Generalized accelerated hazards mixture cure models with interval-censored data

Existing semiparametric mixture cure models with interval-censored data often assume a survival model, such as the Cox proportional hazards model, proportional odds model, accelerated failure time model, or their transformations for the susceptible subjects. There are cases in practice that such conventional assumptions may be inappropriate for modeling survival outcomes of susceptible subjects. We propose a more flexible class of generalized accelerated hazards mixture cure models for analysis of interval-censored failure times in the presence of a cure fraction. We develop a sieve maximum likelihood estimation in which the unknown cumulative baseline hazard function is approximated by means of B-splines and bundled with regression parameters. The proposed estimator possesses the properties of consistency and asymptotic normality, and can achieve the optimal global convergence rate under some conditions. Simulation results demonstrate that the proposed estimator performs satisfactorily in finite samples. The application of the proposed method is illustrated by the analysis of smoking cessation data from a lung health study. (C) 2021 Elsevier B.V. All rights reserved.

Automated summary

This study proposes a more flexible class of generalized accelerated hazards mixture cure models for analyzing interval-censored failure times. A sieve maximum likelihood estimation method is used to approximate the unknown cumulative baseline hazard function with B-splines. Simulation results demonstrate satisfactory performance of the proposed method in finite samples.