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Abstract:
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The rapid acceleration of whole-genome sequencing/densely-imputed genotyping array data collection in biomedical settings has resulted in the rise of genetic compendiums filled with rich longitudinal disease data. One common feature of these datasets is a plethora of interval-censored outcomes. However, few tools are available for the analysis of genetic datasets with interval-censored outcomes, and in particular, there is a lack of methodology available for set-based inference, which is used to associate genes with outcomes. This work develops three such tests for interval-censored settings beginning with a variance components test for interval-censored outcomes, the interval censored sequence kernel association test (ICSKAT). We also provide the interval-censored version of the Burden test, and then we integrate ICSKAT and Burden to construct the interval censored sequence kernel association test - optimal (ICSKATO) combination. These tests unlock set-based analysis of interval-censored datasets with analogs of three highly popular set-based tools commonly applied to continuous and binary outcomes. The proposed approaches are applied to detect genes associated with fractures.
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