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Quantifying Water Pathogen Risk in an Epidemiological Framework

Author

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  • Joseph N. Eisenberg
  • Edmund Y. W. Seto
  • Adam W. Olivieri
  • Robert C. Spear

Abstract

Traditionally, microbial risk assessors have used point estimates to evaluate the probability that an individual will become infected. We developed a quantitative approach that shifts the risk characterization perspective from point estimate to distributional estimate, and from individual to population. To this end, we first designed and implemented a dynamic model that tracks traditional epidemiological variables such as the number of susceptible, infected, diseased, and immune, and environmental variables such as pathogen density. Second, we used a simulation methodology that explicitly acknowledges the uncertainty and variability associated with the data. Specifically, the approach consists of assigning probability distributions to each parameter, sampling from these distributions for Monte Carlo simulations, and using a binary classification to assess the output of each simulation. A case study is presented that explores the uncertainties in assessing the risk of giardiasis when swimming in a recreational impoundment using reclaimed water. Using literature‐based information to assign parameters ranges, our analysis demonstrated that the parameter describing the shedding of pathogens by infected swimmers was the factor that contributed most to the uncertainty in risk. The importance of other parameters was dependent on reducing the a priori range of this shedding parameter. By constraining the shedding parameter to its lower subrange, treatment efficiency was the parameter most important in predicting whether a simulation resulted in prevalences above or below non outbreak levels. Whereas parameters associated with human exposure were important when the shedding parameter was constrained to a higher subrange. This Monte Carlo simulation technique identified conditions in which outbreaks and/or nonoutbreaks are likely and identified the parameters that most contributed to the uncertainty associated with a risk prediction.

Suggested Citation

  • Joseph N. Eisenberg & Edmund Y. W. Seto & Adam W. Olivieri & Robert C. Spear, 1996. "Quantifying Water Pathogen Risk in an Epidemiological Framework," Risk Analysis, John Wiley & Sons, vol. 16(4), pages 549-563, August.
  • Handle: RePEc:wly:riskan:v:16:y:1996:i:4:p:549-563
    DOI: 10.1111/j.1539-6924.1996.tb01100.x
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    References listed on IDEAS

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    1. Rose, J.B. & Haas, C.N. & Regli, S., 1991. "Risk assessment and control of waterborne giardiasis," American Journal of Public Health, American Public Health Association, vol. 81(6), pages 709-713.
    2. Robert C. Spear & Frédéric Y. Bois & Tracey Woodruff & David Auslander & Jennifer Parker & Steve Selvin, 1991. "Modeling Benzene Pharmacokinetics Across Three Sets of Animal Data: Parametric Sensitivity and Risk Implications," Risk Analysis, John Wiley & Sons, vol. 11(4), pages 641-654, December.
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    Cited by:

    1. Walter Dowdle & Harrie Van Der Avoort & Esther De Gourville & Francis Delpeyroux & Jagadish Desphande & Tapani Hovi & Javier Martin & Mark Pallansch & Olen Kew & Chris Wolff, 2006. "Containment of Polioviruses After Eradication and OPV Cessation: Characterizing Risks to Improve Management," Risk Analysis, John Wiley & Sons, vol. 26(6), pages 1449-1469, December.
    2. Charles N. Haas, 2002. "The Role of Risk Analysis in Understanding Bioterrorism," Risk Analysis, John Wiley & Sons, vol. 22(4), pages 671-677, August.
    3. Frank J. Loge & Elisabetta Lambertini & Mark A. Borchardt & Hakan Başağaoğlu & Timothy R. Ginn, 2009. "Effects of Etiological Agent and Bather Shedding of Pathogens on Interpretation of Epidemiological Data Used to Establish Recreational Water Quality Standards," Risk Analysis, John Wiley & Sons, vol. 29(2), pages 257-266, February.
    4. Margaret Donald & Angus Cook & Kerrie Mengersen, 2009. "Bayesian Network for Risk of Diarrhea Associated with the Use of Recycled Water," Risk Analysis, John Wiley & Sons, vol. 29(12), pages 1672-1685, December.
    5. Randy L. Maddalena & Thomas E. McKone & Michael D. Sohn, 2004. "Standardized Approach for Developing Probabilistic Exposure Factor Distributions," Risk Analysis, John Wiley & Sons, vol. 24(5), pages 1185-1199, October.
    6. Joseph N. S. Eisenberg & Jeffrey A. Soller & James Scott & Don M. Eisenberg & John M. Colford, 2004. "A Dynamic Model to Assess Microbial Health Risks Associated with Beneficial Uses of Biosolids," Risk Analysis, John Wiley & Sons, vol. 24(1), pages 221-236, February.
    7. Duncan A. Robertson, 2019. "Spatial Transmission Models: A Taxonomy and Framework," Risk Analysis, John Wiley & Sons, vol. 39(1), pages 225-243, January.

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