MODELING PAST EVENT FEEDBACK THROUGH BIOMARKER DYNAMICS IN THE MULTISTATE EVENT ANALYSIS FOR CARDIOVASCULAR DISEASE DATA
成果类型:
Article
署名作者:
Ma, Chuoxin; Dai, Hongsheng; Pan, Jianxin
署名单位:
University of Manchester; University of Essex
刊物名称:
ANNALS OF APPLIED STATISTICS
ISSN/ISSBN:
1932-6157
DOI:
10.1214/21-AOAS1445
发表日期:
2021
页码:
1308-1328
关键词:
PROPORTIONAL HAZARDS MODEL
recurrent events
time
estimator
RISK
摘要:
In cardiovascular studies we often observe ordered multiple events along disease progression which are, essentially, a series of recurrent events and terminal events with competing risk structure. One of the main interests is to explore the event specific association with the dynamics of longitudinal biomarkers. A new statistical challenge arises when the biomarkers carry information from the past event history, providing feedbacks for the occurrences of future events and, particularly, when these biomarkers are only intermittently observed with measurement errors. In this paper we propose a novel modeling framework where the recurrent events and terminal events are modeled as multistate processes and the longitudinal covariates that account for event feedbacks are described by random effects models. Considering the nature of long-term observation in cardiac studies, flexible models with semiparametric coefficients are adopted. To improve computation efficiency, we develop an one-step estimator of the regression coefficients and derive their asymptotic variances for the computation of the confidence intervals, based on the proposed asymptotically unbiased estimating equation. Simulation studies show that the naive estimators, which either ignore the past event feedbacks or the measurement errors, are biased. Our method achieves better coverage probability, compared to the naive methods. The model is motivated and applied to a dataset from the Atherosclerosis Risk in Communities Study.
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