昼夜节律
睡眠限制
自由奔跑睡眠
夹带(生物音乐学)
内分泌学
内科学
睡眠(系统调用)
医学
糖尿病
轮班制
胰岛素
睡眠剥夺
生物钟
光对昼夜节律的影响
节奏
精神科
操作系统
计算机科学
作者
Orfeu M. Buxton,Sean W. Cain,Shawn O’Connor,James H. Porter,Jeanne F. Duffy,Wei Wang,Charles A. Czeisler,Steven A. Shea
标识
DOI:10.1126/scitranslmed.3003200
摘要
Epidemiological studies link short sleep duration and circadian disruption with higher risk of metabolic syndrome and diabetes. We tested the hypotheses that prolonged sleep restriction with concurrent circadian disruption, as can occur in people performing shift work, impairs glucose regulation and metabolism. Healthy adults spent >5 weeks under controlled laboratory conditions in which they experienced an initial baseline segment of optimal sleep, 3 weeks of sleep restriction (5.6 hours of sleep per 24 hours) combined with circadian disruption (recurring 28-hour "days"), followed by 9 days of recovery sleep with circadian re-entrainment. Exposure to prolonged sleep restriction with concurrent circadian disruption, with measurements taken at the same circadian phase, decreased the participants' resting metabolic rate and increased plasma glucose concentrations after a meal, an effect resulting from inadequate pancreatic insulin secretion. These parameters normalized during the 9 days of recovery sleep and stable circadian re-entrainment. Thus, in humans, prolonged sleep restriction with concurrent circadian disruption alters metabolism and could increase the risk of obesity and diabetes.
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