Disease transmission models for public health decision making: analysis of epidemic and endemic conditions caused by waterborne pathogens.

Abstract. Continued success in decreasing diarrheal disease burden requires targeted interventions. To develop such interventions, it is crucial to understand which pathogens cause diarrhea. Using a case-control design we tested stool samples, collected in both rural and urban Ecuador, for 15 pathogenic microorganisms. Pathogens were present in 51% of case and 27% of control samples from the urban community, and 62% of case and 18% of control samples collected from the rural community. Rotavirus and Shigellae were associated with diarrhea in the urban community; co-infections were more pathogenic than single infection; Campylobacter and Entamoeba histolytica were found in large numbers in cases and controls; and non-typhi Salmonella and enteropathogenic Escherichia coli were not found in any samples. Consistent with the Global Enteric Multicenter Study, focused in south Asia and sub-Saharan Africa, we found that in Ecuador a small group of pathogens accounted for a significant amount of the diarrheal disease burden.

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“…6,7 For example, Vibrio spp. infection has been associated with raw or undercooked shellfish 6 and non-typhi Salmonella spp.…”

Section: Introductionmentioning

confidence: 99%

Identifying Etiological Agents Causing Diarrhea in Low Income Ecuadorian Communities

Vasco

Trueba

Atherton

et al. 2014

The American Society of Tropical Medicine and Hygiene

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“…A most positive accomplishment contributing to infection transmission science is the development of methods to determine the population effects of such contact structure and to assess how the location of individuals with different risks within the contact structure alters their 305 importance on the population level of infection (45,77,88,93). Another sign that models are contributing more positively to a science of infection transmission is that they are being used productively to define efficient epidemiological study designs (6,8,14,24,37,38,40,88).…”

Section: Introductionmentioning

confidence: 99%

Modeling Infection Transmission

Koopman

2004

Annu. Rev. Public Health

141

112

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Key Words mathematical models, computer models, epidemiologic methods, system analysis, inference robustnesss Abstract Understanding what determines patterns of infection spread in populations is important for controlling infection transmission. The science that advances this understanding uses mathematical and computer models that vary from deterministic models of continuous populations to models of dynamically evolving contact networks between individuals. These provide insight, serve as scientific theories, help design studies, and help analyze data. The key to their use lies in assessing the robustness of inferences made using them to violation of their simplifying assumptions. This involves changing model forms from deterministic to stochastic and from compartmental to network, as well as adding realistic detail and changing parameter values. Currently inferences about infection transmission are often made using stratified rate or risk comparisons, logistic regression models, or proportionate hazards models that assume an absence of transmission. Robustness assessment will show many of these inferences to be wrong. A community of epidemiologist modelers is needed for effective robustness assessment.

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“…There are, however, limitations of addressing the transmission of infectious diseases as a static process (Koopman et al, 1991;Koopman and Longini, 1994;Eisenberg et al, 1996). Dynamic models of disease transmission (Hethcote, 1976;Anderson and May, 1991) are able to account for human exposures to contaminated media such as water, exposures to infected individuals that may result in personto-person transmission of infection (Eisenberg et al, 2002), and protection from infection (immunity) from prior exposures (Soller et al, 2002b). Nevertheless, until recently, few researchers or risk assessors have employed an epidemiology-based disease transmission framework to characterize the risk to human health associated with waterborne pathogens (Cooper et al, 1986; EOA Inc., U.C.…”

Section: Introductionmentioning

confidence: 99%

Incorporating susceptible subpopulations in microbial risk assessment: pediatric exposures to enteroviruses in river water

Parkin

Soller²,

Olivieri³

2003

J Expo Sci Environ Epidemiol

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The City of Stockton, California operates a wastewater treatment facility that discharges treated effluent to the San Joaquin River. During a recent discharge permit renewal, the question was raised whether pathogenic microorganisms in the effluent may cause an unacceptably high health risk for body contact recreation in the vicinity of the discharge. An investigation was initiated to characterize the risk to public health via body contact recreation in the San Joaquin River under various flow and treatment scenarios. In this investigation, a disease transmission model was applied to quantitatively characterize the relative risk associated with various treatment and flow scenarios for the City of Stockton's wastewater treatment facility. An important component of the investigation was to assess the feasibility of quantitatively characterizing the risk to highly susceptible subpopulations for effluent-related exposures to enteroviruses. This paper presents the methods used to conduct the feasibility assessment, the conclusions drawn for this project, and our recommendations to improve exposure assessments of susceptible subpopulations' contact with microbial pathogens in recreational water.

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Disease transmission models for public health decision making: analysis of epidemic and endemic conditions caused by waterborne pathogens.

Cited by 88 publications

References 23 publications

Identifying Etiological Agents Causing Diarrhea in Low Income Ecuadorian Communities

Identifying Etiological Agents Causing Diarrhea in Low Income Ecuadorian Communities

Modeling Infection Transmission

Incorporating susceptible subpopulations in microbial risk assessment: pediatric exposures to enteroviruses in river water

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