JSM 2021 Online Program

Clustered competing risks data are commonly encountered in multicenter studies and are often complicated due to informative cluster size and missing causes of failure. To the best of our knowledge, there is no methodology proposed for population-averaged analysis for clustered competing risks data with informative cluster size and missing causes of failure. To address this problem, we consider the semiparametric marginal proportional cause-specific hazards model and propose a maximum partial pseudolikelihood estimator under a missing at random assumption. The proposed method does not impose assumptions regarding the within-cluster dependence and allows for informative cluster size. The asymptotic properties of the proposed estimators for both regression coefficients and infinite-dimensional parameters are rigorously established. Simulation studies show that the proposed method performs well and that methods that ignore the within-cluster dependence and the informative cluster size lead to invalid inferences. The proposed method is applied to competing risks data from a large multicenter HIV study where a significant portion of causes of failure is missing.