Smooth individual level covariates adjustment in disease mapping |
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Authors: | Md Hamidul Huque Craig Anderson Richard Walton Samuel Woolford Louise Ryan |
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Affiliation: | 1. Murdoch Childrens Research Institute, Parkville, VIC, Australia;2. School of Mathematical and Physical Sciences, University of Technology Sydney, Ultimo, NSW, Australia;3. Australian Research Council Centre of Excellence for Mathematical and Statistical Frontiers, NSW, Australia;4. Cancer Institute NSW, Eveleigh, NSW, Australia;5. Department of Mathematical Sciences, Bentley University, Waltham, MA, USA |
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Abstract: | Spatial models for disease mapping should ideally account for covariates measured both at individual and area levels. The newly available “indiCAR” model fits the popular conditional autoregresssive (CAR) model by accommodating both individual and group level covariates while adjusting for spatial correlation in the disease rates. This algorithm has been shown to be effective but assumes log‐linear associations between individual level covariates and outcome. In many studies, the relationship between individual level covariates and the outcome may be non‐log‐linear, and methods to track such nonlinearity between individual level covariate and outcome in spatial regression modeling are not well developed. In this paper, we propose a new algorithm, smooth‐indiCAR, to fit an extension to the popular conditional autoregresssive model that can accommodate both linear and nonlinear individual level covariate effects while adjusting for group level covariates and spatial correlation in the disease rates. In this formulation, the effect of a continuous individual level covariate is accommodated via penalized splines. We describe a two‐step estimation procedure to obtain reliable estimates of individual and group level covariate effects where both individual and group level covariate effects are estimated separately. This distributed computing framework enhances its application in the Big Data domain with a large number of individual/group level covariates. We evaluate the performance of smooth‐indiCAR through simulation. Our results indicate that the smooth‐indiCAR method provides reliable estimates of all regression and random effect parameters. We illustrate our proposed methodology with an analysis of data on neutropenia admissions in New South Wales (NSW), Australia. |
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Keywords: | disease mapping geographical variation semi‐parametric additive mixed model smooth‐indiCAR spatial models |
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