通过热环境的缓慢变化降低并延迟最低核心体温对人类睡眠模式的影响。

Influence on human sleep patterns of lowering and delaying the minimum core body temperature by slow changes in the thermal environment.

作者信息

Togo Fumiharu, Aizawa Seika, Arai Jun-ichiro, Yoshikawa Shoko, Ishiwata Takayuki, Shephard Roy J, Aoyagi Yukitoshi

机构信息

Exercise Sciences Research Group, Tokyo Metropolitan Institute of Gerontology, Itabashi, Tokyo, Japan.

出版信息

Sleep. 2007 Jun;30(6):797-802. doi: 10.1093/sleep/30.6.797.

DOI:10.1093/sleep/30.6.797

PMID:17580602

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1978351/

Abstract

STUDY OBJECTIVES

We hypothesized that appropriate changes in thermal environment would enhance the quality of sleep.

DESIGN/SETTING: Controlled laboratory study.

PARTICIPANTS

Healthy young men (n = 7, mean age 26 years).

INTERVENTIONS

Nocturnal sleep structures in semi-nude subjects were compared between a condition where an ambient temperature (Ta) of 29.5 degree C was maintained throughout the night (constant Ta), and a second condition (dynamic Ta) where Ta changed slowly within the thermoneutral range (from 27.5 C to 29.5 degree C).

MEASUREMENTS AND RESULTS

Statistically significant (P < 0.05) results included a lower and a later occurrence of minimum core body temperature (Tc), and a longer duration of slow-wave (stages 3+4) sleep in dynamic versus constant T. However, total sleep time, sleep efficiency, the total durations of light (stages 1+2) and rapid eye movement sleep, and the latencies to sleep onset, slow-wave sleep, and rapid eye movement sleep did not differ between conditions.

CONCLUSIONS

Lowering the minimum and delaying the nadir of nocturnal Tc increases slow-wave sleep (probably by an increase of dry heat loss); use of this tactic might improve the overall quality of sleep.

摘要

研究目的

我们假设热环境的适当变化会提高睡眠质量。

设计/地点：对照实验室研究。

参与者

健康年轻男性（n = 7，平均年龄26岁）。

干预措施

比较半裸受试者在夜间睡眠结构，一种是整晚维持环境温度（Ta）为29.5摄氏度的情况（恒定Ta），另一种是Ta在热中性范围内缓慢变化（从27.5摄氏度到29.5摄氏度）的情况（动态Ta）。

测量与结果

具有统计学意义（P < 0.05）的结果包括，动态Ta组最低核心体温（Tc）出现时间更低且更晚，以及慢波（3 + 4期）睡眠持续时间更长。然而，两种情况下的总睡眠时间、睡眠效率、浅睡眠（1 + 2期）和快速眼动睡眠的总时长，以及入睡潜伏期、慢波睡眠潜伏期和快速眼动睡眠潜伏期并无差异。

结论

降低夜间Tc的最低值并延迟其最低点可增加慢波睡眠（可能是通过增加干热散失）；采用这种策略可能会改善整体睡眠质量。

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