Keunbaik Lee scite author profile

Generalized linear models with random effects are often used to explain the serial dependence of longitudinal categorical data. Marginalized random effects models (MREMs) permit likelihood-based estimations of marginal mean parameters and also explain the serial dependence of longitudinal data. In this paper, we extend the MREM to accommodate multivariate longitudinal binary data using a new covariance matrix with a Kronecker decomposition, which easily explains both the serial dependence and time-specific response correlation. A maximum marginal likelihood estimation is proposed utilizing a quasi-Newton algorithm with quasi-Monte Carlo integration of the random effects. Our approach is applied to analyze metabolic syndrome data from the Korean Genomic Epidemiology Study for Korean adults.

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A Class of Markov Models for Longitudinal Ordinal Data

Lee

Daniels

2007

Biometrics

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SummaryGeneralized linear models with serial dependence are often used for short longitudinal series. Heagerty (2002, Biometrics 58, 342-351) has proposed marginalized transition models for the analysis of longitudinal binary data. In this article, we extend this work to accommodate longitudinal ordinal data. Fisher-scoring algorithms are developed for estimation. Methods are illustrated on quality-of-life data from a recent colorectal cancer clinical trial.

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Modeling the random effects covariance matrix for generalized linear mixed models

Lee

Hagan

et al. 2012

Computational Statistics & Data Analysis

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Estimation of covariance matrix of multivariate longitudinal data using modified Choleksky and hypersphere decompositions

et al. 2019

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Linear models are typically used to analyze multivariate longitudinal data. With these models, estimating the covariance matrix is not easy because the covariance matrix should account for complex correlated structures: the correlation between responses at each time point, the correlation within separate responses over time, and the cross‐correlation between different responses at different times. In addition, the estimated covariance matrix should satisfy the positive definiteness condition, and it may be heteroscedastic. However, in practice, the structure of the covariance matrix is assumed to be homoscedastic and highly parsimonious, such as exchangeable or autoregressive with order one. These assumptions are too strong and result in inefficient estimates of the effects of covariates. Several studies have been conducted to solve these restrictions using modified Cholesky decomposition (MCD) and linear covariance models. However, modeling the correlation between responses at each time point is not easy because there is no natural ordering of the responses. In this paper, we use MCD and hypersphere decomposition to model the complex correlation structures for multivariate longitudinal data. We observe that the estimated covariance matrix using the decompositions is positive‐definite and can be heteroscedastic and that it is also interpretable. The proposed methods are illustrated using data from a nonalcoholic fatty liver disease study.

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Marginalized models for longitudinal ordinal data with application to quality of life studies

Lee

Daniels

2008

Statistics in Medicine

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SUMMARYRandom effects are often used in generalized linear models to explain the serial dependence for longitudinal categorical data. Marginalized random effects models (MREMs) for the analysis of longitudinal binary data have been proposed to permit likelihood-based estimation of marginal regression parameters. In this paper, we introduce an extension of the MREM to accommodate longitudinal ordinal data. Maximum marginal likelihood estimation is implemented utilizing quasi-Newton algorithms with Monte Carlo integration of the random effects. Our approach is applied to analyze the quality of life data from a recent colorectal cancer clinical trial. Dropout occurs at a high rate and is often due to tumor progression or death. To deal with progression/ death, we use a mixture model for the joint distribution of longitudinal measures and progression/ death times and principal stratification to draw causal inferences about survivors.

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Keunbaik Lee

Marginalized random effects models for multivariate longitudinal binary data

A Class of Markov Models for Longitudinal Ordinal Data

Modeling the random effects covariance matrix for generalized linear mixed models

Estimation of covariance matrix of multivariate longitudinal data using modified Choleksky and hypersphere decompositions

Marginalized models for longitudinal ordinal data with application to quality of life studies

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