We consider a high-dimensional multi-outcome regression in which q, possibly dependent, binary and continuous outcomes are regressed onto p covariates. We model the observed outcome vector as a partially observed latent realization from a multivariate linear regression model. Our goal is to estimate simultaneously a sparse matrix (B) of latent regression coefficients (i. e. , partial covariate effects) and a sparse latent residual precision matrix (Ω), which induces partial correlations between the observed outcomes. To this end, we specify continuous spike-and-slab priors on all entries of B and off-diagonal elements of Ω and introduce a Monte Carlo Expectation-Conditional Maximization algorithm to compute the maximum a posterior estimate of the model parameters. Under a set of mild assumptions, we derive the posterior contraction rate for our model in the high-dimensional regimes where both p and q diverge with the sample size n and establish a sure screening property, which implies that, as n increases, we can recover all truly non-zero elements of B with probability tending to one. We demonstrate the excellent finite-sample properties of our proposed method, which we call mixed-mSSL, using extensive simulation studies and three applications spanning medicine to ecology.
Ghosh et al. (Mon,) studied this question.
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