A Bayesian approach of joint models for clustered zero-inflated count data with skewness and measurement errors

• Published in: Journal of applied statistics Vol. 42; no. 4; pp. 745 - 761
• Main Authors: Fu, Ying-zi, Chu, Pei-xiao, Lu, Li-ying
• Format: Journal Article
• Language: English
• Published: Abingdon Taylor & Francis 03.04.2015; Taylor & Francis Ltd
• Subjects: Bayesian analysis; Counting; Error analysis; Errors; joint hierarchical modeling; Measurement errors; Normal distribution; Public health; Random errors; Regression; Regression analysis; skew-t-distribution; Skewness; Studies; Surgical implants; zero-inflated Poisson mixed regression
• ISSN: 0266-4763; 1360-0532
• DOI: 10.1080/02664763.2014.980941

Count data with excess zeros are widely encountered in the fields of biomedical, medical, public health and social survey, etc. Zero-inflated Poisson (ZIP) regression models with mixed effects are useful tools for analyzing such data, in which covariates are usually incorporated in the model to explain inter-subject variation and normal distribution is assumed for both random effects and random errors. However, in many practical applications, such assumptions may be violated as the data often exhibit skewness and some covariates may be measured with measurement errors. In this paper, we deal with these issues simultaneously by developing a Bayesian joint hierarchical modeling approach. Specifically, by treating intercepts and slopes in logistic and Poisson regression as random, a flexible two-level ZIP regression model is proposed, where a covariate process with measurement errors is established and a skew-t-distribution is considered for both random errors and random effects. Under the Bayesian framework, model selection is carried out using deviance information criterion (DIC) and a goodness-of-fit statistics is also developed for assessing the plausibility of the posited model. The main advantage of our method is that it allows for more robustness and correctness for investigating heterogeneity from different levels, while accommodating the skewness and measurement errors simultaneously. An application to Shanghai Youth Fitness Survey is used as an illustrate example. Through this real example, it is showed that our approach is of interest and usefulness for applications.