Two-year evaluation of Legionella in an aging residential building: Assessment of multiple potable water remediation approaches

Legionella is an opportunistic waterborne pathogen that is difficult to eradicate in colonized drinking water pipes. Legionella control is further challenged by aging water infrastructure and lack of evidence-based guidance for building treatment. This study assessed multiple premise water remediati...

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Veröffentlicht in:	The Science of the total environment 2024-09, Vol.941, p.173710, Article 173710
Hauptverfasser:	Lee-Masi, Monica, Coulter, Caroline, Chow, Steven J., Zaitchik, Benjamin, Jacangelo, Joseph G., Exum, Natalie G., Schwab, Kellogg J.
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Sprache:	eng
Schlagworte:	Building treatment Disinfection - methods Drinking water Drinking Water - microbiology Environmental Restoration and Remediation - methods L. pneumophila Legionella Legionella pneumophila Opportunistic premise plumbing pathogen Premise plumbing Water management program Water Microbiology Water Purification - methods Water Supply
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creator	Lee-Masi, Monica Coulter, Caroline Chow, Steven J. Zaitchik, Benjamin Jacangelo, Joseph G. Exum, Natalie G. Schwab, Kellogg J.
description	Legionella is an opportunistic waterborne pathogen that is difficult to eradicate in colonized drinking water pipes. Legionella control is further challenged by aging water infrastructure and lack of evidence-based guidance for building treatment. This study assessed multiple premise water remediation approaches designed to reduce Legionella pneumophila within a residential building located in an aging, urban drinking water system over a two-year period. Samples (n = 745) were collected from hot and cold-water lines and quantified via most probable number culture. Building-level treatment approaches included three single heat shocks, three single chemical shocks, and continuous low-level chemical disinfection in the potable water system. The building was highly colonized with L. pneumophila with 71 % L. pneumophila positivity. Single heat shocks had a statistically significant L. pneumophila reduction one day post treatment but no significant L. pneumophila reduction at one week, two weeks, and four weeks post treatment. The first two chemical shocks resulted in statistically significant L. pneumophila reduction at two days and four weeks post treatment, but there was a significant L. pneumophila increase at four weeks following the third chemical shock. Continuous low-level chemical disinfection resulted in statistically significant L. pneumophila reduction at ten weeks post treatment implementation. This demonstrates that in a building highly colonized with L. pneumophila, sustained remediation is best achieved using continuous low-level chemical treatment. [Display omitted] •Long-term Legionella control is difficult to maintain within aging premise plumbing.•Multiple treatments were needed to remediate a highly Legionella colonized building.•Single shock treatments were ineffective in controlling Legionella weeks afterwards.•Continuous low-level building treatment is effective for long-term remediation.
doi_str_mv	10.1016/j.scitotenv.2024.173710
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Legionella control is further challenged by aging water infrastructure and lack of evidence-based guidance for building treatment. This study assessed multiple premise water remediation approaches designed to reduce Legionella pneumophila within a residential building located in an aging, urban drinking water system over a two-year period. Samples (n = 745) were collected from hot and cold-water lines and quantified via most probable number culture. Building-level treatment approaches included three single heat shocks, three single chemical shocks, and continuous low-level chemical disinfection in the potable water system. The building was highly colonized with L. pneumophila with 71 % L. pneumophila positivity. Single heat shocks had a statistically significant L. pneumophila reduction one day post treatment but no significant L. pneumophila reduction at one week, two weeks, and four weeks post treatment. 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The first two chemical shocks resulted in statistically significant L. pneumophila reduction at two days and four weeks post treatment, but there was a significant L. pneumophila increase at four weeks following the third chemical shock. Continuous low-level chemical disinfection resulted in statistically significant L. pneumophila reduction at ten weeks post treatment implementation. This demonstrates that in a building highly colonized with L. pneumophila, sustained remediation is best achieved using continuous low-level chemical treatment. 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[Display omitted] •Long-term Legionella control is difficult to maintain within aging premise plumbing.•Multiple treatments were needed to remediate a highly Legionella colonized building.•Single shock treatments were ineffective in controlling Legionella weeks afterwards.•Continuous low-level building treatment is effective for long-term remediation.</abstract><cop>Netherlands</cop><pub>Elsevier B.V</pub><pmid>38830423</pmid><doi>10.1016/j.scitotenv.2024.173710</doi></addata></record>
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subjects	Building treatment Disinfection - methods Drinking water Drinking Water - microbiology Environmental Restoration and Remediation - methods L. pneumophila Legionella Legionella pneumophila Opportunistic premise plumbing pathogen Premise plumbing Water management program Water Microbiology Water Purification - methods Water Supply
title	Two-year evaluation of Legionella in an aging residential building: Assessment of multiple potable water remediation approaches
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