AI Article Synopsis
- Small-area methods in spatial epidemiology help identify areas with increased disease risk by comparing observed disease cases to expected cases, typically requiring accurate population data.
- Issues like confidentiality and poor quality data can hinder these calculations, but this study proposes using a case-control approach to mitigate those challenges with a spatially unstructured control disease.
- The method was tested on mesothelioma risk in Belgium, using pancreatic cancer as a control, and showed results consistent with traditional models, proving effective in situations where population data is lacking.
Article Abstract
Small-area methods are being used in spatial epidemiology to understand the effect of location on health and detect areas where the risk of a disease is significantly elevated. Disease mapping models relate the observed number of cases to an expected number of cases per area. Expected numbers are often calculated by internal standardization, which requires both accurate population numbers and disease rates per gender and/or age group. However, confidentiality issues or the absence of high-quality information about the characteristics of a population-at-risk can hamper those calculations. Based on methods in point process analysis for situations without accurate population data, we propose the use of a case-control approach in the context of lattice data, in which an unrelated, spatially unstructured disease is used as a control disease. We correct for the uncertainty in the estimation of the expected values, which arises by using the control-disease's observed number of cases as a representation of a fraction of the total population. We apply our methods to a Belgian study of mesothelioma risk, where pancreatic cancer serves as the control disease. The analysis results are in close agreement with those coming from traditional disease mapping models based on internally standardized expected counts. The simulation study results confirm our findings for different spatial structures. We show that the proposed method can adequately address the problem of inaccurate or unavailable population data in disease mapping analysis.
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| http://dx.doi.org/10.1002/bimj.202000246 | DOI Listing |
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