The plumbing problem: rising antimicrobial resistance in building water systems.

IF 4 3区医学 Q2 INFECTIOUS DISEASES

Current Opinion in Infectious Diseases Pub Date : 2025-08-01 Epub Date: 2025-06-05 DOI:10.1097/QCO.0000000000001119

Claire Hayward, Harriet Whiley, Nicholas J Ashbolt

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引用次数: 0

Abstract

Purpose of review: This review examines the interplay between biological and anthropogenic factors in the development and persistence of antimicrobial resistance (AMR) within building plumbing systems, which is of particular concern in high risk setting such as healthcare facilities. The review highlights the role of biofilms and amoeba as reservoirs for AMR and explores how engineering and design decisions, governance structures, and cleaning protocols influence microbial resistance dynamics.

Recent findings: Biofilms provide a protective environment that facilitates horizontal gene transfer and enhances bacterial resistance to disinfection. Amoeba-hosted bacteria can evade standard cleaning practices, further promoting AMR persistence. Emerging technologies, such as digital twin modelling, offer new opportunities to optimize risk mitigation strategies. However, more consideration is needed to be given to design or management decision that may have unintended consequences, such as unintended design outcomes, such as increased biofilm growth from tap mixers and low-flow fixtures, and ineffective cleaning protocols, which can inadvertently worsen AMR.

Summary: Effectively managing AMR in plumbing systems requires a multidisciplinary approach that integrates microbiology, engineering, and policy. Data driven risk assessments can identify high-risk areas that may require design changes but also can enable targeted cleaning strategies, reducing reliance on widespread disinfection that may drive resistance. Future policies must consider system-wide implications to prevent unintended consequences. By addressing both biological and anthropogenic drivers, we can develop sustainable solutions to mitigate AMR risks in healthcare and beyond.

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管道问题：建筑供水系统中抗菌素耐药性上升。

综述目的：本综述探讨了生物和人为因素在建筑管道系统中抗菌素耐药性（AMR）的发展和持续中的相互作用，这在医疗保健设施等高风险环境中特别值得关注。这篇综述强调了生物膜和变形虫作为抗菌素耐药性储存库的作用，并探讨了工程和设计决策、治理结构和清洁方案如何影响微生物耐药性动态。最近的发现：生物膜提供了一个保护环境，促进了水平基因转移，增强了细菌对消毒的抵抗力。携带变形虫的细菌可以逃避标准的清洁措施，进一步促进抗菌素耐药性的持久性。数字孪生模型等新兴技术为优化风险缓解战略提供了新的机会。然而，需要更多地考虑可能产生意想不到后果的设计或管理决策，例如意想不到的设计结果，例如水龙头混合器和低流量固定装置的生物膜生长增加，以及无效的清洁方案，这些都可能无意中加剧AMR。摘要：有效管理管道系统中的抗菌素耐药性需要多学科方法，将微生物学、工程学和政策相结合。数据驱动的风险评估可以确定可能需要更改设计的高风险区域，但也可以实现有针对性的清洁策略，减少对可能导致耐药性的广泛消毒的依赖。未来的政策必须考虑到整个系统的影响，以防止意想不到的后果。通过解决生物和人为驱动因素，我们可以开发可持续的解决方案，以减轻医疗保健及其他领域的抗菌素耐药性风险。

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

Current Opinion in Infectious Diseases 医学-传染病学

CiteScore

6.70

自引率

2.60%

发文量

121

审稿时长

6-12 weeks

期刊介绍： This reader-friendly, bimonthly resource provides a powerful, broad-based perspective on the most important advances from throughout the world literature. Featuring renowned guest editors and focusing exclusively on two topics, every issue of Current Opinion in Infectious Disease delivers unvarnished, expert assessments of developments from the previous year. Insightful editorials and on-the-mark invited reviews cover key subjects such as HIV infection and AIDS; skin and soft tissue infections; respiratory infections; paediatric and neonatal infections; gastrointestinal infections; tropical and travel-associated diseases; and antimicrobial agents.