Skip to main content

Joint nonparametric correction estimator for excess relative risk regression in survival analysis with exposure measurement error.

Author
Abstract
:

Observational epidemiological studies often confront the problem of estimating exposure-disease relationships when the exposure is not measured exactly. In the paper, we investigate exposure measurement error in excess relative risk regression, which is a widely used model in radiation exposure effect research. In the study cohort, a surrogate variable is available for the true unobserved exposure variable. The surrogate variable satisfies a generalized version of the classical additive measurement error model, but it may or may not have repeated measurements. In addition, an instrumental variable is available for individuals in a subset of the whole cohort. We develop a nonparametric correction (NPC) estimator using data from the subcohort, and further propose a joint nonparametric correction (JNPC) estimator using all observed data to adjust for exposure measurement error. An optimal linear combination estimator of JNPC and NPC is further developed. The proposed estimators are nonparametric, which are consistent without imposing a covariate or error distribution, and are robust to heteroscedastic errors. Finite sample performance is examined via a simulation study. We apply the developed methods to data from the Radiation Effects Research Foundation, in which chromosome aberration is used to adjust for the effects of radiation dose measurement error on the estimation of radiation dose responses.

Year of Publication
:
2017
Journal
:
Journal of the Royal Statistical Society. Series B, Statistical methodology
Volume
:
79
Issue
:
5
Number of Pages
:
1583-1599
ISSN Number
:
1369-7412
DOI
:
10.1111/rssb.12230
Short Title
:
J R Stat Soc Series B Stat Methodol
Download citation