Association Models for Clustered Data with Binary and Continuous Responses

Overview

Journal Biometrics

Publisher Oxford University Press

Specialty Public Health

Date 2009 May 13

PMID 19432772

Citations 11

Authors

Lanjia Lin

Dipankar Bandyopadhyay

Stuart R Lipsitz

Debajyoti Sinha

Affiliations

Soon will be listed here.

Abstract

We consider analysis of clustered data with mixed bivariate responses, i.e., where each member of the cluster has a binary and a continuous outcome. We propose a new bivariate random effects model that induces associations among the binary outcomes within a cluster, among the continuous outcomes within a cluster, between a binary outcome and a continuous outcome from different subjects within a cluster, as well as the direct association between the binary and continuous outcomes within the same subject. For the ease of interpretations of the regression effects, the marginal model of the binary response probability integrated over the random effects preserves the logistic form and the marginal expectation of the continuous response preserves the linear form. We implement maximum likelihood estimation of our model parameters using standard software such as PROC NLMIXED of SAS. Our simulation study demonstrates the robustness of our method with respect to the misspecification of the regression model as well as the random effects model. We illustrate our methodology by analyzing a developmental toxicity study of ethylene glycol in mice.

Citing Articles

Longitudinal Joint Modelling of Ordinal and Overdispersed Count Outcomes: A Bridge Distribution for the Ordinal Random Intercept.

Amini P, Moghimbeigi A, Zayeri F, Tapak L, Maroufizadeh S, Verbeke G Comput Math Methods Med. 2021; 2021:5521881.

PMID: 33763151 PMC: 7946459. DOI: 10.1155/2021/5521881.

Marginal analysis of multiple outcomes with informative cluster size.

Mitani A, Kaye E, Nelson K Biometrics. 2020; 77(1):271-282.

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Farewell V, Long D, Tom B, Yiu S, Su L Annu Rev Stat Appl. 2017; 4:283-315.

PMID: 28890906 PMC: 5590716. DOI: 10.1146/annurev-statistics-060116-054131.

Dose-Response Modeling with Summary Data from Developmental Toxicity Studies.

Fox J, Hogan K, Davis A Risk Anal. 2016; 37(5):905-917.

PMID: 27567129 PMC: 8372781. DOI: 10.1111/risa.12667.

Modelling household finances: A Bayesian approach to a multivariate two-part model.

Brown S, Ghosh P, Su L, Taylor K J Empir Finance. 2016; 33:190-207.

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References

Regan M, Catalano P . Likelihood models for clustered binary and continuous outcomes: application to developmental toxicology. Biometrics. 2001; 55(3):760-8. DOI: 10.1111/j.0006-341x.1999.00760.x. View

Dunson D, Chen Z, Harry J . A Bayesian approach for joint modeling of cluster size and subunit-specific outcomes. Biometrics. 2003; 59(3):521-30. DOI: 10.1111/1541-0420.00062. View

Price C, Kimmel C, Tyl R, Marr M . The developmental toxicity of ethylene glycol in rats and mice. Toxicol Appl Pharmacol. 1985; 81(1):113-27. DOI: 10.1016/0041-008x(85)90126-7. View