Exposure assessment in investigations of waterborne illness: a quantitative estimate of measurement error.

Andria Q Jones, Catherine E Dewey, Kathryn Doré, Shannon E Majowicz, Scott A McEwen, David Waltner-Toews
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引用次数: 11

Abstract

Background: Exposure assessment is typically the greatest weakness of epidemiologic studies of disinfection by-products (DBPs) in drinking water, which largely stems from the difficulty in obtaining accurate data on individual-level water consumption patterns and activity. Thus, surrogate measures for such waterborne exposures are commonly used. Little attention however, has been directed towards formal validation of these measures.

Methods: We conducted a study in the City of Hamilton, Ontario (Canada) in 2001-2002, to assess the accuracy of two surrogate measures of home water source: (a) urban/rural status as assigned using residential postal codes, and (b) mapping of residential postal codes to municipal water systems within a Geographic Information System (GIS). We then assessed the accuracy of a commonly-used surrogate measure of an individual's actual drinking water source, namely, their home water source.

Results: The surrogates for home water source provided good classification of residents served by municipal water systems (approximately 98% predictive value), but did not perform well in classifying those served by private water systems (average: 63.5% predictive value). More importantly, we found that home water source was a poor surrogate measure of the individuals' actual drinking water source(s), being associated with high misclassification errors.

Conclusion: This study demonstrated substantial misclassification errors associated with a surrogate measure commonly used in studies of drinking water disinfection byproducts. Further, the limited accuracy of two surrogate measures of an individual's home water source heeds caution in their use in exposure classification methodology. While these surrogates are inexpensive and convenient, they should not be substituted for direct collection of accurate data pertaining to the subjects' waterborne disease exposure. In instances where such surrogates must be used, estimation of the misclassification and its subsequent effects are recommended for the interpretation and communication of results. Our results also lend support for further investigation into the quantification of the exposure misclassification associated with these surrogate measures, which would provide useful estimates for consideration in interpretation of waterborne disease studies.

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水传播疾病调查中的暴露评估:测量误差的定量估计。
背景:暴露评估通常是饮用水中消毒副产物(DBPs)流行病学研究的最大弱点,这在很大程度上源于难以获得关于个人水平水消费模式和活动的准确数据。因此,通常使用替代措施来测量这种水传播接触。然而,很少注意到这些措施的正式确认。方法:我们于2001-2002年在加拿大安大略省汉密尔顿市进行了一项研究,以评估家庭水源的两种替代测量方法的准确性:(a)使用住宅邮政编码指定的城市/农村状况,以及(b)在地理信息系统(GIS)中将住宅邮政编码映射到市政供水系统。然后,我们评估了一种常用的替代测量个人实际饮用水源的准确性,即他们的家庭水源。结果:家庭水源替代品对市政供水系统的居民提供了良好的分类(约98%的预测值),但对私人供水系统的居民分类表现不佳(平均:63.5%的预测值)。更重要的是,我们发现家庭水源是个人实际饮用水源的一个很差的替代措施,与高误分类错误有关。结论:本研究证明了与饮用水消毒副产物研究中常用的替代测量相关的大量误分类错误。此外,个人家庭水源的两种替代测量方法的准确性有限,因此在使用暴露分类方法时需要谨慎。虽然这些替代方法既便宜又方便,但它们不应取代直接收集与受试者水传播疾病暴露有关的准确数据。在必须使用这种替代品的情况下,建议对错误分类及其后续影响进行估计,以便对结果进行解释和交流。我们的研究结果也为进一步研究与这些替代措施相关的暴露错误分类的量化提供了支持,这将为解释水传播疾病研究提供有用的估计。
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