固体表面的抗菌活性主要取决于相对湿度、接种量和有机污垢。

FEMS microbes Pub Date : 2023-12-01 eCollection Date: 2024-01-01 DOI:10.1093/femsmc/xtad022
Harleen Kaur, Merilin Rosenberg, Mati Kook, Dmytro Danilian, Vambola Kisand, Angela Ivask
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引用次数: 0

摘要

抗菌表面材料可防止病原体从受污染的表面转移。此类表面材料的功效是通过标准方法进行评估的,采用湿接触条件,众所周知,与干接触相比,湿接触会高估抗菌活性。已经提出了一些干法测试方法,但对半干法暴露情况(如口腔喷雾或水滴暴露于环境中)的研究较少。我们的目的是确定环境测试条件对大肠杆菌和金黄色葡萄球菌抗菌活性的影响。我们在模拟微滴喷雾或暴露于不同相对空气湿度的较大水滴的条件下,测试了已知或声称具有抗菌特性的铜、银和季铵盐表面,无论是否存在有机污垢。所有环境参数都会严重影响被测表面的抗菌活性,从高有机物干燥条件下的无效果到低有机物潮湿条件下的高效果,但都没有达到 ISO 22169 湿式测试中的效果大小。铜是最有效的抗菌表面,其次是银和季铵盐涂层。因此,在与应用相关的条件下使用小液滴污染进行的表面抗菌测试可被视为与干用表面相关的最坏暴露情况之一。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Antibacterial activity of solid surfaces is critically dependent on relative humidity, inoculum volume, and organic soiling.

Antimicrobial surface materials potentially prevent pathogen transfer from contaminated surfaces. Efficacy of such surfaces is assessed by standard methods using wet exposure conditions known to overestimate antimicrobial activity compared to dry exposure. Some dry test formats have been proposed but semi-dry exposure scenarios e.g. oral spray or water droplets exposed to ambient environment, are less studied. We aimed to determine the impact of environmental test conditions on antibacterial activity against the model species Escherichia coli and Staphylococcus aureus. Surfaces based on copper, silver, and quaternary ammonium with known or claimed antimicrobial properties were tested in conditions mimicking microdroplet spray or larger water droplets exposed to variable relative air humidity in the presence or absence of organic soiling. All the environmental parameters critically affected antibacterial activity of the tested surfaces from no effect in high-organic dry conditions to higher effect in low-organic humid conditions but not reaching the effect size demonstrated in the ISO 22169 wet format. Copper was the most efficient antibacterial surface followed by silver and quaternary ammonium based coating. Antimicrobial testing of surfaces using small droplet contamination in application-relevant conditions could therefore be considered as one of the worst-case exposure scenarios relevant to dry use surfaces.

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CiteScore
3.30
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