根据昼夜节律进行照明干预,可加快昼夜节律对潜艇照明环境中夜间工作时间安排的适应。

IF 5.6 2区 医学 Q1 Medicine Sleep Pub Date : 2024-11-08 DOI:10.1093/sleep/zsae146
Alisha Guyett, Nicole Lovato, Jack Manners, Nicole Stuart, Barbara Toson, Bastien Lechat, Leon Lack, Gorica Micic, Siobhan Banks, Jillian Dorrian, Eva Kemps, Andrew Vakulin, Robert Adams, Danny J Eckert, Hannah Scott, Peter Catcheside
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Ingestible capsules continuously sampled temperature to estimate daily core body temperature minimum (Tmin) time. Tmin and DLMO circadian delays were compared between conditions using mixed effects models.</p><p><strong>Results: </strong>There were significant condition-by-day interactions in Tmin and DLMO delays (both p < .001). After four simulated night shifts, circadian-informed lighting produced a mean [95% CI] 5.6 [3.0 to 8.2] hours greater delay in Tmin timing and a 4.2 [3.0 to 5.5] hours greater delay in DLMO timing compared to standard lighting.</p><p><strong>Conclusions: </strong>Circadian-informed lighting accelerates adjustment to shiftwork in a simulated submariner work environment. 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引用次数: 0

摘要

研究目的夜间工作会对睡眠和工作表现产生不利影响,这主要是由于睡眠-觉醒时间表与潜在的昼夜节律不一致造成的。本研究测试了在模拟潜艇人员工作条件下,与耗蓝标准照明相比,昼夜节律照明是否能加快昼夜节律相位延迟,从而加快对夜间工作的适应:19名健康的睡眠者(12名男性;平均年龄(±SD)为29岁(±10岁))分别参加了两次为期8天、间隔约一个月的访问,以随机顺序接受昼夜节律信息照明(特定时间的富蓝、昏暗、缺蓝照明)和标准照明(昏暗、缺蓝照明)。经过一个适应之夜(第1天)后,在第2-3天的18:00-02:00进行唾液暗光褪黑激素起始(DLMO)评估。在第 3-7 天,参与者在 00:00-08:00 期间完成模拟夜间工作,并在 10:00-19:00 期间进行睡眠。第 7-8 天的 21:00-13:00 为条件后 DLMO 评估时间。可食用胶囊连续采集体温样本,以估算每日核心体温最低(Tmin)时间。使用混合效应模型比较了不同条件下的Tmin和DLMO昼夜节律延迟:结果:Tmin 和 DLMO 延迟在不同条件下存在明显的交互作用(均为 p):在模拟潜艇人员的工作环境中,昼夜节律照明可加快对轮班工作的适应。昼夜节律照明干预措施值得在任何光线昏暗和蓝光不足的工作环境中加以考虑,因为昼夜节律调整有助于提高人类的工作表现、安全和健康。
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A circadian-informed lighting intervention accelerates circadian adjustment to a night work schedule in a submarine lighting environment.

Study objective: Night work has detrimental impacts on sleep and performance, primarily due to misalignment between sleep-wake schedules and underlying circadian rhythms. This study tested whether circadian-informed lighting accelerated circadian phase delay, and thus adjustment to night work, compared to blue-depleted standard lighting under simulated submariner work conditions.

Methods: Nineteen healthy sleepers (12 males; mean ± SD aged 29 ± 10 years) participated in two separate 8-day visits approximately 1 month apart to receive, in random order, circadian-informed lighting (blue-enriched and dim, blue-depleted lighting at specific times) and standard lighting (dim, blue-depleted lighting). After an adaptation night (day 1), salivary dim-light melatonin onset (DLMO) assessment was undertaken from 18:00 to 02:00 on days 2-3. During days 3-7, participants completed simulated night work from 00:00 to 08:00 and a sleep period from 10:00 to 19:00. Post-condition DLMO assessment occurred from 21:00 to 13:00 on days 7-8. Ingestible capsules continuously sampled temperature to estimate daily core body temperature minimum (Tmin) time. Tmin and DLMO circadian delays were compared between conditions using mixed effects models.

Results: There were significant condition-by-day interactions in Tmin and DLMO delays (both p < .001). After four simulated night shifts, circadian-informed lighting produced a mean [95% CI] 5.6 [3.0 to 8.2] hours greater delay in Tmin timing and a 4.2 [3.0 to 5.5] hours greater delay in DLMO timing compared to standard lighting.

Conclusions: Circadian-informed lighting accelerates adjustment to shiftwork in a simulated submariner work environment. Circadian lighting interventions warrant consideration in any dimly lit and blue-depleted work environments where circadian adjustment is relevant to help enhance human performance, safety, and health.

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来源期刊
Sleep
Sleep Medicine-Neurology (clinical)
CiteScore
8.70
自引率
10.70%
发文量
0
期刊介绍: SLEEP® publishes findings from studies conducted at any level of analysis, including: Genes Molecules Cells Physiology Neural systems and circuits Behavior and cognition Self-report SLEEP® publishes articles that use a wide variety of scientific approaches and address a broad range of topics. These may include, but are not limited to: Basic and neuroscience studies of sleep and circadian mechanisms In vitro and animal models of sleep, circadian rhythms, and human disorders Pre-clinical human investigations, including the measurement and manipulation of sleep and circadian rhythms Studies in clinical or population samples. These may address factors influencing sleep and circadian rhythms (e.g., development and aging, and social and environmental influences) and relationships between sleep, circadian rhythms, health, and disease Clinical trials, epidemiology studies, implementation, and dissemination research.
期刊最新文献
What is cataplexy? Wireless wearable sensors can facilitate rapid detection of sleep apnea in hospitalized stroke patients. Device-measured weekend catch-up sleep, mortality, and cardiovascular disease incidence in adults. A circadian-informed lighting intervention accelerates circadian adjustment to a night work schedule in a submarine lighting environment. Associations of accelerometer-measured sleep duration with incident cardiovascular disease and cardiovascular mortality.
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