Associations of bedroom temperature and ventilation with sleep quality

Associations of bedroom temperature and ventilation with sleep quality

Sleep is essential for the body to recover from both physical and psychological fatigue accruing throughout the day, and to restore energy to maintain bodily functions. Bedroom environmental quality is one of the key causes of sleep disturbance, so a better understanding of the associations of bedro...

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Bibliographic Details
Published in:HVAC&R research Vol. 26; no. 9; pp. 1274 - 1284
Main Authors: Xiong, Jing, Lan, Li, Lian, Zhiwei, De dear, Richard
Format: Journal Article
Language:English
Published: Philadelphia Taylor & Francis 20-10-2020
Taylor & Francis Ltd
Subjects:
Air quality
Bedrooms
Carbon dioxide
Environmental monitoring
Environmental quality
Fatigue
Freshness
Indoor environments
REM sleep
Sleep
Sleep deprivation
Ventilation
Wrist
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Summary:Sleep is essential for the body to recover from both physical and psychological fatigue accruing throughout the day, and to restore energy to maintain bodily functions. Bedroom environmental quality is one of the key causes of sleep disturbance, so a better understanding of the associations of bedroom temperature and ventilation rate (using CO 2 as the surrogate) with sleep quality is necessary. This field study was conducted during summer in subtropical Sydney, Australia, with a sample of 48 householders, including both males and females. In addition to a questionnaire-based subjective sleep quality scales, sleep metrics were also monitored using wrist-wearable sensors. An indoor environmental quality monitoring station (SAMBA) was installed in each survey bedroom for continuous measurements of thermal and air quality parameters at 5-minute intervals for five consecutive days for each subject. The thermal sensation subjects used to characterize their night's sleep showed no relationship with the actual thermal conditions prevailing in the bedroom while sleeping. Sleep efficiency (ratio of time asleep to time in bed) and rapid eye movement (REM) sleep (%) were both negatively correlated with bedroom operative temperature; as bedroom operative temperature increases by 1 K, the estimate of sleep efficiency and REM sleep percentage decrease by 1.036% and 1.647%, respectively. Deep sleep percentage was negatively related to bedroom CO 2 concentration, with a 4.3% decrement for every 100 ppm increase in the overnight mean CO 2 concentration. The deterioration in subjectively evaluated air freshness was associated with poorer self-reported sleep quality. The effect of bedroom CO 2 concentration on light sleep percentage varied significantly under different bedroom operative temperature levels.
ISSN:2374-4731
2374-474X
DOI:10.1080/23744731.2020.1756664