Scott L. Zeger scite author profile

SUMMARYThis paper proposes an extension of generalized linear models to the analysis of longitudinal data. We introduce a class of estimating equations that give consistent estimates of the regression parameters and of their variance under mild assumptions about the time dependence. The estimating equations are derived without specifying the joint distribution of a subject's observations yet they reduce to the score equations for multivariate Gaussian outcomes. Asymptotic theory is presented for the general class of estimators. Specific cases in which we assume independence, m-dependence and exchangeable correlation structures from each subject are discussed. Efficiency of the proposed estimators in two simple situations is considered. The approach is closely related to quasi-likelihood.

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Longitudinal Data Analysis for Discrete and Continuous Outcomes

Zeger¹,

Liang²

1986

Biometrics

7,069

4,291

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Longitudinal data sets are comprised of repeated observations of an outcome and a set of covariates for each of many subjects. One objective of statistical analysis is to describe the marginal expectation of the outcome variable as a function of the covariates while accounting for the correlation among the repeated observations for a given subject. This paper proposes a unifying approach to such analysis for a variety of discrete and continuous outcomes. A class of generalized estimating equations (GEEs) for the regression parameters is proposed. The equations are extensions of those used in quasi-likelihood (Wedderburn, 1974, Biometrika 61, 439-447) methods. The GEEs have solutions which are consistent and asymptotically Gaussian even when the time dependence is misspecified as we often expect. A consistent variance estimate is presented. We illustrate the use of the GEE approach with longitudinal data from a study of the effect of mothers' stress on children's morbidity.

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Models for Longitudinal Data: A Generalized Estimating Equation Approach

Zeger¹,

Liang²,

Albert³

1988

Biometrics

3,988

2,644

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This article discusses extensions of generalized linear models for the analysis of longitudinal data. Two approaches are considered: subject-specific (SS) models in which heterogeneity in regression parameters is explicitly modelled; and population-averaged (PA) models in which the aggregate response for the population is the focus. We use a generalized estimating equation approach to fit both classes of models for discrete and continuous outcomes. When the subject-specific parameters are assumed to follow a Gaussian distribution, simple relationships between the PA and SS parameters are available. The methods are illustrated with an analysis of data on mother's smoking and children's respiratory disease.

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Analysis of Longitudinal Data.

Diggle¹,

Liang²,

Zeger³

1997

Biometrics

1,564

1,799

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Scott L. Zeger

Longitudinal data analysis using generalized linear models

Longitudinal Data Analysis Using Generalized Linear Models

Longitudinal Data Analysis for Discrete and Continuous Outcomes

Models for Longitudinal Data: A Generalized Estimating Equation Approach

Analysis of Longitudinal Data.

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