臭氧水喷雾室的消毒效果:对个人防护装备全部和部分杀菌效果的科学依据及病毒实验模型的体外分析

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS ACS Applied Bio Materials Pub Date : 2022-03-07 DOI:10.1080/01919512.2022.2040353
F. Oliveira, Laerte Marlon Conceição dos Santos, E. S. da Silva, Letícia de Alencar Pereira Rodrigues, Paulo Roberto Freitas Neves, Greta Almeida Fernandes Moreira, Gabriela Matheus Monteiro Lobato, Carlos Nascimento, Marcelo Gerhardt, Alex Álisson Bandeira Santos, Luís Alberto Brêda Mascarenhas, Bruna Aparecida Souza Machado
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引用次数: 6

摘要

由于微生物感染的高复发率,开发防止病原体传播的新技术至关重要,特别是防止人类感染。因此,用于表面净化的设备不仅减少了病原体在环境中的传播,而且为社区提供了更大的安全和保护。臭氧(O3)是一种能够减少或消除几种微生物的物质,因为它具有杀生物能力,包括当它溶解在水中时。本研究的目的是开发一种使用臭氧化水的即时去污装置。为确认其杀菌作用并验证其有效性,对个人防护装备(PPE)上重要病原体微生物负荷的减少情况进行了评估。此外,为了证实臭氧水对SARS-CoV-2的生物杀灭作用,进行了体外γ冠状病毒模型试验。结果表明,在臭氧化水浓度为0.3 ~ 0.6 mg/L和0.7 ~ 0.9 mg/L时,消毒装置中臭氧化水的杀菌效果均在2 log10以上,灭活率分别在60% (0.3 ~ 0.6 mg/L)和80% (0.7 ~ 0.9 mg/L)以上,检测PPE中微生物100%杀灭的比例较高。体外对病毒模型中臭氧化水的评价结果表明,在0.3 ~ 0.5 mg/L浓度范围内,臭氧化水的还原率为99.9%,在0.6 ~ 0.8 mg/L浓度范围内,还原率为99%,分别为5.10 log EDI50/mL和6.95 log EDI50/mL。本研究开发的即时去污系统被证明对微生物减少是有效的,我们证实了臭氧化水作为生物杀灭剂的潜力。因此,建议的去污装置可以被认为是使用臭氧化水减少表面污染的工具。
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Disinfecting Efficacy of an Ozonated Water Spray Chamber: Scientific Evidence of the Total and Partial Biocidal Effect on Personal Protective Equipment and in Vitro Analysis of a Viral Experimental Model
ABSTRACT Due to the high recurrence of microbial infections, developing new technologies for preventing the dissemination of pathogens is essential, especially to prevent infection in humans. Thus, devices for the decontamination of surfaces reduce not only the spread of pathogens in the environment, but provide greater security and protection for communities. Ozone (O3) is a substance capable of reducing or eliminating several types of microorganisms owing to its biocidal capacity, including when it is dissolved in water. The objective of this study was to develop an instant decontamination device using ozonated water. To confirm its biocidal action and verify the device’s efficacy, the reduction of the microbial load of important pathogens on personal protective equipment (PPE) was assessed. In addition, in order to confirm the biocidal action of ozonated water against SARS-CoV-2, in vitro tests on a viral model of Gammacoronavirus were performed. The results showed the efficacy of ozonated water in the disinfection device at concentration ranges of 0.3–0.6 mg/L and 0.7–0.9 mg/L of ozonated water, with growth reductions above 2 log10 for both concentration ranges tested and inactivation fractions above 60% (0.3–0.6 mg/L) and 80% (0.7–0.9 mg/L), with a high proportion of the tested PPE showing 100% microbial reduction. In vitro results for the evaluation of ozonated water in a viral model showed a 99.9% reduction percentage in the concentration range of 0.3 to 0.5 mg/L and a 99% reduction in the concentration range of 0.6 to 0.8 mg/L, with a 5.10 log EDI50/mL and 6.95 log EDI50/mL reduction, respectively. The instant decontamination system developed in this study proved effective for microbial reduction, and we confirmed the potential of ozonated water as a biocidal agent. Therefore, the proposed decontamination device could be considered as a tool for reducing contamination on surfaces using ozonated water.
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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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