Gene-based analysis of bi-variate survival traits via functional regressions with applications to eye diseases.
Bingsong ZhangChi-Yang ChiuFang YuanTian SangRichard J CookAlexander F WilsonRichard K WilsonEmily Y ChewMomiao XiongRuzong FanPublished in: Genetic epidemiology (2021)
Genetic studies of two related survival outcomes of a pleiotropic gene are commonly encountered but statistical models to analyze them are rarely developed. To analyze sequencing data, we propose mixed effect Cox proportional hazard models by functional regressions to perform gene-based joint association analysis of two survival traits motivated by our ongoing real studies. These models extend fixed effect Cox models of univariate survival traits by incorporating variations and correlation of multivariate survival traits into the models. The associations between genetic variants and two survival traits are tested by likelihood ratio test statistics. Extensive simulation studies suggest that type I error rates are well controlled and power performances are stable. The proposed models are applied to analyze bivariate survival traits of left and right eyes in the age-related macular degeneration progression.