Associations of indoor carbon dioxide concentrations, air temperature, and humidity with perceived air quality and sick building syndrome symptoms in Chinese homes.
CO2
home
odors
perceived dry air
relative humidity
sick building syndrome
Journal
Indoor air
ISSN: 1600-0668
Titre abrégé: Indoor Air
Pays: England
ID NLM: 9423515
Informations de publication
Date de publication:
07 2021
07 2021
Historique:
received:
04
02
2021
accepted:
09
02
2021
pubmed:
24
2
2021
medline:
26
10
2021
entrez:
23
2
2021
Statut:
ppublish
Résumé
The indoor environment influences occupants' health. From March 1, 2018, to February 28, 2019, we continuously monitored indoor temperature (T), relative humidity (RH), and CO
Substances chimiques
Carbon Dioxide
142M471B3J
Types de publication
Journal Article
Research Support, Non-U.S. Gov't
Langues
eng
Sous-ensembles de citation
IM
Pagination
1018-1028Informations de copyright
© 2021 John Wiley & Sons A/S. Published by John Wiley & Sons Ltd.
Références
Hou J, Sun Y, Chen Q, et al. Air change rates in urban Chinese bedrooms. Indoor Air. 2019;29:828-839.
Hou J, Zhang Y, Sun Y, et al. Air change rates at night in northeast Chinese homes. Build Environ. 2018;132:273-281.
Norbäck D. An update on sick building syndrome. Curr Opin Allergy CL. 2009;9:55-59.
Sun Y, Hou J, Cheng R, et al. Indoor air quality, ventilation and their associations with sick building syndrome in Chinese homes. Energy Build. 2019;197:112-119.
World Health Organization. Indoor Air Pollutants: Exposure and Health Effects. EURO Reports and Studies 78, WHO. Geneva, 1983.
Redlich C, Sparer J, Cullen M. Sick-building syndrome. Lancet. 1997;349:1013-1016.
Sundell J, Lindvall T. Indoor air humidity, sensation of dryness as a risk indicator of SBS. Indoor Air. 1993;3:382-390.
Engvall K, Norrby C, Norbäck D. Sick building syndrome in relation to building dampness in multi-family residential buildings in Stockholm. Int Arch Occup Environ Health. 2001;74:270-278.
Kishi R, Saijo Y, Kanazawa A, et al. Regional differences in residential environments and the association of dwellings and residential factors with the sick house syndrome: a nationwide cross-sectional questionnaire study in Japan. Indoor Air. 2010;19:243-254.
Imai N, Imai Y, Kido Y. Kido YPsychosocial factors that aggravate the symptoms of sick house syndrome in Japan. Nurs Health Sci. 2008;10:101-109.
Tudor-Locke C, Washington TL, Ainsworth BE, et al. Linking the American Time Use Survey (ATUS) and the compendium of physical activities: methods and rationale. J Physical Activity Health. 2009;6:347-353.
Leech JA, Nelson WC, Burnett RT, et al. It's about time: a comparison of Canadian and American time-activity patterns. J. Expo. Anal. Environ. Epidemiol. 2002;12:427-432.
Brasche S, Bischof W. Daily time spent indoors in German homes-baseline data for the assessment of indoor exposure of German occupants. Int. J. Hyg Environ. Health. 2005;208:247-253.
Wang J, Li B, Yang Q, et al. Odors and sensations of humidity and dryness in relation to sick building syndrome and home environment in Chongqing, China, PLoS One. 2013;8:e72385.
Bu Z, Wang L, Weschler LB, et al. Associations between perceptions of odors and dryness and children’s asthma and allergies: a cross-sectional study of home environment in Baotou. Build Environ. 2016;106:167-174.
Lu C, Deng Q, Li Y, et al. Outdoor air pollution, meteorological conditions and indoor factors in dwellings in relation to sick building syndrome (SBS) among adults in. China. 2016;560-561:186-196.
Lin Z, Wang T, Norback D, et al. Zhao, Sick building syndrome, perceived odors, sensation of air dryness and indoor environment in Urumqi, China. Chin Sci Bull. 2014;59:5153-5160.
Huo X, Sun Y, Hou J, et al. Sick building syndrome symptoms among young parents in Chinese homes. Build Environ. 2020;169:106283.
Cone JE, Shusterman D. Health effects of indoor odorants. Environ. Health Perspect. 1991;95:53-59.
Dalton P. Odor, irritation and perception of health risk. Int Arch Occup Environ Health. 2002;75:283-290.
Nakaoka H, Todaka E, Seto H, et al. Correlating the symptoms of sick-building syndrome to indoor VOCs concentration levels and odour. Indoor Built Environ. 2014;23:804-813.
Wolkoff P. Indoor air humidity, air quality, and health - an overview. Int J Hyg Environ Health. 2018;221:376-390.
Sundell J. On the association between building ventilation characteristics, some indoor environmental exposures, some allergic manifestations and sub- jective symptom reports. Indoor Air. 1994;4:7-49.
Zhang S, Ou C, Liu R, et al. Association between parental perceptions of odors and childhood asthma in subtropical South China with a hot humid climate. Build Environ. 2019;159:106155.
Morey PR, Shattuck DE. Role of ventilation in the causation of building-associated illnesses. Occup Med. 1989;4:625-642.
Fang L, Clausen G, Fanger PO. Impact of temperature and humidity on the perception of indoor air quality. Indoor Air. 1998;8:80-90.
Cain WS, Cometto-Muñiz JE. Irritation and odor as indicators of indoor pollution. Occup Med State Art Rev. 1995;10:133-145.
Nagda NL, Rector HE. A critical review of reported air concentrations of organic compounds in aircraft cabins. Indoor Air. 2003;13:292-301.
Sun Y, Zhang Y, Sundell J, et al. Dampness in dorm rooms and its asociations with allergy and airways infections among college students in China: across-sectional study. Indoor Air. 2009;19:174-182.
Hagerhad-Engman L, Bornehag CG, Sundell J. Building characteristics associated with moisture related problems in 8,918 Swedish dwellings. Int J Environ Heal R. 2009;19:251-265.
Sun Y, Hou J, Kong X, et al. “Dampness” and “Dryness”: what is important for children's allergies? A cross-sectional study of 7366 children in northeast Chinese homes. Build Environ. 2018;139:38-45.
Frontczak M, Wargocki P. Literature survey on how different factors influence human comfort in indoor environments. Build Environ. 2011;46:922-937.
Foraster M, Künzli N, Aguilera I, et al. High blood pressure and long-term exposure to indoor noise and air pollution from road traffic. Environ Health Perspect. 2014;122:1193-1200.
Brown S. Chamber assessment of formaldehyde and VOC emissions from wood-based panels. Indoor Air. 1999;9:209-215.
Al horr Y, Arif M, Katafygiotou M, et al. Impact of indoor environmental quality on occupant well-being and comfort: A review of the literature. Int J Sustainable Built Environ. 2016;5:1-11.
Liu J, Dai X, Li X, et al. Indoor air quality and occupants’ ventilation habits in China: seasonal measurement and long-term monitoring. Build Environ. 2018;142:119-129.
Dai X, Liu J, Li X, et al. Long-term monitoring of indoor CO2 and PM2.5 in Chinese homes: concentrations and their relationships with outdoor environments. Build Environ. 2018;144:238-247.
Ministry of Housing and Urban-Rural Development of the People’s Republic of China. GB50176-2016 Code for thermal design of civil building. Beijing: China Architecture & Building Press; 2016.
National Bureau of Statistics of China. China Statistical Yearbook 2017. Beijing: China Statistics Press; 2017.
Norbäck D, Edling C. Environmental, occupational, and personal factors related to the prevalence of sick building syndrome in the general population. Br J Ind Med. 1991;48:451-462.
Apter A, Bracker A, Hodgson M, et al. Epidemiology of the sick building syndrome. J Allergy ClinImmunol. 1994;94:277-288.
Bjӧrnsson E, Janson CD, Boman G. Symptoms relatedto the sick building syndrome in a general population sample:associations with atopy, bronchial hyper-responsiveness andanxiety. Int J Tuberc Lung Dis. 1998;2:1023-1028.
Hodgson M. The sick-building syndrome. Occup Med. 1995;10:167-175.
Mendell MJ. Non-specific symptoms in office workers: a review and summary of the epidemiologic literature. Indoor Air. 1993;3:227-236.
Sahlberg B, Norbäck D, Wieslander G, et al. Onset of mucosal, dermal, and general symptoms in relation to biomarkers and exposures in the dwelling: a cohort study from 1992 to 2002. Indoor Air. 2012;22:331-338.
Brauer C, Mikkelsen S. The influence of individual and contextual psychosocial work factors on the perception of the indoor environment at work: a multilevel analysis. Int Arch Occup Environ Health. 2010;83:639-651.
Hashiguchi N, Hirakawa M, Tochihara Y, et al. Effects of settingup humidifiers on thermal conditions and subjective responses of patients and staff ina hospital during winter. Appl. Ergon. 2008;39:158-165.
Norbäck D, Wieslander G, Nordström K, et al. The effect of air humidification on symptoms and nasal patency, tear film stability, and biomarkers in nasal lavage: a 6 weeks’ longitudinal study. Indoor Built Environ. 2000;9:28-34.
Nordstrӧm K, Norbäck D, Akselsson R. Effect of air humidification on the sick building syndrome and perceived indoor air quality in hospitals: a four month longitudinal study. Occup. Environ. Med. 1994;51:683-688.
Lagercrantz L. Sensation of dryness, humidity of air, comfort and health. International Center for Indoor Environment and Energy: Technical University of Denmark; 2005.
Wargocki P, Lagercrantz L, Witterseh T, et al. Subjective perceptions, symptoms intensity and performance: a comparison of two independent studies, both changing similarly the pollution load in an office. Indoor Air. 2002;12:74-80.
Persily AK. Field measurement of ventilation rates. Indoor Air. 2016;26:97-111.
Strøm-Tejsen P, Wyon DP, Lagercrantz L, et al. Passenger evaluation of the optimum balance between fresh air supply and humidity from 7-h exposures in a simulated aircraft cabin. Indoor Air. 2007;17:92-108.
Williams R, Rankin N, Smith T, et al. Relationship between the humidity and temperature of inspired gas and the function of the airway mucosa. Crit Care Med. 1996;24:1920-1927.
Wolkoff P. External eye symptoms in indoor environments. Indoor Air. 2017;27:246-260.
Wolkoff P, Kjaergaard SK. The dichotomy of relative humidity on indoor air quality. Environ Int. 2007;33:850-857.
Suhalim JL, Parfitt GJ, Xie Y, et al. Effect of dessiccating stress on mouse meibomiangl and function. Ocul Surf. 2014;12:59-68.
Myatt TA, Kaufman MH, Allen JG, et al. Modeling the airborne survival of influenza in a residential setting: the impacts of home humidification. Environ Health. 2010;9:55.
Fang L, Clausen G, Fanger PO. Impact of temperature and humidity on chemical and sensory emissions from building materials. Indoor Air. 1999;9:193-201.
Fechter J-O, Englund F, Lundin A. Association between temperature, relative humidity and concentration of volatile organic compounds from wooden furniture in a model room. Wood Mater Sci Eng. 2006;1:69-75.
Huang S, Xiong J, Cai C, et al. Influence of humidity on the initialemittable concentration of formaldehyde and hexaldehyde in building materials: experimental observation and correlation. Sci. Rep. 2016;6:1-9.
Markowicz P, Larsson L. Influence of relative humidity on VOC concentrations in indoor air. Environ Sci Pollut Res. 2015;22:5772-5779.
Wolkoff P. Impact of air velocity, temperature, humidity, and air on long-term VOC emissions from building products. Atmos Environ. 1998;32:2659-2668.
Howieson SG, Lawson A, McSharry C, et al. Domestic ventilation rates, indoor humidity and dust mite allergens: are our homes causing the asthma pandemic? Build Serv Eng Res Technol. 2003;24:137-147.
Huang S, Wei W, Weschler LB, et al. Indoor formaldehyde concentrations in urban China: preliminary study of some important influencing factors. Sci Total Environ. 2017;590-591:394-405.
Seppänen OA, Fisk WJ, Mendell MJ. Associations of ventilation rates and CO2 concentrations with health and other responses in commercial and institutional buildings. Indoor Air. 1999;9:226-252.
Zhang X, Wargocki P, Lian Z, et al. Effects of exposure to carbon dioxide and bioeffluents on perceived air quality, self-assessed acute health symptoms, and cognitive performance. Indoor Air. 2017;27:47-64.
Persily A. Evaluating building IAQ and ventilation with indoor carbon dioxide. ASHRAE Transact. 1997;103:193-204.