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Bayesian data integration and variable selection for pan‐cancer survival prediction using protein expression data | Academic Article individual record
abstract

Accurate prognostic prediction using molecular information is a challenging area of research, which is essential to develop precision medicine. In this paper, we develop translational models to identify major actionable proteins that are associated with clinical outcomes, like the survival time of patients. There are considerable statistical and computational challenges due to the large dimension of the problems. Furthermore, data are available for different tumor types; hence data integration for various tumors is desirable. Having censored survival outcomes escalates one more level of complexity in the inferential procedure. We develop Bayesian hierarchical survival models, which accommodate all the challenges mentioned here. We use the hierarchical Bayesian accelerated failure time model for survival regression. Furthermore, we assume sparse horseshoe prior distribution for the regression coefficients to identify the major proteomic drivers. We borrow strength across tumor groups by introducing a correlation structure among the prior distributions. The proposed methods have been used to analyze data from the recently curated \"The Cancer Proteome Atlas\" (TCPA), which contains reverse-phase protein arrays-based high-quality protein expression data as well as detailed clinical annotation, including survival times. Our simulation and the TCPA data analysis illustrate the efficacy of the proposed integrative model, which links different tumors with the correlated prior structures.

authors
author list (cited authors)
Maity, A. K., Bhattacharya, A., Mallick, B. K., & Baladandayuthapani, V.
publication date
2020
publisher
Wiley Publisher
published in
BIOMETRICS Journal
keywords
  • Horseshoe
  • Aft Regression
  • Borrowing Strength
  • Pan-cancer Model
  • Tcpa
citation count

1