Virucidal, bactericidal, and sporicidal multilevel antimicrobial HEPA-ClO2 filter for air disinfection in a palliative care facility

[Display omitted] •HEPA-ClO2 with contact-killing and release-killing properties against microbes.•HEPA-ClO2 with effective in filtering and killing viruses, bacteria, and spores.•HEPA-ClO2 is safe according to in-vitro and in-vivo studies.•HEPA-ClO2 is more efficient than unmodified HEPA in field t...

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Published in:Chemical engineering journal (Lausanne, Switzerland : 1996) Switzerland : 1996), 2022-04, Vol.433, p.134115, Article 134115
Main Authors: Yan Suen, Chin, Tak Lai, Yue, Hei Lui, Ka, Li, Yan, Hoi Ling Kwok, Helen, Chang, Qing, Hong Lee, Jong, Han, Wei, Yang, Xu, Yang, Zifeng, Mo, Ziyao, Kin Shing Wong, Paul, Chi Tat Leung, Anthony, Kai Cho Kwan, Joseph, Lun Yeung, King
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Language:English
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Summary:[Display omitted] •HEPA-ClO2 with contact-killing and release-killing properties against microbes.•HEPA-ClO2 with effective in filtering and killing viruses, bacteria, and spores.•HEPA-ClO2 is safe according to in-vitro and in-vivo studies.•HEPA-ClO2 is more efficient than unmodified HEPA in field trial and CFD studies. Pathogenic microbes in the air are the leading cause of respiratory diseases and illnesses, and respiratory viruses are responsible for some of the world’s most devastating epidemics and pandemics. Therefore, their capture, removal, and disinfection are essential in preventing the spread of diseases. A multilevel antimicrobial HEPA-ClO2 prepared by coating micro-encapsulated chlorine dioxide on high-efficiency particulate air (HEPA-H13) filter, displays broad-spectrum virucidal and bactericidal, as well as sporicidal activities through the combined “contact-killing” and “release-killing” properties. In-vitro cytotoxicity (i.e., human A549 cells) and in-vivo inhalation toxicity tests (i.e., Kunming mice) indicate HEPA-ClO2 has low inhalation toxicity and is safe. Furthermore, it has superb performance against a panel of infectious respiratory viruses (e.g., influenza viruses, EV-71) and bacteria (e.g., L. pneumophila, K. pneumonia) and drug-resistant organisms (e.g., MRSA, MRPA), attaining log 2 reduction (99%) within a minute. However, spores required 30 min to reach 99% inactivation. A 260-day field trial study at a palliative care facility demonstrated that air purifiers could significantly decrease airborne particulates and microbes (bacteria and mold/fungi) and confirmed the long-term efficacy of the HEPA-ClO2 filters and their superiority over uncoated HEPA-H13 against microbes. The experimental results from the wardroom were validated by a computational fluid dynamics (CFD) simulation.
ISSN:1385-8947
1873-3212
DOI:10.1016/j.cej.2021.134115