David Pierre scite author profile

Legionnaires’ disease is commonly diagnosed clinically using a urinary antigen test. The urinary antigen test is highly accurate for L. pneumophila serogroup 1, however other diagnostic tests should also be utilized in conjunction with the urinary antigen as many other Legionella species and serogroups are pathogenic. Culturing of patient specimens remains the gold standard for diagnosis of Legionnaires’ disease. Selective media, BYCE with the addition of antibiotics, allows for a high sensitivity and specificity. Culturing can identify all species and serogroups of Legionella. A major benefit of culturing is that it provides the recovery of a patient isolate, which can be used to find an environmental match. Other diagnostic tests, including DFA and molecular tests such as PCR and LAMP, are useful tests to supplement culturing. Molecular tests provide much more rapid results in comparison to culture, however these tests should not be a primary diagnostic tool given their lower sensitivity and specificity in comparison to culturing. It is recommended that all laboratories develop the ability to culture patient specimens in-house with the selective media.

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Water Quality as a Predictor of Legionella Positivity of Building Water Systems

Pierre¹,

Baron²,

Ma³

et al. 2019

Pathogens

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Testing drinking water systems for the presence of Legionella colonization is a proactive approach to assess and reduce the risk of Legionnaires’ disease. Previous studies suggest that there may be a link between Legionella positivity in the hot water return line or certain water quality parameters (temperature, free chlorine residual, etc.) with distal site Legionella positivity. It has been suggested that these measurements could be used as a surrogate for testing for Legionella in building water systems. We evaluated the relationship between hot water return line Legionella positivity and other water quality parameters and Legionella colonization in premise plumbing systems by testing 269 samples from domestic cold and hot water samples in 28 buildings. The hot water return line Legionella positivity and distal site positivity only demonstrated a 77.8% concordance rate. Hot water return line Legionella positivity compared to distal site positivity had a sensitivity of 55% and a specificity of 96%. There was poor correlation and a low positive predictive value between the hot water return line and distal outlet positivity. There was no correlation between Legionella distal site positivity and total bacteria (heterotrophic plate count), pH, free chlorine, calcium, magnesium, zinc, manganese, copper, temperature, total organic carbon, or incoming cold-water chlorine concentration. These findings suggest that hot water return line Legionella positivity and other water quality parameters are not predictive of distal site positivity and should not be used alone to determine the building’s Legionella colonization rate and effectiveness of water management programs.

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Bacterial community structure correlates with Legionella pneumophila colonization of New York City high rise building premises plumbing systems

Pierre

Bibby

et al. 2020

Environ. Sci.: Water Res. Technol.

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Editorial commentary: Risk assessment and prediction for health care–associated Legionnaires' disease: Percent distal site positivity as a cut-point

Pierre¹,

Stout²,

2014

American Journal of Infection Control

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Legionella: Causes, cases, and mitigation

Pierre¹,

Castro²,

Stout

2022

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David Pierre

Diagnostic testing for Legionnaires’ disease

Water Quality as a Predictor of Legionella Positivity of Building Water Systems

Bacterial community structure correlates with Legionella pneumophila colonization of New York City high rise building premises plumbing systems

Editorial commentary: Risk assessment and prediction for health care–associated Legionnaires' disease: Percent distal site positivity as a cut-point

Legionella: Causes, cases, and mitigation

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