Legionella spp. is one of the most important opportunistic pathogens in premise (domestic) plumbing, where can be aerosolized through devices such as showers, faucets, hot tubes, and toilettes. Current environmental surveillance and health risk assessment of Legionella spp. in water distribution systems are carried out in tourist accommodation facilities for seasonal use and in healthcare settings, due to the presence of a susceptible population. Nevertheless, also long-distance public transports can be a scenario for sporadic/epidemic community-acquired Legionellosis, owing to the presence of plumbing and toilet water tanks on board of these vehicles. In this study, L. pneumophila was detected in 217 (54.5%) of 398 samples collected from faucets on board of these vehicles, and the monitoring data were used to estimate health risk, using a quantitative microbial risk assessment (QMRA) framework. The inhaled dose was calculated using the partitioning coefficient approach, so the airborne microbe load was derived from L. pneumophila concentration in water by applying a specific aerosolization ratio for inhalation exposure through faucets. The other exposure parameters (inhalation rate and exposure time) were modelled using probability distribution functions with data according to literature. An exponential dose-response model was used to estimate the health risk of infection (r = 0.06) by inhalation of L. pneumophila serogroup 1 per single event of exposure. At median L. pneumophila concentration of 3.6 x 103 CFU/L, infection risks ranged from 5 to 39 infected/10.000 exposed travellers/1-minute sink use. Legionella infection risk from faucet exposure is poorly considered on public transportations, because of the lack of routine environmental surveillance. Our QMRA results based on monitoring data showed that faucets could represent Legionella sources, so infection risk should be considered to protect the health of travellers.

Evaluating Legionella on long-distance public transports: monitoring data and quantitative microbial risk assessment

Ileana Federigi
;
Marco Verani;Annalaura Carducci
2021-01-01

Abstract

Legionella spp. is one of the most important opportunistic pathogens in premise (domestic) plumbing, where can be aerosolized through devices such as showers, faucets, hot tubes, and toilettes. Current environmental surveillance and health risk assessment of Legionella spp. in water distribution systems are carried out in tourist accommodation facilities for seasonal use and in healthcare settings, due to the presence of a susceptible population. Nevertheless, also long-distance public transports can be a scenario for sporadic/epidemic community-acquired Legionellosis, owing to the presence of plumbing and toilet water tanks on board of these vehicles. In this study, L. pneumophila was detected in 217 (54.5%) of 398 samples collected from faucets on board of these vehicles, and the monitoring data were used to estimate health risk, using a quantitative microbial risk assessment (QMRA) framework. The inhaled dose was calculated using the partitioning coefficient approach, so the airborne microbe load was derived from L. pneumophila concentration in water by applying a specific aerosolization ratio for inhalation exposure through faucets. The other exposure parameters (inhalation rate and exposure time) were modelled using probability distribution functions with data according to literature. An exponential dose-response model was used to estimate the health risk of infection (r = 0.06) by inhalation of L. pneumophila serogroup 1 per single event of exposure. At median L. pneumophila concentration of 3.6 x 103 CFU/L, infection risks ranged from 5 to 39 infected/10.000 exposed travellers/1-minute sink use. Legionella infection risk from faucet exposure is poorly considered on public transportations, because of the lack of routine environmental surveillance. Our QMRA results based on monitoring data showed that faucets could represent Legionella sources, so infection risk should be considered to protect the health of travellers.
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11568/1114106
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