JSM 2021 Online Program

Health administrative data are oftentimes of limited use in obstetric research due to lacking data on gestational age at birth (GAB). Algorithms estimating GAB can introduce bias in estimation without accounting for the unique distributional shape of GAB. Hence, we develop a Bayesian Latent class model to predict GAB. The model employs a mixture of Gaussian distributions with linear covariates within each class. This approach allows modeling heterogeneity in population by identifying latent subgroups and estimating class-specific regression coefficients. We fit this model in a Bayesian framework conducting posterior computation with Markov Chain Monte Carlo methods. The method is applied to a dataset of Rhode Island Medicaid mother-child pairs. The results indicate Medicaid women were partitioned into three latent classes, featured by extreme preterm birth, preterm or ''early'' term birth, and ''late'' term birth. Obstetrical complications appeared to pose a significant influence on class allocation. Compared to traditional linear models our approach shows an advantageous predictive accuracy and superior flexibility in modeling a skewed response and population heterogeneity.