Flexible Cure Rate Modeling Under Latent Activation Schemes

Overview

Journal J Am Stat Assoc

Specialty Public Health

Date 2010 Oct 30

PMID 21031152

Citations 18

Authors

Freda Cooner

Sudipto Banerjee

Bradley P Carlin

Debajyoti Sinha

Affiliations

Soon will be listed here.

Abstract

With rapid improvements in medical treatment and health care, many datasets dealing with time to relapse or death now reveal a substantial portion of patients who are cured (i.e., who never experience the event). Extended survival models called cure rate models account for the probability of a subject being cured and can be broadly classified into the classical mixture models of Berkson and Gage (BG type) or the stochastic tumor models pioneered by Yakovlev and extended to a hierarchical framework by Chen, Ibrahim, and Sinha (YCIS type). Recent developments in Bayesian hierarchical cure models have evoked significant interest regarding relationships and preferences between these two classes of models. Our present work proposes a unifying class of cure rate models that facilitates flexible hierarchical model-building while including both existing cure model classes as special cases. This unifying class enables robust modeling by accounting for uncertainty in underlying mechanisms leading to cure. Issues such as regressing on the cure fraction and propriety of the associated posterior distributions under different modeling assumptions are also discussed. Finally, we offer a simulation study and also illustrate with two datasets (on melanoma and breast cancer) that reveal our framework's ability to distinguish among underlying mechanisms that lead to relapse and cure.

Citing Articles

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References

Li C, Taylor J . A semi-parametric accelerated failure time cure model. Stat Med. 2002; 21(21):3235-47. DOI: 10.1002/sim.1260. View

Kirkwood J, Strawderman M, Ernstoff M, Smith T, Borden E, Blum R . Interferon alfa-2b adjuvant therapy of high-risk resected cutaneous melanoma: the Eastern Cooperative Oncology Group Trial EST 1684. J Clin Oncol. 1996; 14(1):7-17. DOI: 10.1200/JCO.1996.14.1.7. View

Sy J, Taylor J . Estimation in a Cox proportional hazards cure model. Biometrics. 2000; 56(1):227-36. DOI: 10.1111/j.0006-341x.2000.00227.x. View

Farewell V . The use of mixture models for the analysis of survival data with long-term survivors. Biometrics. 1982; 38(4):1041-6. View

Gail M, Santner T, Brown C . An analysis of comparative carcinogenesis experiments based on multiple times to tumor. Biometrics. 1980; 36(2):255-66. View

Tucker S, Taylor J . Improved models of tumour cure. Int J Radiat Biol. 1996; 70(5):539-53. DOI: 10.1080/095530096144743. View

Taylor J . Semi-parametric estimation in failure time mixture models. Biometrics. 1995; 51(3):899-907. View

Tsodikov A, Ibrahim J, Yakovlev A . Estimating Cure Rates From Survival Data: An Alternative to Two-Component Mixture Models. J Am Stat Assoc. 2010; 98(464):1063-1078. PMC: 2998771. DOI: 10.1198/01622145030000001007. View

Kirkwood J, Ibrahim J, Sondak V, Richards J, Flaherty L, Ernstoff M . High- and low-dose interferon alfa-2b in high-risk melanoma: first analysis of intergroup trial E1690/S9111/C9190. J Clin Oncol. 2000; 18(12):2444-58. DOI: 10.1200/JCO.2000.18.12.2444. View

10.

Ewell M, Ibrahim J . The large sample distribution of the weighted log rank statistic under general local alternatives. Lifetime Data Anal. 1997; 3(1):5-12. DOI: 10.1023/a:1009690200504. View

11.

Tucker S, Thames H, Taylor J . How well is the probability of tumor cure after fractionated irradiation described by Poisson statistics?. Radiat Res. 1990; 124(3):273-82. View

12.

Goldman A . Survivorship analysis when cure is a possibility: a Monte Carlo study. Stat Med. 1984; 3(2):153-63. DOI: 10.1002/sim.4780030208. View

13.

Banerjee S, Carlin B . Parametric spatial cure rate models for interval-censored time-to-relapse data. Biometrics. 2004; 60(1):268-75. DOI: 10.1111/j.0006-341X.2004.00032.x. View