TY - JOUR T1 - An Integrative Boosting Approach for Predicting Survival Time With Multiple Genomics Platforms JF - bioRxiv DO - 10.1101/338145 SP - 338145 AU - K. Y. Wong AU - C. Fan AU - M. Tanioka AU - J. S. Parker AU - A. B. Nobel AU - D. Zeng AU - D. Y. Lin AU - C. M. Perou Y1 - 2018/01/01 UR - http://biorxiv.org/content/early/2018/06/05/338145.abstract N2 - Recent technological advances have made it possible to collect multiple types of genomics data on the same set of patients. It is of great interest to integrate multiple genomics data types together for predicting disease outcomes. We propose a variable selection method, termed Integrative Boosting (I-Boost), that makes proper use of all available clinical and genomics data in predicting individual patient survival time. Through simulation studies and applications to data sets from The Cancer Genome Atlas, we demonstrate that I-Boost provides substantially higher prediction accuracy than existing variable selection methods. Using I-Boost, we show that (1) the integration of multiple genomics platforms with clinical variables significantly improves the prediction accuracy for survival time over the use of clinical variables alone; (2) gene expression values are typically more prognostic of survival time than other genomics data types; and (3) gene modules/signatures are at least as prognostic as the collection of individual gene expression data. ER -