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Main Authors: Xu, Changchang, Briollais, Laurent, Andrulis, Irene L, Bull, Shelley B
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2507.16690
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author Xu, Changchang
Briollais, Laurent
Andrulis, Irene L
Bull, Shelley B
author_facet Xu, Changchang
Briollais, Laurent
Andrulis, Irene L
Bull, Shelley B
contents Introduction In analysis of time-to-event outcomes, a mixture cure (MC) model is preferred over a standard survival model when the sample includes individuals who will never experience the event of interest. Motivated by a cohort study of breast cancer patients with incomplete biomarkers, we develop multiple imputation (MI) methods assuming a Weibull proportional hazards (PH-MC) analysis model with multiple prognostic factors. However, for MI with fully conditional specification, an incorrectly-specified imputation model can impair accuracy of point and interval estimates. Objectives and Methods Our goal is to propose imputation models that are compatible with the Weibull PH-MC analysis models. We derive an exact conditional distribution (ECD) imputation model which involves the analysis model likelihood. Using simulation studies, we compare effect estimate bias and confidence interval (CI) coverage under alternative imputation models including the ECD model, an approximation that includes a cure indicator (cECD), and a comprehensive simple (CS) model. For robust parameter estimation in finite and/or sparse samples, we incorporate the Firth-type penalized likelihood (FT-PL) and combined likelihood profile (CLIP) methods into the MI. Results Compared to complete case analysis, MI with penalization reduces estimation bias and improves coverage. Although ECD and cECD perform similarly at higher event rates, ECD generates smaller bias and higher coverage at lower rates. CS has larger bias and lower coverage than ECD and cECD, but CIs are narrower than for cECD. Conclusions In analyses of biomarkers and composite subtypes for prognosis studies such as in breast cancer, use of compatible imputation models and penalization methods are recommended for MC modelling in samples with low event numbers and/or with covariate imbalance.
format Preprint
id arxiv_https___arxiv_org_abs_2507_16690
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Accommodating the Analysis Model in Multiple Imputation for the Weibull Mixture Cure Model:Performance under Penalized Likelihood
Xu, Changchang
Briollais, Laurent
Andrulis, Irene L
Bull, Shelley B
Applications
Introduction In analysis of time-to-event outcomes, a mixture cure (MC) model is preferred over a standard survival model when the sample includes individuals who will never experience the event of interest. Motivated by a cohort study of breast cancer patients with incomplete biomarkers, we develop multiple imputation (MI) methods assuming a Weibull proportional hazards (PH-MC) analysis model with multiple prognostic factors. However, for MI with fully conditional specification, an incorrectly-specified imputation model can impair accuracy of point and interval estimates. Objectives and Methods Our goal is to propose imputation models that are compatible with the Weibull PH-MC analysis models. We derive an exact conditional distribution (ECD) imputation model which involves the analysis model likelihood. Using simulation studies, we compare effect estimate bias and confidence interval (CI) coverage under alternative imputation models including the ECD model, an approximation that includes a cure indicator (cECD), and a comprehensive simple (CS) model. For robust parameter estimation in finite and/or sparse samples, we incorporate the Firth-type penalized likelihood (FT-PL) and combined likelihood profile (CLIP) methods into the MI. Results Compared to complete case analysis, MI with penalization reduces estimation bias and improves coverage. Although ECD and cECD perform similarly at higher event rates, ECD generates smaller bias and higher coverage at lower rates. CS has larger bias and lower coverage than ECD and cECD, but CIs are narrower than for cECD. Conclusions In analyses of biomarkers and composite subtypes for prognosis studies such as in breast cancer, use of compatible imputation models and penalization methods are recommended for MC modelling in samples with low event numbers and/or with covariate imbalance.
title Accommodating the Analysis Model in Multiple Imputation for the Weibull Mixture Cure Model:Performance under Penalized Likelihood
topic Applications
url https://arxiv.org/abs/2507.16690