小时的预定唤醒和8个 小时的预定睡眠,然后是3个夜班,8个 小时的预定白天睡眠。能量消耗采用全室间接量热法测量。保持固定的卧床姿势以控制与活动相关的能量消耗,并在几天内保持基本的能量平衡饮食,以控制食物的热效应。没有观察到光照对白天光照对代谢结果的显著影响。个体间能量消耗的变化是系统性的,在夜间睡眠和昼夜节律失调期间,能量消耗的变化范围从相当大到几乎完全一致。研究结果显示,在被困条件下的重复评估中,全身24 小时、清醒和睡眠能量消耗、24 小时呼吸商(脂肪和碳水化合物氧化的指数)以及在昼夜节律紊乱的重复天内的24 小时和睡眠能量消耗中,存在强大而稳定的特征样个体差异。
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来源期刊
Neurobiology of Sleep and Circadian Rhythms
Neurobiology of Sleep and Circadian Rhythms Neuroscience-Behavioral Neuroscience
CiteScore
4.50
自引率
0.00%
发文量
9
审稿时长
69 days
期刊介绍: Neurobiology of Sleep and Circadian Rhythms is a multidisciplinary journal for the publication of original research and review articles on basic and translational research into sleep and circadian rhythms. The journal focuses on topics covering the mechanisms of sleep/wake and circadian regulation from molecular to systems level, and on the functional consequences of sleep and circadian disruption. A key aim of the journal is the translation of basic research findings to understand and treat sleep and circadian disorders. Topics include, but are not limited to: Basic and translational research, Molecular mechanisms, Genetics and epigenetics, Inflammation and immunology, Memory and learning, Neurological and neurodegenerative diseases, Neuropsychopharmacology and neuroendocrinology, Behavioral sleep and circadian disorders, Shiftwork, Social jetlag.
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