Journal Article10.2307/2533118
A joint model for survival and longitudinal data measured with error.
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TL;DR: This work argues that the Cox proportional hazards regression model method is superior to naive methods where one maximizes the partial likelihood of the Cox model using the observed covariate values and improves on two-stage methods where empirical Bayes estimates of the covariate process are computed and then used as time-dependent covariates.
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Abstract: The relationship between a longitudinal covariate and a failure time process can be assessed using the Cox proportional hazards regression model We consider the problem of estimating the parameters in the Cox model when the longitudinal covariate is measured infrequently and with measurement error We assume a repeated measures random effects model for the covariate process Estimates of the parameters are obtained by maximizing the joint likelihood for the covariate process and the failure time process This approach uses the available information optimally because we use both the covariate and survival data simultaneously Parameters are estimated using the expectation-maximization algorithm We argue that such a method is superior to naive methods where one maximizes the partial likelihood of the Cox model using the observed covariate values It also improves on two-stage methods where, in the first stage, empirical Bayes estimates of the covariate process are computed and then used as time-dependent covariates in a second stage to find the parameters in the Cox model that maximize the partial likelihood
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Citations
Joint model for left-censored longitudinal data, recurrent events and terminal event: Predictive abilities of tumor burden for cancer evolution with application to the FFCD 2000-05 trial.
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Stochastic model for analysis of longitudinal data on aging and mortality.
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An estimator for the proportional hazards model with multiple longitudinal covariates measured with error
TL;DR: For a single time-dependent covariate, Tsiatis and Davidian (2001) have proposed an approach that is easily implemented and does not require an assumption on the distribution of the random effects, and may be generalized to multiple, possibly correlated, time- dependent covariates, as it is demonstrated.
Semiparametric Approaches for Joint Modeling of Longitudinal and Survival Data with Time‐Varying Coefficients
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References
Regression Models and Life-Tables
TL;DR: The analysis of censored failure times is considered in this paper, where the hazard function is taken to be a function of the explanatory variables and unknown regression coefficients multiplied by an arbitrary and unknown function of time.
28.6K
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Numerical Recipes in FORTRAN
William T. Vetterling,Saul A. Teukolsky,William H. Press,Brian P. Flannery +3 more
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TL;DR: The Diskette v 2.04, 3.5'' (720k) for IBM PC, PS/2 and compatibles [DOS] Reference Record created on 2004-09-07, modified on 2016-08-08.
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Random-effects models for longitudinal data
Nan M. Laird,James H. Ware +1 more
TL;DR: In this article, a unified approach to fitting two-stage random-effects models, based on a combination of empirical Bayes and maximum likelihood estimation of model parameters and using the EM algorithm, is discussed.
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Newton-Raphson and EM Algorithms for Linear Mixed-Effects Models for Repeated-Measures Data
TL;DR: In this article, the authors developed an efficient and effective implementation of the Newton-Raphson (NR) algorithm for estimating the parameters in mixed-effects models for repeated-measures data.
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