气态臭氧对临床和环境样品分离真菌生长的影响

IF 1.3 Q4 ENVIRONMENTAL SCIENCES Environmental Health Engineering and Management Journal Pub Date : 2023-06-20 DOI:10.34172/ehem.2023.29
Samira Djaroud, Zoubir Belmokhtar, Yassine Merad, Kamel Nassour, Malika Belkacemi, Derouicha Matmour, Zakaria Merad
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引用次数: 0

摘要

背景:在我们的实验室使用次氯酸钠、戊二醛、酒精或过氧化氢进行消毒。所有这些产品都以其对人体和生态健康的有害副作用而闻名。作为寻找更尊重环境的新灭菌方法的一部分,我们有兴趣研究臭氧气体对我们医院(Sidi Bel Abbes的Hassani Abdelkader大学医院中心)中最分离的真菌的抗真菌活性。方法:本研究以气态臭氧对医院最常见真菌分离株的抑菌活性为研究对象,并考虑臭氧暴露时间的长短。结果:臭氧气体对霉菌的杀真菌作用比对酵母菌的杀真菌作用更有效,可以抑制霉菌的繁殖和真菌生长,特别是对丝状霉菌和最常见的分离皮肤真菌。更长的暴露时间似乎更有效。结论:臭氧气体可作为一种新的灭菌和消毒技术,尤其适用于丝状真菌和皮肤真菌。
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The influence of gaseous ozone on the growth of fungi isolated from clinical and environmental samples
Background: Disinfection is performed in our laboratory using sodium hypochlorite, glutaraldehyde, alcohol, or hydrogen peroxide. All these products are known for their harmful side effects on human and ecological health. As a part of the search for new sterilization methods that respect the environment much more, we were interested in studying the antifungal activity of ozone gas on the most isolated fungi in our hospital "University Hospital Center Hassani Abdelkader of Sidi Bel Abbes". Methods: This study focused on the antifungal activity of gaseous ozone on the most common fungal isolates in the hospital, with consideration of the duration of the exposure to ozone. Results: The fungicidal effect of ozone gas on molds was more effective compared to its effect on yeasts, it makes it possible to inhibit the reproduction and fungal growth of molds, in particular the filamentous molds and the most commonly isolated dermatophytes. A longer exposure would seem to be more effective. Conclusion: Ozone gas can be a new alternative for sterilization and disinfection techniques, especially filamentous fungi and dermatophytes.
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来源期刊
CiteScore
2.40
自引率
37.50%
发文量
17
审稿时长
12 weeks
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