Indoor exposure levels of bacteria and fungi in residences, schools, and offices in China: A systematic review

Guo, Kangqi; Qian, Hua; Zhao, Dongliang; Jin, Youngeup; Zhang, Yinping; Kan, Haidong; Zhao, Zhuohui; Deng, Furong; Huang, Chen; Zhao, Bin; Zeng, Xiangang; Sun, Yuexia; Mo, Jinhan; Sun, Chanjuan; Guo, Jianguo; Zheng, Xiaohong

doi:10.1111/ina.12734

Cited by 53 publications

(35 citation statements)

References 87 publications

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“…Nanjing has a typical humid subtropical climate and is greatly influenced by the East Asian monsoon, creating four distinct seasons with damp conditions throughout the year, which may particularly favor bioaerosols indoors. In a recent study, Guo et al reviewed exposure levels, community structures, and impact factors of airborne bacteria in residences, schools, and offices in China, suggesting that the concentration level of microbes varies in different climate zones, with higher bacteria concentrations in the severe cold zone 50 . Hao et al have measured household culturable bioaerosols in Hangzhou, a nearby city of Nanjing with similar climate, and reported the highest and lowest concentrations of airborne bacteria, respectively, appeared in spring and in winter, 51 which agrees well with that in Beijing 17 .…”

Section: Introductionmentioning

confidence: 99%

Combining culturing and 16S rDNA sequencing to reveal seasonal and room variations of household airborne bacteria and correlative environmental factors in nanjing, southeast china

Qian

Zhang

et al. 2021

Indoor Air

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Bioaerosols are ubiquitous in indoor and outdoor environment. 1 They are tiny airborne particles, usually ranging from 0.001 nm to 100 μm, containing pathogenic and non-pathogenic dead or alive microorganisms (bacteria, fungi, and virus). 2,3 Fine bioaerosols tend to suspend for a long time in the air, varying from several minutes and even hours depending on their size. [4][5][6] Exposure to bioaerosols potentially poses adverse health effects, including infectious and respiratory diseases, allergies, and even cancer. 3,7 People spend about 85% of their lifetime indoors, and remarkably 70% of which was spent at home. 8 It is of importance to characterize bioaerosols in residential homes for better indoor air quality and human health.Abundant studies based on culture-based or culture-independent methods have investigated bioaerosols in residences 9,21-23 as well

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Section: Introductionmentioning

confidence: 99%

Combining culturing and 16S rDNA sequencing to reveal seasonal and room variations of household airborne bacteria and correlative environmental factors in nanjing, southeast china

Qian

Zhang

et al. 2021

Indoor Air

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“…There are no international standards that specify limits for bacteria in indoor air, but national or regional guidelines stipulate levels that should not be exceeded, which vary from 5.00 x 10 2 to 1.00 x 10 4 CFU m −3 (24). The results in this study show that walking and washing hands increased the number of bacteria in indoor air compared to just walking.…”

Section: Discussionmentioning

confidence: 67%

“…The exception was for drying hands with paper towels (after rinsing) compared to walking, and for drying hands with jet air dryer model D (after rinsing and washing) compared to walking or walking and washing hands, which were statistical significant at location 2, possibly because this sampling location was the nearest to the hand drying location. The highest increase in the number of bacteria was for model D, an expected result since this device was placed on the sink, which was wet and may have contained bacteria; however the number of bacteria in air were below acceptable levels, according to regional guidelines for bacteria in indoor air reported by Guo et al (24). For all jet air dryer models tested, the increase of bacteria in air was not statistically different compared to drying hands with paper towels and to washing without drying up hands.…”

Section: Discussionmentioning

confidence: 80%

Aerosols and Bacteria From Hand Washing and Drying in Indoor Air

Gião

Vardoulakis

2022

Front. Public Health

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Effective hand drying is an important part of hand hygiene that can reduce the risk of infectious disease transmission through cross-contamination of surfaces by wet hands. However, hand drying methods may also cause aerosolisation of pathogenic microorganisms if they are present in washed hands. This study investigated experimentally the impact of washing hands and different hand drying methods on the concentration and size distribution of aerosols and bacteria in indoor air. In this experiment, aerosol and bacteria concentrations were measured in indoor air while volunteers rinsed their hands with water or washed with soap and water prior to drying them with paper towels or jet air dryers. Results showed that the concentration of aerosols and bacteria in air increased with people walking in the room and washing hands, with a further increase during the hand drying process. The concentration of aerosols decreased with particle size, with maximum concentrations after drying hands of 6.63 × 106 ± 6.49 × 105 and 2.28 × 104 ± 9.72 × 103 particles m−3 for sizes 0.3 to <0.5 and ≥5.0 μm, respectively. The concentration of bacteria in indoor air after drying hands increased to a maximum of 3.81 × 102 ± 1.48 × 102 CFU m−3 (jet air dryers) and 4.50 × 102 ± 4.35 × 101 CFU m−3 (paper towels). This study indicates that the increase of aerosols and bacteria in air after drying hands with jet air dryers or paper towels are comparable and not statistically different from concentrations associated with walking and washing hands in the same environment. This work can support the development of hand hygiene practices and guidelines for public washrooms.

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“…Considering the spatial distribution of indoor particles is thus helpful in providing a basis for reducing indoor particle concentration and improving indoor air quality, which is of great significance for the accurate design of a healthy indoor environment. To date, the distribution and propagation of aerosols and other apparent properties have been studied in many indoor places, such as public hospitals (Chow and Wang 2012;Sadrizadeh et al 2014;Wang et al 2018), workplaces (Kalogerakis et al 2005;He et al 2011;Zhang et al 2017), houses (Lis and Pastuszka 1997;Jo and Seo 2005;Guo et al 2020), and public restrooms (Lee et al 2012;Kim et al 2014;Sassi et al 2018). At the same time, more in-depth and rigorous researches on aerosols have been carried out.…”

Section: Introductionmentioning

confidence: 99%

Quantitative distribution of human exhaled particles in a ventilation room

et al. 2021

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Respiratory viruses can be attached to human exhaled particles and spread from person to person through respiratory activities. The purpose of this study is to obtain the quantitative description formula of human exhaled particles in the ventilated room through amount number of numerical simulation calculations and regression statistical analysis of the simulated data. In this study, a combination of numerical simulation and laboratory experiments was used, and the results were tallied preferably. Bacillus subtilis was released as a release source to investigate the migration and distribution of bioaerosol. The results show that under the condition of high air supply velocity, due to the disturbance of human respiration and airflow, the diffusion velocity of exhaled particles was faster and the diffusion range is larger than that of low air supply velocity within the same time frame. No matter where the location of the manikin was in the room, the exhaled particles would spread to the whole room in at least 900 s. The method used in this study could be used to predict the distribution of human exhaled particles concentration in different indoor spaces, such as public transport and hospitals. These findings could provide valuable reference for the location of indoor air purifiers, which plays a guiding role in the construction of a healthy indoor environment.

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Indoor exposure levels of bacteria and fungi in residences, schools, and offices in China: A systematic review

Cited by 53 publications

References 87 publications

Combining culturing and 16S rDNA sequencing to reveal seasonal and room variations of household airborne bacteria and correlative environmental factors in nanjing, southeast china

Combining culturing and 16S rDNA sequencing to reveal seasonal and room variations of household airborne bacteria and correlative environmental factors in nanjing, southeast china

Aerosols and Bacteria From Hand Washing and Drying in Indoor Air

Quantitative distribution of human exhaled particles in a ventilation room

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