Abstract
The opportunistic, waterborne pathogen Legionella caused 9,933 cases of Legionnaires' disease in 2018 in the United States (CDC.gov). The incidence of Legionnaires' disease can be reduced by maintaining clean building water systems through water management programs (WMPs). WMPs often include validation testing to confirm the control of bacteria, but the traditional culture method for enumerating Legionella requires 10-14 days to obtain results. A rapid DNA extraction developed by Phigenics and a real-time PCR negative screen for the genus Legionella provided results the day after sampling. This study evaluated the Next Day Legionella PCR (Phigenics, LLC) compared with the traditional culture method (ISO 11731) on 11,125 building water samples for approximately 1 year. Two DNA extraction methods (Methods 1 and 2) were compared. The negative predictive value (NPV) of the Next Day Legionella PCR in comparison to traditional culture for Method 1 was 99.95%, 99.92%, 99.85%, and 99.17% at >10, >2, >1, and >0.1 CFU/ml limits of detection, respectively. The improved DNA extraction (Method 2) increased the NPV to 100% and 99.88% at >1 and >0.1 CFU/ml, respectively. These results demonstrate the reliability of the genus-level Legionella PCR negative screen to predict culture-negative water samples.
Highlights
Legionella bacteria are opportunistic pathogens that can cause respiratory infections in humans
An ISO 12869:2012 compliant commercial Legionella realtime polymerase chain reaction (PCR) kit was used for the Day Legionella PCR
Validation for exclusivity against total heterotrophic aerobic bacteria (THAB) strains is reported by this method
Summary
Legionella bacteria are opportunistic pathogens that can cause respiratory infections in humans. These infections range in severity from Pontiac fever to Legionnaires’ disease (LD). Pontiac fever is less severe with symptoms lasting approximately 1 week and does not develop into pneumonia (CDC a). Legionella enters the respiratory tract via the inhalation of aerosolized water droplets from contaminated water or by aspiration. The detection of these bacteria before infection is critical, especially in healthcare buildings with a high risk of exposure for immunocompromised persons (Marston ).
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