Nonignorable censoring in randomized clinical trials

Jiameng Zhang, Daniel F. Heitjan

Research output: Contribution to journalArticlepeer-review

17 Scopus citations


Background: In a clinical trial, survival may be censored by the end of the study, especially for subjects who enter later in the enrollment period. If there is a trend toward better survival over time then longer survivors experience shorter censoring times (heavier censoring). In such a case, the censoring and survival times are correlated, and thus the censoring is nonignorable in the sense that standard survival models that assume independent censoring could yield incorrect inferences. We will demonstrate a graphical method for analyzing sensitivity of estimates of survival model parameters to small departures from nonignorable censoring. Methods: We assume a parametric model of survival together with a scaled beta model for the censoring process that incorporates the dependence of censoring time on survival time. We assess sensitivity using an index of local sensitivity to nonignorability (Troxel et al. [1]). High sensitivity indicates a large impact of nonignorable censoring on the parameter of interest and a need for additional modeling. Results: A simulation study shows that the approach is valid for practical use. We apply our method to a clinical trial evaluating the survival benefit of a surgically implanted left ventricular assist device in subjects with end-stage heart failure. Sensitivity is somewhat larger in estimates of the mean survival in the device arm, where survival is better and the fraction censored is therefore larger. The degree of nonignorability required to substantially affect estimates is larger than seems plausible, however. Conclusions: Our results illustrate how one can apply sensitivity analysis to evaluate the reliability of survival parameter estimates in a clinical trial.

Original languageEnglish (US)
Pages (from-to)488-496
Number of pages9
JournalClinical Trials
Issue number6
StatePublished - 2005

ASJC Scopus subject areas

  • Pharmacology


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