Evaluation of Pressurized Steam Disinfection of Surfaces Contaminated by Mycobacterium terrae: A Surrogate for Mycobacterium bovis.

IF 0.5 Q4 PUBLIC, ENVIRONMENTAL & OCCUPATIONAL HEALTH Applied Biosafety Pub Date : 2023-09-01 Epub Date: 2023-09-12 DOI:10.1089/apb.2023.0004

Jiewen Guan, Maria Chan, Elizabeth Rohonczy

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Abstract

Introduction: Decontamination of farms affected by bovine tuberculosis could be very challenging during outbreaks occurring in the winter with freezing temperatures. Steam treatment has been of practical interest, but information is needed on whether such treatment is able to inactivate the causative agent, Mycobacterium bovis. This study was to evaluate the use of pressurized steam for inactivation of Mycobacterium terrae, a surrogate for M. bovis on various surfaces.

Methods: Carrier disks made of steel, wood, or rubber were inoculated with 6.32 ± 0.38 log₁₀ M. terrae. While being held at background temperatures of -20°C, 4°C, or 21°C, these carrier disks were treated with pressurized steam (120°C ± 5°C) for 5, 10, 15, or 20 s. Reduction in colony forming units of M. terrae and temperatures on the top and bottom surfaces of the disks were determined.

Results: Complete inactivation of 6 log₁₀ M. terrae on steel and wood disks was achieved by 10 s of steam treatment at all three background temperatures. In comparison, 20 s of steam treatment was needed for the complete inactivation of mycobacteria on rubber disks. Corresponding to the longer treatment time required for mycobacterial inactivation, temperatures on the bottom surface of the rubber disks rose substantially slower than those of the steel and wood disks at all three background temperatures.

Conclusion: The results suggested that treatment with pressurized steam has potential for efficient and effective disinfection of surfaces contaminated by mycobacteria at or below freezing temperatures in winter.

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土分枝杆菌污染表面加压蒸汽消毒的评价：牛分枝杆菌的替代品。

引言：在寒冷的冬季爆发疫情期间，对受牛结核病影响的农场进行净化可能非常具有挑战性。蒸汽处理具有实际意义，但需要了解这种处理是否能够灭活病原体牛分枝杆菌。本研究旨在评估加压蒸汽对不同表面上牛分枝杆菌的替代物——地分枝杆菌的灭活作用。方法：用6.32接种由钢、木或橡胶制成的载体盘 ± 0.38 log10 M.terrae。在-20°C、4°C或21°C的背景温度下保持时，用加压蒸汽（120°C ± 5°C）持续5、10、15或20 s.测定了水螅菌落形成单位的减少以及圆盘顶部和底部表面的温度。结果：用10 在所有三个背景温度下蒸汽处理的s。相比之下，20 蒸汽处理需要s才能完全灭活橡胶盘上的分枝杆菌。与分枝杆菌灭活所需的较长处理时间相对应，在所有三个背景温度下，橡胶盘底表面的温度上升速度明显慢于钢盘和木盘。结论：加压蒸汽处理有可能在冬季或低于冰点的温度下对受分枝杆菌污染的表面进行有效消毒。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Applied Biosafety Environmental Science-Management, Monitoring, Policy and Law

CiteScore

2.50

自引率

13.30%

发文量

期刊介绍： Applied Biosafety (APB), sponsored by ABSA International, is a peer-reviewed, scientific journal committed to promoting global biosafety awareness and best practices to prevent occupational exposures and adverse environmental impacts related to biohazardous releases. APB provides a forum for exchanging sound biosafety and biosecurity initiatives by publishing original articles, review articles, letters to the editors, commentaries, and brief reviews. APB informs scientists, safety professionals, policymakers, engineers, architects, and governmental organizations. The journal is committed to publishing on topics significant in well-resourced countries as well as information relevant to underserved regions, engaging and cultivating the development of biosafety professionals globally.