A model for estimating the incidence of swimming‐related gastrointestinal illness as a function of water quality indicators

Abstract Several studies have demonstrated association between illnesses, in particular gastrointestinal illness (GI), in swimmers and sewage pollution as measured by the density of indicator organisms, such as E. coli and enterococci, in recreational waters. These studies generally classify illnesses into two categories according to the subjectivity of the reported symptoms and utilize separate analyses on the incidence of total illness and the incidence of objective symptoms of gastroenteritis. Generally, non‐swimmer illness rates are available from these studies as an indicator of the background illness rates, but are not always utilized in the model. Data from two prospective epidemiological studies conducted by the U.S. EPA and evidencing relationships between the incidence of swimming‐associated GI and enterococcus or E. coli density in marine and fresh water, respectively, are used as examples. Initially, analysis of these data consisted of the linear regression of log 10 enterococcus density on the difference in illness rates between swimmers and non‐swimmers. Subsequent published analysis of the marine study utilized logistic regression, but did not take background illness rates into account. Both analyses produced separate models for rates of ‘highly credible’ and total GI symptoms. The present analysis demonstrates the advantages of including the background rates and how such rates may be incorporated in a logistic regression. Published in 2002 by John Wiley & Sons, Ltd.