Bayesian Joint Additive Factor Models for Multiview Learning
- URL: http://arxiv.org/abs/2406.00778v1
- Date: Sun, 2 Jun 2024 15:35:45 GMT
- Title: Bayesian Joint Additive Factor Models for Multiview Learning
- Authors: Niccolo Anceschi, Federico Ferrari, David B. Dunson, Himel Mallick,
- Abstract summary: A motivating application arises in the context of precision medicine where multi-omics data are collected to correlate with clinical outcomes.
We propose a joint additive factor regression model (JAFAR) with a structured additive design, accounting for shared and view-specific components.
Prediction of time-to-labor onset from immunome, metabolome, and proteome data illustrates performance gains against state-of-the-art competitors.
- Score: 7.254731344123118
- License: http://creativecommons.org/licenses/by/4.0/
- Abstract: It is increasingly common in a wide variety of applied settings to collect data of multiple different types on the same set of samples. Our particular focus in this article is on studying relationships between such multiview features and responses. A motivating application arises in the context of precision medicine where multi-omics data are collected to correlate with clinical outcomes. It is of interest to infer dependence within and across views while combining multimodal information to improve the prediction of outcomes. The signal-to-noise ratio can vary substantially across views, motivating more nuanced statistical tools beyond standard late and early fusion. This challenge comes with the need to preserve interpretability, select features, and obtain accurate uncertainty quantification. We propose a joint additive factor regression model (JAFAR) with a structured additive design, accounting for shared and view-specific components. We ensure identifiability via a novel dependent cumulative shrinkage process (D-CUSP) prior. We provide an efficient implementation via a partially collapsed Gibbs sampler and extend our approach to allow flexible feature and outcome distributions. Prediction of time-to-labor onset from immunome, metabolome, and proteome data illustrates performance gains against state-of-the-art competitors. Our open-source software (R package) is available at https://github.com/niccoloanceschi/jafar.
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