An assessment of non.randomized medical treatment of long.term schizophrenia relapse using bivariate binary.response transition models

The analyses of observational longitudinal studies involving concurrent changes in treatment and medical conditions present difficulties because of the multitude of directions of potential relationships: past medication influences current symptoms; past symptoms influence current medication; and current medication is associated with current symptoms.In the context of a long.term study of non.randomized pharmacological treatment of schizophrenic relapse, we present an analysis of bivariate discrete.time transitional data with binary responses in an attempt to understand the transitional and concurrent relationships between schizophrenia relapse and medication use.A naive analysis does not show any association between previous medication and current relapse.However, we provide evidence suggesting that current treatment may impact current relapse for those who have previously taken medication, but not for those who haven't taken medication in the past.When univariate models are specified to assess these associations, the bivariate nature of the problem requires a choice of which response, relapse or medication, should be the dependent variable.In this case, the choice of relapse or medication as a dependent variable does matter.Hence, our results derive from models where both relapse and medication are treated as dependent variables.Specifically, we specify a bivariate log odds ratio for current relapse and current medication use and a separate univariate logit component for each of these outcomes.Each of these components contains transitional associations with previous relapse and medication.Such models represent extensions of univariate transitional association models (e.g. Diggle et al. (1994)) and correspond to bivariate transitional models (e.g. Zeger and Liang (1991)).We incorporate changes in transitional associations into the full.data parametric model for final inference, and investigate if these temporal changes are due to learning effects or the impact of drop.out.We also perform residual analyses and sensitivity analyses in the context of missing data patterns.