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EcoHealth
Published in: EcoHealth 4/2008

Open Access 01-12-2008 | Original Contribution

Going with the Flow: Legionellosis Risk in Toronto, Canada Is Strongly Associated with Local Watershed Hydrology

Authors: Victoria Ng, Patrick Tang, Frances Jamieson, Steven J. Drews, Shirley Brown, Donald E. Low, Caroline C. Johnson, David N. Fisman

Published in: EcoHealth | Issue 4/2008

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Abstract

Legionella species are increasingly recognized as a cause of both healthcare- and community-acquired pneumonia (so-called “Legionnaire’s disease”). These pathogens are ubiquitous in the environment, but environmental factors in the occurrence of sporadic legionellosis remain poorly understood. We analyzed all legionellosis cases identified in the Greater Toronto Area of Ontario from 1978 to 2006, and evaluated seasonal and environmental patterns in legionellosis case occurrence by using both negative binomial models and case-crossover analysis. A total of 837 cases were reported during the study period. After adjusting for seasonal effects, changes in the local watershed, rather than weather, were the strongest contributors to legionellosis risk. A 3.6-fold increase (95% confidence interval (CI), 2.4–5.3) in odds of disease was identified with decreasing watershed levels approximately 4 weeks before case-occurrence. We also found a 33% increase (95% CI, 8–64%) in odds of disease with decreasing lake temperature during the same period and a 34% increase (95% CI, 14–57%) with increasing humidity 5 weeks before case-occurrence. We conclude that local watershed ecology influences the risk of legionellosis, notwithstanding the availability of advanced water treatment capacity in Toronto. Enhancement of risk might occur through direct contamination of water sources or via introduction of micronutrients or commensal organisms into residential and hospital water supplies. These observations suggest testable hypotheses for future empiric studies.
Literature
Afifi A, Kotlerman J, Ettner S, Cowan M (2007) Methods for improving regression analysis for skewed continuous or counted responses. Annual Review of Public Health 28:95–111CrossRef
Barkwell G (2007) A Study of the Status of Full Cost Recovery and Sustainability of Ontario Municipal Water and Wastewater Systems. Report commissioned by the Ontario Sewer and Watermain Construction Association, Toronto, Ontario
Bateman T, Schwartz J (2001) Selection bias and confounding in case-crossover analyses of environmental time-series data. Epidemiology 12:654–661CrossRef
Benin A, Benson R, Besser R (2002) Trends in Legionnaires disease, 1980–1998: declining mortality and new patterns of diagnosis. Clinical Infectious Diseases 35:1039–1046CrossRef
Best M, Yu V, Stout J, Goetz A, Muder R, Taylor F (1983) Legionellaceae in the hospital water-supply. Epidemiological link with disease and evaluation of a method for control of nosocomial Legionnaires’ disease and Pittsburgh pneumonia. Lancet 2(8345):307–310
Bhopal R, Fallon R (1991a) Variation in time and space of non-outbreak Legionnaires’ disease in Scotland. Epidemiology and Infection 106:45–61
Bhopal R, Fallon R (1991b) Seasonal variation of Legionnaires’ disease in Scotland. The Journal of Infection 22:153–160
Borella P, Guerrieri E, Marchesi I, Bondi M, Messi P (2005) Water ecology of Legionella and protozoan: environmental and public health perspectives. Biotechnology Annual Review 11:355–380CrossRef
Colbourne J, Trew R (1986) Presence of Legionella in London’s water supplies. Israel Journal of Medical Sciences 22:633–639
Fisman DN, Lim S, Wellenius GA, Johnson C, Britz P, Gaskins M et al. (2005) It’s not the heat, it’s the humidity: wet weather increases legionellosis risk in the greater Philadelphia metropolitan area. Journal of Infectious Diseases 195:2066–2073CrossRef
Gilmour M, Bernard K, Tracz D, Olson A, Corbett C, Burdz T et al. (2007) Molecular typing of a Legionella pneumophila outbreak in Ontario, Canada. Journal of Medical Microbiology 56:336–341CrossRef
Hicks LA, Rose CE Jr, Fields BS, Drees ML, Engel JP, Jenkins PR et al. (2007) Increased rainfall is associated with increased risk for legionellosis. Epidemiology and Infection 135:811–817CrossRef
Hosmer D, Lemeshow S (1989) Applied Logistic Regression, New York: John Wiley and Sons
Hougaard P, Lee M, Whitmore G (1997) Analysis of overdispersed count data by mixtures of Poisson variables and Poisson processes. Biometrics 53:1225–1238CrossRef
Janes H, Sheppard L, Lumley T (2005) Case-crossover analyses of air pollution exposure data: referent selection strategies and their implications for bias. Epidemiology 16:715–716CrossRef
Jensen E, Lundbye-Christensen S, Pedersen L, Sorensen H, Schonheyder H (2003) Seasonal variation in meningococcal disease in Denmark: relation to age and meningococcal phenotype. Scandinavian Journal of Infectious Diseases 35:226–229
Joseph C (2004) Legionnaires’ disease in Europe 2000–2002. Epidemiology and Infection 132:417–424CrossRef
Koide M, Arakaki N, Saito A (2001) Distribution of Legionella longbeachae and other legionellae in Japanese potting soils. Journal of Infection and Chemotherapy 7:224–227CrossRef
Kool J, Carpenter J, Fields BS (1999) Effect of monochloramine disinfection of municipal drinking water on risk of nonsocomial Legionnaires disease. Lancet 353(9149):272–277CrossRef
Kusnetsov J, Torvinen E, Perola O, Nousiainen T, Katila M (2003) Colonization of hospital water systems by legionellae, mycobacteria and other heterotropic bacteria potentially hazardous to risk group patients. APMIS 111:546–556CrossRef
Levy D, Lumley T, Sheppard L, Kaufman J, Checkoway H (2001) Referent selection in case-crossover analyses of acute health effects of air pollution. Epidemiology 12:186–192CrossRef
Maclure M (1991) The case-crossover design: a method for studying transient effects on the risk of acute events. American Journal of Epidemiology 133:144–153
Marston BJ, Lipman HB, Breiman RF (1994) Surveillance for Legionnaires’ disease. Archives of Internal Medicine 154:2417–2422CrossRef
Portnov B, Dubnov J, Barchana M (2007) On ecological fallacy, assessment errors stemming from misguided variable selection, and the effect of aggregation on the outcome of epidemiological study. Journal of Exposure Science and Environmental Epidemiology 17:106–121CrossRef
Riffard S, Douglass S, Brooks T, Springthorpe S, Filion L, Sattar S (2001) Occurrence of Legionella in groundwater: an ecological study. Water Science and Technology 43:99–102
Sala M, Arias C, Oliva J, Pedrol A, Roura P, Dominguez A (2007) Community outbreak of Legionnaires disease in Vic-Gurb, Spain in October and November 2005. European Surveillance 12:223
States S, Conley L, Kuchta J, Oleck B, Lipovich M, Wolford R et al. (1987) Survival and multiplication of Legionella pneumophila in municipal drinking water systems. Applied and Environmental Microbiology 53:979–986
Steele TW, Moore CV, Sangster N (1990) Distribution of Legionella longbeachae serogroup 1 and other legionellae in potting soils in Australia. Applied and Environmental Microbiology 56:2984–2988
Stout JE, Yu VL (1997) Legionellosis. New England Journal of Medicine 337:682–687CrossRef
Stout J, Yu V, Best M (1985) Ecology of Legionella pneumophila within water distribution systems. Applied and Environmental Microbiology 49:221–228
Stout J, Yu V, Muraca P, Joly J, Troup N, Tompkins L (1992) Potable water as a cause of sporadic cases of community-acquired Legionnaires’ disease. New England Journal of Medicine 326:151–155CrossRef
Straus W, Plouffe J, File T, Lipman H, Hackman B, Salstrom S et al. (1996) Risk factors for domestic acquisition of legionnaires disease. Ohio Legionnaires Disease Group. Archives of Internal Medicine 156:1685–1692CrossRef
Thomas R, Meybeck M, Beim A (1996) Water Quality Assessments: A Guide to Use of Biota, Sediments and Water in Environmental Monitoring, 2nd edn, Geneva: UNESCO/WHO/UNEP
Woodward M (2005) Epidemiology: Study Design and Data Analysis, 2nd edn, Boca Raton, Florida: Chapman and Hall/CRC
Yamamoto N, Kubota T, Tateyama M, Koide M, Nakasone C, Tohyama M et al. (2003) Isolation of Legionella anisa from multiple sites of a hospital water system: the eradication of Legionella contamination. Journal of Infection and Chemotherapy 9:122–125
Yu V (2000) Legionella pneumophila (Legionnaires’ Disease). In: Principles and Practice of Infectious Diseases, 5th edn, Mandell G, Bennett J, Dolin R, (editors), Oxford: Churchill Livingstone, pp 2424–2441
Zanetti F, Stampi S, De Luca G, Fateh-Moghadam P, Bucci Sabattini M, Checchi L (2000) Water characteristics associated with the occurrence of Legionella pneumophila in dental units. European Journal of Oral Sciences 108:22–28CrossRef
Metadata
Title
Going with the Flow: Legionellosis Risk in Toronto, Canada Is Strongly Associated with Local Watershed Hydrology
Authors
Victoria Ng
Patrick Tang
Frances Jamieson
Steven J. Drews
Shirley Brown
Donald E. Low
Caroline C. Johnson
David N. Fisman
Publication date
01-12-2008
Publisher
Springer-Verlag
Published in
EcoHealth / Issue 4/2008
Print ISSN: 1612-9202
Electronic ISSN: 1612-9210
DOI
https://doi.org/10.1007/s10393-009-0218-0

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