Authors: Stone, David¹; Harding, Anna²; Hope, Bruce³; Slaughter-Mason, Samantha²

Source: Journal of Toxicology and Environmental Health Part A, Volume 71, Number 24, October 2008 , pp. 1603-1615(13)

Publisher: Taylor and Francis Ltd

Abstract:

Surfing is a unique recreational activity with the possibility of elevated risk for contracting gastrointestinal (GI) illness through ingestion of contaminated water. No prior studies have assessed exposure from ingestion among surfing populations. This study estimated the magnitude and frequency of incidental water ingestion using a Web-based survey and integrated exposure distributions with enterococci distributions to predict the probability of GI illness at six Oregon beaches. The mean exposure magnitude and frequency were 170 ml of water ingested per day and 77 days spent surfing per year, respectively. The mean number of enterococci ingested ranged from approximately 11 to 86 colony-forming units (CFU) per day. Exposure-response analyses were conducted using an ingested dose model and two epidemiological models. Risk was characterized using joint probability curves (JPC). At the most contaminated beach, the annualized ingested dose model estimated a mean 9% probability of a 50% probability of GI illness, similar to the results of the first epidemiological model (mean 6% probability of a 50% probability of GI illness). The second epidemiological model predicted a 23% probability of exceeding an exposure equivalent to the U.S. Environmental Protection Agency (EPA) maximum acceptable GI illness rate (19 cases/1000 swimmers). While the annual risk of GI illness for Oregon surfers is not high, data showed that surfers ingest more water compared to swimmers and divers and need to be considered in regulatory and public health efforts, especially in more contaminated waters. Our approach to characterize risk among surfers is novel and informative to officials responsible for advisory programs. It also highlights the need for further research on microbial dose-response relationships to meet the needs of quantitative microbial risk assessments (QMRA).

Document Type: Research article

DOI: http://dx.doi.org/10.1080/15287390802414406

Affiliations: 1: Department of Environmental and Molecular Toxicology, Oregon State University, Corvallis, Oregon, USA 2: Department of Public Health, Oregon State University, Corvallis, Oregon, USA 3: Oregon Department of Environmental Quality, Portland, Oregon, USA

Publication date: 2008-10-01

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