Comparing methods of determining Legionella spp. in complex water matrices

Comparing methods of determining Legionella spp. in complex water matrices

Legionella testing conducted at environmental laboratories plays an essential role in assessing the risk of disease transmission associated with water systems. However, drawbacks of culture-based methodology used for Legionella enumeration can have great impact on the results and interpretation whic...

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Bibliographic Details
Published in:BMC microbiology Vol. 15; no. 1; p. 91
Main Authors: Díaz-Flores, Álvaro, Montero, Juan Carlos, Castro, Francisco Javier, Alejandres, Eva María, Bayón, Carmen, Solís, Inmaculada, Fernández-Lafuente, Roberto, Rodríguez, Guillermo
Format: Journal Article
Language:English
Published: England BioMed Central Ltd 29-04-2015
BioMed Central
Subjects:
Analysis
Bacterial Load - methods
Biocides
Disease transmission
Genetic aspects
Humans
Immunomagnetic Separation - methods
Legionella - isolation & purification
Medical research
Medicine, Experimental
Methodology
Methods
Microbiota (Symbiotic organisms)
Physiological aspects
Real-Time Polymerase Chain Reaction - methods
Water Microbiology
Spain
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Summary:Legionella testing conducted at environmental laboratories plays an essential role in assessing the risk of disease transmission associated with water systems. However, drawbacks of culture-based methodology used for Legionella enumeration can have great impact on the results and interpretation which together can lead to underestimation of the actual risk. Up to 20% of the samples analysed by these laboratories produced inconclusive results, making effective risk management impossible. Overgrowth of competing microbiota was reported as an important factor for culture failure. For quantitative polymerase chain reaction (qPCR), the interpretation of the results from the environmental samples still remains a challenge. Inhibitors may cause up to 10% of inconclusive results. This study compared a quantitative method based on immunomagnetic separation (IMS method) with culture and qPCR, as a new approach to routine monitoring of Legionella. First, pilot studies evaluated the recovery and detectability of Legionella spp using an IMS method, in the presence of microbiota and biocides. The IMS method results were not affected by microbiota while culture counts were significantly reduced (1.4 log) or negative in the same samples. Damage by biocides of viable Legionella was detected by the IMS method. Secondly, a total of 65 water samples were assayed by all three techniques (culture, qPCR and the IMS method). Of these, 27 (41.5%) were recorded as positive by at least one test. Legionella spp was detected by culture in 7 (25.9%) of the 27 samples. Eighteen (66.7%) of the 27 samples were positive by the IMS method, thirteen of them reporting counts below 10(3) colony forming units per liter (CFU l(-1)), six presented interfering microbiota and three presented PCR inhibition. Of the 65 water samples, 24 presented interfering microbiota by culture and 8 presented partial or complete inhibition of the PCR reaction. So the rate of inconclusive results of culture and PCR was 36.9 and 12.3%, respectively, without any inconclusive results reported for the IMS method. The IMS method generally improved the recovery and detectability of Legionella in environmental matrices, suggesting the possibility to use IMS method as valuable indicator of risk. Thus, this method may significantly improve our knowledge about the exposure risk to these bacteria, allowing us to implement evidence-based monitoring and disinfection strategies.
ISSN:1471-2180
1471-2180
DOI:10.1186/s12866-015-0423-7