Assessment of Indoor Air Quality of Four Primary Health Care Centers in Qatar.
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Date
2022-10-18Author
Abdelrahman, HanaAbu-Rub, Lubna
Al Mana, Hassan
Alhorr, Yousef
Al Thani, Asmaa
Qotba, Hamda
Yassine, Hadi M
Eltai, Nahla O
Hadi, M Yassine
Hadi, M Yassine
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Airborne bacteria pose a potential risk to human health upon inhalation in the indoor environments of health care facilities. Airborne bacteria may originate from various sources, including patients, workers, and daily visitors. Hence, this study investigates the quantity, size, and identification of airborne bacteria indoors and outdoors of four Primary Health Care Centers (PHCC) in Doha, Qatar. Air samples were collected from the lobby, triage room, and outside environment of the centers, including, Qatar University (QU-HC), Al-Rayyan (AR-HC), Umm-Ghuwailina (UG-HC), and Old Airport (OA-HC) between August 2020 and March 2021, throughout both the hot and the cold seasons. Samples were collected using an Anderson six-stage cascade impactor. The mean of the total colony-forming units was calculated per cubic meter of air (CFU/m). QU-HC had the lowest mean of total bacterial count compared with other centers in the indoor and outdoor areas with 100.4 and 99.6 CFU/m, respectively. In contrast, AR-HC had the highest level, with 459 CFU/m indoors, while OA-HC recorded the highest bacterial concentration of the outdoor areas with a total mean 377 CFU/m. In addition, 16S rRNA sequencing was performed for genera identification. , , , and were the four most frequently identified bacterial genera in this study. The abundance of airborne bacteria in the four health centers was higher in the cold season. About 46% of the total airborne bacterial count for three PHCC centers exceeded 300 CFU/m, making them uncompliant with the World Health Organization's (WHO) recommendation for indoor settings. Consequently, an IAQ standards should be shaped to establish a baseline for measuring air pollution in Qatar. Additionally, it is crucial to understand seasonal fluctuations better so that hospitals can avoid rising and spreading infection peaks.
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