Journal ArticleDOI
Meta-analysis of individual patient data with semi-competing risks under the Weibull joint frailty–copula model
TLDR
It is shown that the Weibull model constitutes a conjugate model for the gamma frailty, leading to explicit expressions for the moments, survival functions, hazard functions, quantiles, and mean residual lifetimes, which facilitate the parameter interpretation of prognostic inference.Abstract:
In meta-analysis of individual patient data with semi-competing risks, the joint frailty–copula model has been proposed, where frailty terms account for the between-study heterogeneity and copulas account for dependence between terminal and nonterminal event times. In the previous works, the baseline hazard functions in the joint frailty–copula model are estimated by the nonparametric model or the penalized spline model, which requires complex maximization schemes and resampling-based interval estimation. In this article, we propose the Weibull distribution for the baseline hazard functions under the joint frailty–copula model. We show that the Weibull model constitutes a conjugate model for the gamma frailty, leading to explicit expressions for the moments, survival functions, hazard functions, quantiles, and mean residual lifetimes. These results facilitate the parameter interpretation of prognostic inference. We propose a maximum likelihood estimation method and make our computer programs available in the R package, joint.Cox. We also show that the delta method is feasible to calculate interval estimates, which is a useful alternative to the resampling-based method. We conduct simulation studies to examine the accuracy of the proposed methods. Finally, we use the data on ovarian cancer patients to illustrate the proposed method.read more
Citations
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Journal ArticleDOI
Likelihood-based inference for a frailty-copula model based on competing risks failure time data
TL;DR: A frailty‐copula model is proposed, which is a hybrid model including both a frailty term and a copula function for dependence between failure times, and likelihood‐based inference methods based on competing risks data, including accelerated failure time models are developed.
Journal ArticleDOI
A copula-based Markov chain model for serially dependent event times with a dependent terminal event
TL;DR: This paper proposes a novel copula-based Markov chain model for describing serial dependence in recurrent event times, and proposes a two-stage estimation method under Weibull distributions for fitting the survival data.
Journal ArticleDOI
Parametric Distributions for Survival and Reliability Analyses, a Review and Historical Sketch
TL;DR: In this paper , the authors comprehensively review the historical backgrounds and statistical properties of a number of parametric distributions used in survival and reliability analyses, including the exponential, Weibull, Rayleigh, lognormal, log-logistic, gamma, generalized gamma, Pareto (types I, II, and IV), Hjorth, Burr (types III and XII), Dagum, exponential power, Gompertz, Birnbaum-Saunders, exponential-logarithmic, piecewise exponential, generalized exponential, exponentiated Weibell, generalized modified Weibbull, and spline distributions.
Journal ArticleDOI
Dynamic Risk Prediction via a Joint Frailty-Copula Model and IPD Meta-Analysis: Building Web Applications
TL;DR: This article provides a tutorial in order to build a web-based application for dynamic risk prediction for cancer patients on the basis of the R packages joint, and demonstrates the proposed methods using a dataset of breast cancer patients from multiple clinical studies.
Journal ArticleDOI
Dynamic lifetime prediction using a Weibull-based bivariate failure time model: a meta-analysis of individual-patient data
TL;DR: In this article, a dynamic prediction method using a bivariate failure time model allows one to build a prediction for the time-to-death for patients, which is one of the most important issues in survival analysis.
References
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Journal ArticleDOI
Personalized dynamic prediction of death according to tumour progression and high-dimensional genetic factors: Meta-analysis with a joint model.
TL;DR: This work extends the existing joint frailty-copula model to a model allowing for high-dimensional genetic factors and proposes a dynamic prediction formula to predict death given tumour progression events possibly occurring after treatment or surgery.
Journal ArticleDOI
Planning of Accelerated Life Tests With Dependent Failure Modes Based on a Gamma Frailty Model
TL;DR: This article investigates the statistical modeling and planning of ALT with multiple dependent failure modes, and builds the optimal ALT plan by minimizing the large-sample approximate variance of the maximum likelihood estimator of a certain life quantile at use condition.
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Maximum likelihood analysis of semicompeting risks data with semiparametric regression models.
TL;DR: A nonparametric maximum likelihood approach for inferences is proposed, which provides a martingale representation for the score function and an analytical expression for the information matrix and demonstrates the utility of the proposed methodology.
Journal ArticleDOI
Predictions in an illness-death model.
TL;DR: A large number of quantities such as transition probabilities, cumulative probabilities and life expectancies are reviewed in an illness-death model, perhaps the most common multi-state model in the medical literature, and a way to estimate them in addition to the transition intensities and the regression parameters is proposed.
Journal ArticleDOI
A joint model for the dependence between clustered times to tumour progression and deaths: A meta-analysis of chemotherapy in head and neck cancer.
TL;DR: This model was motivated by a large meta-analysis of randomized trials for head and neck cancers, in which the efficacy of chemotherapy on TTP or PFS and overall survival was investigated, as adjunct to surgery or radiotherapy or both.