This work is licensed under the Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 License.
Dominici F, Peng RD, Bell ML, Pham L, McDermott A, Zeger SL, et al. Fine particulate air pollution and hospital admission for cardiovascular and respiratory diseases. JAMA. 2006; 295: 1127–34.DominiciFPengRDBellMLPhamLMcDermottAZegerSLFine particulate air pollution and hospital admission for cardiovascular and respiratory diseasesJAMA200629511273410.1001/jama.295.10.1127354315416522832Search in Google Scholar
World Health Organization. First WHO global conference on air pollution and health improving air quality, combatting climate change – saving lives [online]. 2018 [cited 2018 April 05]. Available from: http://www.who.int/airpollution/events/conference/Air-Pollution_and_Health_Conference_Brochure_SavetheDate_FINAL_web5-EN.pdf.pdf?ua=1World Health OrganizationFirst WHO global conference on air pollution and health improving air quality, combatting climate change – saving lives [online]2018[cited 2018 April 05]. Available fromhttp://www.who.int/airpollution/events/conference/Air-Pollution_and_Health_Conference_Brochure_SavetheDate_FINAL_web5-EN.pdf.pdf?ua=1Search in Google Scholar
Eames I, Tang JW, Li Y, Wilson P. Airborne transmission of disease in hospitals. J R Soc Interface. 2009; 6(Suppl):S697–702.EamesITangJWLiYWilsonPAirborne transmission of disease in hospitalsJ R Soc Interface20096SupplS69770210.1098/rsif.2009.0407.focus284395319828499Search in Google Scholar
Ayodele C, Fakinle B, Jimoda LA, Sonibare JA. Investigation on the ambient air quality in a hospital environment. Cogent Environ Sci. 2016; 2:1215281. doi: 10.1080/23311843.2016. 1215281AyodeleCFakinleBJimodaLASonibareJAInvestigation on the ambient air quality in a hospital environmentCogent Environ Sci20162121528110.1080/23311843.2016.1215281Open DOISearch in Google Scholar
Nardell EA. Indoor environmental control of tuberculosis and other airborne infections. Indoor Air. 2016; 26:79–87.NardellEAIndoor environmental control of tuberculosis and other airborne infectionsIndoor Air201626798710.1111/ina.1223226178270Search in Google Scholar
Leonard MK, Egan KB, Kourbatova E, White N, Parrott P, Del Rio C, Blumberg HM. Increased efficiency in evaluating patients with suspected tuberculosis by use of a dedicated airborne infection isolation unit. Am J Infect Control. 2006; 34:69–72.LeonardMKEganKBKourbatovaEWhiteNParrottPDelRio CBlumbergHMIncreased efficiency in evaluating patients with suspected tuberculosis by use of a dedicated airborne infection isolation unitAm J Infect Control200634697210.1016/j.ajic.2005.09.00316490609Search in Google Scholar
Sornboot J, Aekplakorn W, Ramasoota P, Bualert S, Tumwasorn S, Jiamjarasrangsi W. Assessment of bioaerosols in tuberculosis high-risk areas of healthcare facilities in central Thailand. Asian Biomed (Res Rev News). 2018; 12:55–63.SornbootJAekplakornWRamasootaPBualertSTumwasornSJiamjarasrangsiWAssessment of bioaerosols in tuberculosis high-risk areas of healthcare facilities in central ThailandAsian Biomed (Res Rev News)201812556310.1515/abm-2019-0002Search in Google Scholar
Montz WE Jr. Indoor air quality in hospitals. Med Waste Anal. 1993; 2:3–7.MontzWE JrIndoor air quality in hospitalsMed Waste Anal1993237Search in Google Scholar