Higher rates of disease are seen in zip codes served by water treatment plants that use chlorine as the primary disinfectant
Embargoed for release until December 9, 2025
For media Inquiries regarding the study, please contact Natalie Judd or Emma Scott
Washington, D.C., December 9, 2025 – Preliminary results of a nationwide study suggest that the disinfectant used to treat water before it is distributed through pipes may impact the incidence of Legionnaire’s disease in certain parts of the country. The findings will be presented Dec. 9 at the annual meeting of the Society for Risk Analysis in Washington, D.C.
Waterborne diseases – caused by bacteria, viruses, and parasites – affect more than 7 million people in the United States every year, according to the Centers for Disease Control (CDC). One of them is Legionnaires’ disease, a potentially severe pneumonia. It is caused by the bacterium Legionella, which grows in the pipes of water systems, where it can be spread through aerosolized droplets from sources such as showerheads, decorative fountains, or building cooling towers.
Researchers conducted an epidemiological study comparing historical data on Legionnaire’s disease in the United States with 25 water utilities’ treatment attributes (representing all 10 EPA regions). The rates of Legionnaires’ disease among residents served by the utilities in the study ranged from no reported cases to an average of 8.36 cases per 100,000 people.
Preliminary findings show that:
These preliminary results back up data from previous studies of individual buildings. (For example, previous research has found that in healthcare facilities where the water is treated with monochloramine, there is a lower prevalence of Legionnaires’ disease.) The risk for Legionnaires’ disease is higher for people with weakened immune systems, older adults, smokers, and those with chronic lung or kidney diseases.
“Legionella is extremely challenging to treat and manage in a building’s plumbing system once it establishes a niche,” says Alexis Mraz, author of the study and an assistant professor of public health at The College of New Jersey. “It is important to think about the whole life of the water, from treatment to tap, when we consider how to best manage this pathogen and lower the incidence of Legionnaires’ disease.”
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EDITORS NOTE:
This research will be presented on December 9 at 8:30 EST at the Society for Risk Analysis (SRA) Annual Conference at the Downtown Westin Hotel in Washington, D.C. SRA Annual Conference welcomes press attendance. Please contact Emma Scott at emma@bigvoicecomm.com to register.
About Society for Risk Analysis
The Society for Risk Analysis (SRA) is a multidisciplinary, global organization dedicated to advancing the science and practice of risk analysis. Founded in 1980, SRA brings together researchers, practitioners, and policymakers from diverse fields including engineering, public health, environmental science, economics, and decision theory. The Society fosters collaboration and communication on risk assessment, management, and communication to inform decision-making and protect public well-being. SRA supports a wide range of scholarly activities, publications, and conferences. Learn more at sra.org.
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