A systematic review and meta-analysis of indoor bioaerosols in hospitals: The influence of heating, ventilation, and air conditioning

Author:

Dai Rongchen,Liu Shan,Li Qiushuang,Wu Hanting,Wu Li,Ji ConghuaORCID

Abstract

Objectives To evaluate (1) the relationship between heating, ventilation, and air conditioning (HVAC) systems and bioaerosol concentrations in hospital rooms, and (2) the effectiveness of laminar air flow (LAF) and high efficiency particulate air (HEPA) according to the indoor bioaerosol concentrations. Methods Databases of Embase, PubMed, Cochrane Library, MEDLINE, and Web of Science were searched from 1st January 2000 to 31st December 2020. Two reviewers independently extracted data and assessed the quality of the studies. The samples obtained from different areas of hospitals were grouped and described statistically. Furthermore, the meta-analysis of LAF and HEPA were performed using random-effects models. The methodological quality of the studies included in the meta-analysis was assessed using the checklist recommended by the Agency for Healthcare Research and Quality. Results The mean CFU/m3 of the conventional HVAC rooms and enhanced HVAC rooms was lower than that of rooms without HVAC systems. Furthermore, the use of the HEPA filter reduced bacteria by 113.13 (95% CI: -197.89, -28.38) CFU/m3 and fungi by 6.53 (95% CI: -10.50, -2.55) CFU/m3. Meanwhile, the indoor bacterial concentration of LAF systems decreased by 40.05 (95% CI: -55.52, -24.58) CFU/m3 compared to that of conventional HVAC systems. Conclusions The HVAC systems in hospitals can effectively remove bioaerosols. Further, the use of HEPA filters is an effective option for areas that are under-ventilated and require additional protection. However, other components of the LAF system other than the HEPA filter are not conducive to removing airborne bacteria and fungi. Limitation of study Although our study analysed the overall trend of indoor bioaerosols, the conclusions cannot be extrapolated to rare, hard-to-culture, and highly pathogenic species, as well as species complexes. These species require specific culture conditions or different sampling requirements. Investigating the effects of HVAC systems on these species via conventional culture counting methods is challenging and further analysis that includes combining molecular identification methods is necessary. Strength of the study Our study was the first meta-analysis to evaluate the effect of HVAC systems on indoor bioaerosols through microbial incubation count. Our study demonstrated that HVAC systems could effectively reduce overall bioaerosol concentrations to maintain better indoor air quality. Moreover, our study provided further evidence that other components of the LAF system other than the HEPA filter are not conducive to removing airborne bacteria and fungi. Practical implication Our research showed that HEPA filters are more effective at removing bioaerosols in HVAC systems than the current LAF system. Therefore, instead of opting for the more costly LAF system, a filter with a higher filtration rate would be a better choice for indoor environments that require higher air quality; this is valuable for operating room construction and maintenance budget allocation.

Funder

the key R & D projects from the Department of Science and Technology of Zhejiang Province

the Administration of Traditional Chinese Medicine of Zhejiang Province

Publisher

Public Library of Science (PLoS)

Subject

Multidisciplinary

Reference64 articles.

1. COVID-19 AND AIR CONDITIONING—IS THERE AN ENVIRONMENTAL LINK?;GA Lacatusu;Environmental Engineering and Management Journal,2020

2. The influence of the workplace indoor environmental quality on the incidence of psychological and physical symptoms in intensive care units;EM de Araujo Vieira;Building and Environment,2016

3. Health effects of heating, ventilation and air conditioning on hospital patients: a scoping review;B Lenzer;Bmc Public Health,2020

4. Indoor Air Quality in the Hospital: The Influence of Heating, Ventilating and Conditioning Systems;J Bozic;Brazilian Archives of Biology and Technology,2019

5. COVID-19 Outbreak Associated with Air Conditioning in Restaurant, Guangzhou, China, 2020;AM Rule;Emerg Infect Dis,2020

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