{"id":86065,"date":"2025-10-20T12:00:15","date_gmt":"2025-10-20T03:00:15","guid":{"rendered":"https:\/\/www.waseda.jp\/top\/en\/?p=86065"},"modified":"2025-10-15T11:44:47","modified_gmt":"2025-10-15T02:44:47","slug":"life-in-a-nutshell-new-species-found-in-the-carapace-of-late-cretaceous-marine-turtle-2-2-2-2-2-2-2-2-2-2-2-3-3-2-2-3-2-3-2-2-2-3-2-2-2-3-3-3-3-2-2-2-3-2-2-2-2-2-2-4-2-4","status":"publish","type":"post","link":"https:\/\/www.waseda.jp\/top\/en\/news\/86065","title":{"rendered":"Exploring the Effect of Bedroom Ventilation on Sleep Quality"},"content":{"rendered":"

Exploring the Effect of Bedroom Ventilation on Sleep Quality <\/strong><\/h1>\n

Researchers suggest that absolute carbon dioxide levels generated by sleeping occupants <\/em>should<\/em> remain below 1,000 ppm<\/em><\/p>\n

Inadequate bedroom ventilation and poor air quality can negatively affect sleep. A recent international study found that the currently prescribed minimum ventilation rates for residential buildings, and especially bedrooms, may be too low and result in disturbed sleep. Therefore, they recommended revisiting the relevant residential building standards so that the ventilation rate with outdoor air can keep CO2 produced by sleeping occupants at least below 1,000 ppm, or preferably below 800 ppm.<\/strong><\/p>\n

\"\"

Image title: Bedroom Ventilation and Sleep Quality
\nImage caption: Inadequate bedroom ventilation can disturb sleep quality, necessitating residential building standards to be revisited.
\nImage credit: Ms. Mizuho Akimoto from Waseda University, Japan
\nLicense type: Original content
\nUsage restrictions: Cannot be reused without permission<\/p><\/div>\n

Good sleep is key to good health, overall well-being, and optimal cognitive function. Disturbed sleep or lack of sleep can lead to various health issues such as cardiovascular diseases, cancer, and other morbidity, including Alzheimer\u2019s disease and obesity. Therefore, it is necessary to ensure that environmental factors that affect sleep quality, including temperature, noise, light, and air quality, are maintained optimally in the bedroom. Recent studies have consistently shown that inadequate bedroom ventilation can disturb sleep quality. Using these studies, it is possible to revisit the existing ventilation recommendations in bedrooms in a more comprehensive way.<\/p>\n

Building on these foundations, in an innovative study, a research team led by Ms. Mizuho Akimoto, a Research Associate at the Advanced Collaborative Research Organization for Smart Society (ACROSS), Waseda University, Japan, together with Professor Shin-ichi Tanabe from the Department of Architecture, Waseda University; Prof. Pawel Wargocki from the Department of Environmental and Resource Engineering, Technical University of Denmark; and Prof. Li Lan from Shanghai Jiao Tong University, has recently conducted a novel analysis as a part of the project sponsored by ASHRAE (1837-RP); Prof. Wargocki and Prof. Lan were Principal Investigators on the project. The overall aim was to provide input to ventilation standards in bedrooms to ensure that sleep quality is not disturbed by poor bedroom air quality. Their novel findings were made available online on July 21, 2025, and published in Volume 31, Issue 8 of the journal Science and Technology for the Built Environment<\/a> on September 01, 2025.<\/p>\n

Ms. Akimoto highlights the motivation behind their work. \u201cThe present study not only incorporates a more representative body of evidence but also introduces several novel perspectives. It provides a multidimensional evaluation of how ventilation influences various sleep parameters, distinguishes between intervention and cross-sectional studies, and considers population-specific carbon dioxide (CO<\/em>\u2082) <\/em>emission rates during sleep.\u201d<\/em><\/p>\n

The team reviewed 17 studies, including 22 experimental datasets, to determine that the lowest ventilation with outdoor air causing disturbed sleep is when the (absolute) CO\u2082 concentration reaches 1,000 ppm. They observed that the highest CO2<\/sub> concentration not causing any effect on sleep was 850 ppm at the lowest ventilation rate, but this cannot be regarded as a No Observed Adverse Effect Level due to sensor accuracy and safety margins. Therefore, the researchers proposed the lowest ventilation with outdoor air in bedrooms to keep CO2<\/sub> at or below 800 ppm; this is the target on which bedroom ventilation should be based. CO2<\/sub> in all these recommendations acts as a proxy indicator of ventilation rate, rather than a pollutant. To maintain the recommended target levels of CO2<\/sub>, bedroom ventilation rates would need to be about 8 L\/s per person, indicating at least twice the amount prescribed in many current residential standards.<\/p>\n

\u201cOur findings suggest that currently prescribed minimum ventilation rates for residences may provide <\/em>inadequate<\/em> ventilation for bedrooms and may thus lead to impaired sleep. By identifying target CO2<\/sub> of 800\u20131,000 ppm to determine ventilation, the review provides evidence that can support reconsideration of ventilation requirements in building codes. This has implications for the housing industry and ventilation system manufacturers, who face the challenge of balancing energy efficiency with human health. We also propose methods to achieve these levels<\/em>, though<\/em> further development<\/em> is needed<\/em>,\u201d<\/em> says Ms. Akimoto.<\/p>\n

Therefore, the present findings have potential implications for revising the residential building standards in terms of ventilation in bedrooms. However, properly ventilating bedrooms with sufficient outdoor air, energy usage should be minimized. It is believed that this recommendation will lead to improved sleep quality and holistically enhance the quality of life.<\/p>\n

Taken together, the present contributions offer a more robust and nuanced understanding of how bedroom ventilation affects sleep health and provide information relevant for future ventilation guidelines.<\/p>\n

Reference<\/strong><\/p>\n

Title of original paper<\/strong>: mpacts of health checkup programs standardization on working-age self-employed and unemployed: Insights from Japan\u2019s local government response to national policy
\nDOI<\/strong>:10.1016\/j.jhealeco.2025.103046<\/a>
\nJournal<\/strong>: Journal of Health Economics<\/em>
\n<\/em>Article Publication Date<\/strong>: 01 September 2025
\nAuthors<\/strong><\/strong>: Mizuho Akimoto<\/a>1,2<\/sup>, Xiaojun Fan3<\/sup>, Li Lan4<\/sup>, Chandra Sekhar5<\/sup>, Shin-ichi Tanabe<\/a>6<\/sup>, David P. Wyon2<\/sup>, and Pawel Wargocki2
\n<\/sup>Affiliation<\/strong>:
\n1<\/sup>Advanced Collaborative Research Organization for Smart Society (ACROSS), Waseda University
\n2<\/sup>International Centre for Indoor Environment and Energy, Department of Environmental and Resource Engineering, Technical University of Denmark
\n3<\/sup>Berkeley Education Alliance for Research in Singapore
\n4<\/sup>Department of Architecture, School of Design, Shanghai Jiao Tong University
\n5<\/sup>Department of the Built Environment, College of Design and Engineering, National University of Singapore
\n6<\/sup>Department of Architecture, Waseda University<\/p>\n

About Mizuho Akimoto from Waseda University, Japan<\/strong><\/p>\n

Ms. Mizuho Akimoto is a Research Associate at the Advanced Collaborative Research Organization for Smart Society (ACROSS), Waseda University, Japan. She obtained her master\u2019s degree from the Department of Architecture at Waseda University in 2022. Her research interests include net-zero energy houses, environmental engineering, bedroom ventilation, and thermal insulation. She has authored around 20 research articles on these topics and received over 300 citations.<\/p>\n","protected":false},"excerpt":{"rendered":"

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