Literature DB >> 17900312

A general class of pattern mixture models for nonignorable dropout with many possible dropout times.

Jason Roy1, Michael J Daniels.   

Abstract

In this article we consider the problem of fitting pattern mixture models to longitudinal data when there are many unique dropout times. We propose a marginally specified latent class pattern mixture model. The marginal mean is assumed to follow a generalized linear model, whereas the mean conditional on the latent class and random effects is specified separately. Because the dimension of the parameter vector of interest (the marginal regression coefficients) does not depend on the assumed number of latent classes, we propose to treat the number of latent classes as a random variable. We specify a prior distribution for the number of classes, and calculate (approximate) posterior model probabilities. In order to avoid the complications with implementing a fully Bayesian model, we propose a simple approximation to these posterior probabilities. The ideas are illustrated using data from a longitudinal study of depression in HIV-infected women.

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Year:  2007        PMID: 17900312      PMCID: PMC2791415          DOI: 10.1111/j.1541-0420.2007.00884.x

Source DB:  PubMed          Journal:  Biometrics        ISSN: 0006-341X            Impact factor:   2.571


  12 in total

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6.  Modeling longitudinal data with nonignorable dropouts using a latent dropout class model.

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10.  Depressive symptoms and AIDS-related mortality among a multisite cohort of HIV-positive women.

Authors:  Judith A Cook; Dennis Grey; Jane Burke; Mardge H Cohen; Alejandra C Gurtman; Jean L Richardson; Tracey E Wilson; Mary A Young; Nancy A Hessol
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  17 in total

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5.  Pattern-mixture models with incomplete informative cluster size: Application to a repeated pregnancy study.

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6.  Bayesian latent-class mixed-effect hybrid models for dyadic longitudinal data with non-ignorable dropouts.

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7.  Fully Bayesian inference under ignorable missingness in the presence of auxiliary covariates.

Authors:  M J Daniels; C Wang; B H Marcus
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8.  Joint modeling of longitudinal ordinal data and competing risks survival times and analysis of the NINDS rt-PA stroke trial.

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9.  An exploration of fixed and random effects selection for longitudinal binary outcomes in the presence of nonignorable dropout.

Authors:  Ning Li; Michael J Daniels; Gang Li; Robert M Elashoff
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10.  Varying-coefficient models for longitudinal processes with continuous-time informative dropout.

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Journal:  Biostatistics       Date:  2009-10-15       Impact factor: 5.899
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