Statistical analysis of parameters affecting Legionella and total cell growth in premise plumbing systems within buildings: A field study based on an empirical data set

IF 4.5 2区 医学 Q1 INFECTIOUS DISEASES
Marco Daniele Genuardi , Marlies Wiegand , Elisabeth Endres , Oliver Opel
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Abstract

During the storage and distribution of water in buildings, the excessive growth of pathogens can deteriorate the quality of drinking water. This study aims to investigate the factors influencing this growth and propose technical measures for prevention. The analysis is based on an empirical data set comprising 1361 samples from 204 domestic premise plumbing systems. In 14 systems, ultrafiltration plants were installed as microbiological barriers. Legionella cultivation and flow cytometry were used to determine microbiological properties. The study identified elevated total cell counts in tapping valves and pipe end lines in numerous premise plumbing systems, indicating prolonged water stagnation prior to sampling, which facilitates microbiological growth. Higher contamination rates were observed in these systems, with peripheral taps often being contaminated in lieu of the entire system. These systems were classified as microbiologically unstable due to the relevantly higher total cell numbers at hot water taps compared to the hot water tank (>25%). Furthermore, these systems exhibited a Legionella contamination rate that was 22.3% higher than in microbiologically stable systems. In some cases, peripheral contaminations may not accurately represent the entire premise plumbing system. Increasing the discard volume during sampling from 1 L to 3–5 L could provide more precise results during standard testing. Legionella species were primarily detected in the first 1 L of water after tap activation. Additionally, statistically significant relationships were observed between direct temperature and total cell number, as well as between the presence of ultrafiltration and total cell numbers at cold water taps.

对建筑物内有前提的冷热水管道系统中影响军团菌和总细胞生长的参数进行统计分析:基于经验数据集的实地研究
在建筑物的储水和输水过程中,病原体的过度生长会使饮用水的质量下降。本研究旨在调查影响病原体生长的因素,并提出预防技术措施。分析基于一组经验数据,其中包括来自 204 个住宅楼冷热水管道系统的 1361 个样本。其中 14 个系统安装了超滤设备作为微生物屏障。军团菌培养和流式细胞仪用于确定微生物特性。研究发现,在许多家庭冷热水管道系统中,自来水阀门和管道末端的总细胞数升高,这表明在取样之前,水长期处于停滞状态,这有利于微生物的生长。在这些系统中观察到的污染率较高,外围的水龙头经常受到污染,而不是整个系统。这些系统被归类为微生物不稳定系统,因为与热水箱相比,热水龙头的细胞总数要高出很多(25%)。此外,这些系统的军团菌污染率比微生物稳定系统高出 22.3%。在某些情况下,外围污染可能无法准确代表整个场所的冷热水管道系统。将采样时的丢弃量从 1 升增加到 3-5 升,可以在标准测试中提供更精确的结果。军团菌主要在水龙头启动后的前 1 升水中检测到。此外,在直接温度与细胞总数之间,以及在冷水水龙头存在超滤与细胞总数之间,都观察到了显著的统计学关系。
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来源期刊
CiteScore
11.50
自引率
5.00%
发文量
151
审稿时长
22 days
期刊介绍: The International Journal of Hygiene and Environmental Health serves as a multidisciplinary forum for original reports on exposure assessment and the reactions to and consequences of human exposure to the biological, chemical, and physical environment. Research reports, short communications, reviews, scientific comments, technical notes, and editorials will be peer-reviewed before acceptance for publication. Priority will be given to articles on epidemiological aspects of environmental toxicology, health risk assessments, susceptible (sub) populations, sanitation and clean water, human biomonitoring, environmental medicine, and public health aspects of exposure-related outcomes.
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