Detection of airborne Legionella while showering using liquid impingement and fluorescent in situ hybridization (FISH)

Deloge-Abarkan, Magali; Ha, Thi-Lan; Robine, Enric; Zmirou‐Navier, Denis; Mathieu, Laurence

doi:10.1039/b610737k

Cited by 46 publications

(60 citation statements)

References 60 publications

(63 reference statements)

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“…The resulting data may be employed as an estimation of the infectious risk associated with culturable L. pneumophila. Recently, the molecular assays such as in situ hybridization (FISH) and real-time quantitative polymerase chain reaction (qPCR) have also been adopted in airborne Legionella monitoring (Blatny et al, 2008;Bauer et al, 2008;Deloge-Abarkan et al, 2007;Dutil et al, 2007;Mathieu et al, 2006;Medema, Wullings, Roeleveld, & van der Kooij, 2004). It is noted that FISH could fail to detect L. pneumophila due to high detection limit of fluorescence microscope (Buchbinder, Trebesius, & Heesemann, 2002) and background fluorescence noise (Bauer et al, 2008).…”

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confidence: 98%

“…With the popularity and advantage in use, however, the efficiency of the MAS-100 for collecting Legionella has not been quantitatively determined and compared with other bioaerosol samplers, e.g., Andersen one-stage sampler (Andersen 1-STG, Andersen Samplers Inc.), BioSampler (SKC Inc.), and all-glass impinger (AGI-30, Ace Glass Inc.). Moreover, previous studies have illustrated that the AGI-30 and BioSampler recover culturable L. pneumophila greater than the samplers with agar impaction or filtration (Deloge-Abarkan et al, 2007;Li et al, 2003). However, these studies were conducted by testing one of each type of agar-, liquid-, and filter-based samplers.…”

mentioning

confidence: 98%

“…Culture-dependent methods are commonly used to assess airborne L. pneumophila in field studies (Blatny et al, 2008;Breiman et al, 1990;Deloge-Abarkan et al, 2007;Nguyen et al, 2006) and laboratory investigations (Deloge-Abarkan et al, 2007;Li, Tseng, Lai, & Chang, 2003). The resulting data may be employed as an estimation of the infectious risk associated with culturable L. pneumophila.…”

mentioning

confidence: 99%

“…Among the samplers adopted for Legionella measurement, the microbiological air sampler (MAS-100, Merck), with the benefits of portability and built-in battery and pump, is increasingly used in fields (Bauer et al, 2008;Blatny et al, 2008;Deloge-Abarkan et al, 2007;Medema et al, 2004;Pascual et al, 2001). The MAS-100 is designed to collect bioaerosols on an agar plate.…”

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confidence: 99%

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Evaluation of bioaerosol sampling techniques for Legionella pneumophila coupled with culture assay and quantitative PCR

Chang

Chou

Hung

2010

Journal of Aerosol Science

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confidence: 98%

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confidence: 98%

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confidence: 99%

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confidence: 99%

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Evaluation of bioaerosol sampling techniques for Legionella pneumophila coupled with culture assay and quantitative PCR

Chang

Chou

Hung

2010

Journal of Aerosol Science

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“…Pathogen detection in aerosols, for example, poses a unique challenge: The sampling is often performed using the settle-plate technique or utilizing a vacuum to suck air into a liquid impinger or onto an agar plate (Napoli et al 2012). However, all air detection methods have their limitations (Chinivasagam and Blackall 2005;Park et al 2014) as there are a variety of different designs each needing calibration for each microorganism (Deloge-Abarkan et al 2007;Landman et al 2013;Ryan et al 2014) and for each nutrient medium used; hence, the results are variable and can be difficult to interpret (Napoli et al 2012).…”

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confidence: 99%

Rapid MPN-Qpcr Screening for Pathogens in Air, Soil, Water, and Agricultural Produce

Orlofsky

Benami

Gross

et al. 2015

Water Air Soil Pollut

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A sensitive, high-throughput, and costeffective method for screening bacterial pathogens in the environment was developed. A variety of environmental samples, including aerosols, soil of various types (sand, sand/clay mix, and clay), wastewater, and vegetable surface (modeled by tomato), were concomitantly spiked with Salmonella enterica and/or Pseudomonas aeruginosa to determine recovery rates and limits of detection. The various matrices were first enriched with a general pre-enrichment broth in a dilution series and then enumerated by most probable number (MPN) estimation using quantitative PCR for rapid screening of amplicon presence. Soil and aerosols were then tested in non-spiked environmental samples, as these matrices are prone to large experimental variation. Limit of detection in the various soil types was 1-3 colony-forming units (CFU) g −1 ; on vegetable surface, 5 CFU per tomato; in treated wastewater, 5 CFU L −1 ; and in aerosols, >300 CFU mL −1 . Our method accurately identified S. enterica in non-spiked environmental soil samples within a day, while traditional methods took 4 to 5 days and required sorting through biochemically and morphologically similar species. Likewise, our method successfully identified P. aeruginosa in non-spiked aerosols generated by a domestic wastewater treatment system. The obtained results suggest that the developed method presents a broad approach for the rapid, efficient, and reliable detection of relatively low densities of pathogenic organisms in challenging environmental samples.

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Beware of Legionella in Water Distribution Systems

Malz¹

2021

Journal AWWA

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Having completed the inaugural WaterQuality Matters column series focusing on the theme "Hot Topics in Water Quality," initiated in the April 2019 issue of Journal AWWA, the AWWA Water Quality and Technology Division's committees extend the conversation in this recurring column by expounding on a common question, "What keeps you up at night?" The column in this issue has been prepared by the Water Quality Laboratory Committee.

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Detection of airborne Legionella while showering using liquid impingement and fluorescent in situ hybridization (FISH)

Cited by 46 publications

References 60 publications

Evaluation of bioaerosol sampling techniques for Legionella pneumophila coupled with culture assay and quantitative PCR

Evaluation of bioaerosol sampling techniques for Legionella pneumophila coupled with culture assay and quantitative PCR

Rapid MPN-Qpcr Screening for Pathogens in Air, Soil, Water, and Agricultural Produce

Beware of Legionella in Water Distribution Systems

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