评价新的体外抗菌表面活性测试方法，以反映英国医院的实际情况。

Evaluation of new in vitro efficacy test for antimicrobial surface activity reflecting UK hospital conditions.

机构信息

Cardiff School of Pharmacy and Pharmaceutical Sciences, Cardiff University, Cardiff, UK.

出版信息

J Hosp Infect. 2013 Dec;85(4):274-81. doi: 10.1016/j.jhin.2013.08.007. Epub 2013 Sep 18.

DOI:10.1016/j.jhin.2013.08.007

PMID:24091310

Abstract

BACKGROUND

Antimicrobial surfaces aim to reduce microbial bioburden and improve hygiene. The current antimicrobial surface efficacy test (ISO22196) is an initial screening test but its conditions, high temperature (37°C) and relative humidity (RH) (100%) bear little relationship to in-use conditions.

AIM

To develop an antimicrobial surface efficacy test providing a realistic second-tier test, simulating in-use conditions.

METHODS

Surface relative humidity, temperature and soiling were measured over one year at a UK hospital, enabling realistic parameters to be set for our surface efficacy test. A nebulizer, connected to a cascade impactor, aerosolized and uniformly deposited a Staphylococcus aureus suspension over test copper alloys and control stainless steel surfaces. Bacteria were enumerated following nebulization, and after a range of contact times, under [20°C, 50% RH] and [20°C, 40% RH] parameters reflecting in-use conditions; [37°C, 100% RH] was employed to reflect conditions used in ISO22196.

FINDINGS

All copper alloys produced a >4 log10 reduction after 24h under all conditions tested. Copper alloys were more effective at [37°C, 100% RH] showing a >4 log10 reduction after 30 min than at in-use conditions [20°C, 50% RH and 20°C, 40% RH], for which 60 min was required to achieve the same level of kill, for most but not all alloys.

CONCLUSION

The use of the nebulizer to deposit bacterial inocula on surfaces showed little variability in results. Our method was more discriminatory than the ISO22196 enabling distinction between the bactericidal surface activity, which allows for a more rigorous selection of antimicrobial surfaces for potential use in healthcare settings.

摘要

背景

抗菌表面旨在减少微生物生物负荷并提高卫生水平。目前的抗菌表面功效测试（ISO22196）是一种初始筛选测试，但它的条件，高温（37°C）和相对湿度（RH）（100%）与使用条件几乎没有关系。

目的

开发一种抗菌表面功效测试，提供一种现实的二级测试，模拟使用条件。

方法

在英国一家医院进行了为期一年的表面相对湿度、温度和污染测量，为我们的表面功效测试设定了现实的参数。通过喷雾器将金黄色葡萄球菌悬浮液雾化并均匀地沉积在测试铜合金和对照不锈钢表面上，喷雾器连接到级联冲击器。在 [20°C、50%RH] 和 [20°C、40%RH] 条件下，在喷雾后和接触不同时间后对细菌进行计数，这些条件反映了使用条件；[37°C、100%RH] 用于反映 ISO22196 中使用的条件。

结果

所有铜合金在所有测试条件下经过 24 小时后都产生了 >4 log10 的减少。铜合金在 [37°C、100%RH] 下比在使用条件 [20°C、50%RH 和 20°C、40%RH] 下更有效，在使用条件下需要 60 分钟才能达到相同的杀灭水平，对于大多数但不是所有的合金都是如此。

结论

使用喷雾器将细菌接种物沉积在表面上，结果显示出很小的差异。我们的方法比 ISO22196 更具区分性，能够区分杀菌表面活性，从而更严格地选择抗菌表面，以潜在用于医疗保健环境。

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评价新的体外抗菌表面活性测试方法，以反映英国医院的实际情况。

Evaluation of new in vitro efficacy test for antimicrobial surface activity reflecting UK hospital conditions.

机构信息

出版信息

BACKGROUND

AIM

METHODS

FINDINGS

CONCLUSION

背景

目的

方法

结果

结论

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