. 2012 Mar;78(6):1969-77.

doi: 10.1128/AEM.06582-11. Epub 2012 Jan 13.

Criteria for selection of surrogates used to study the fate and control of pathogens in the environment

Ryan G Sinclair¹, Joan B Rose, Syed A Hashsham, Charles P Gerba, Charles N Haas

Affiliations

PMID: 22247166
PMCID: PMC3298155
DOI: 10.1128/AEM.06582-11

Criteria for selection of surrogates used to study the fate and control of pathogens in the environment

Ryan G Sinclair et al. Appl Environ Microbiol. 2012 Mar.

. 2012 Mar;78(6):1969-77.

doi: 10.1128/AEM.06582-11. Epub 2012 Jan 13.

Authors

Ryan G Sinclair¹, Joan B Rose, Syed A Hashsham, Charles P Gerba, Charles N Haas

Affiliation

¹ Department of Environmental Health and Geoinformatic Sciences, Loma Linda University, Loma Linda, California, USA. rsinclair@llu.edu

PMID: 22247166
PMCID: PMC3298155
DOI: 10.1128/AEM.06582-11

Abstract

This article defines the term surrogate as an organism, particle, or substance used to study the fate of a pathogen in a specific environment. Pathogenic organisms, nonpathogenic organisms, and innocuous particles have been used as surrogates for a variety of purposes, including studies on survival and transport as well as for method development and as "indicators" of certain conditions. This article develops a qualitative surrogate attribute prioritization process and allows investigators to select a surrogate by systematically detailing the experimental process and prioritizing attributes. The results are described through the use of case studies of various laboratories that have used this process. This article also discusses the history of surrogate and microbial indicator use and outlines the method by which surrogates can be used when conducting a quantitative microbial risk assessment. The ultimate goal of selecting a sufficiently representative surrogate is to improve public health through a health-based risk assessment framework. Under- or overestimating the resistance, inactivation, or movement may negatively impact risk assessments that, in turn, will impact health assessments and estimated safety levels. Reducing uncertainty in a risk assessment is one of the objectives of using surrogates and the ultimate motive for any experiment investigating potential exposure of a pathogen.

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Figures

**Fig 1**
Conceptual decision framework for selecting a surrogate.

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References

1. Abbaszadegan M, et al. 1997. The disinfection efficacy of a point-of-use water treatment system against bacterial, viral and protozoan waterborne pathogens. Water Res. 31:574–582
1. Ashbolt N, Grabow W, Snozzi M. 2001. Indicators of microbial water quality, p 289–316 In Fewtrell L, Bartram J. (ed), Water quality: guidelines, standards and health. IWA Publishing, London, United Kingdom
1. Bales RC, Gerba CP, Grondin GH, Jensen SL. 1989. Bacteriophage transport in sandy soil and fractured tuff. Appl. Environ. Microbiol. 55:2061–2067 - PMC - PubMed
1. Banks JG, Board RG. 1983. The incidence and level of contamination of British fresh sausages and ingredients with salmonellas. J. Hyg. (Lond.) 90:213–223 - PMC - PubMed
1. Bitton G. 2005. Wastewater microbiology, 3rd ed, p 23 Wiley-Liss, John Wiley & Sons, Hoboken, NJ

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Criteria for selection of surrogates used to study the fate and control of pathogens in the environment

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Criteria for selection of surrogates used to study the fate and control of pathogens in the environment

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