B0946
Title: Identification of survival relevant genes with measurement error in gene expression incorporated
Authors: Wenqing He - University of Western Ontario (Canada) [presenting]
Abstract: Modern gene expression technologies, such as microarray and the next generation RNA sequencing, enable simultaneous measurement of expressions of a large number of genes and therefore represent important tools in personalized medicine research for improving patient survival prediction accuracy. However, survival analysis with gene expression data can be challenging due to the high dimensionality. Proper identification of survival-relevant genes is thus imperative for building suitable prediction models. In spite of the fact that gene expressions are typically subject to measurement errors introduced from the complex experimental procedure, the issue of measurement error is often ignored in survival gene identifications. The effect of measurement error on the identification of survival-relevant genes is explored under the accelerated failure time model setting. Survival-relevant genes are identified by regularizing the weighted least square estimator with the adaptive LASSO penalty. The simulation-extrapolation method is incorporated to adjust for the impact of measurement error on gene identification. The performance of the proposed method is assessed by simulation studies and the utility of the proposed method is illustrated by a real data set collected from the diffuse large-B-cell lymphoma study. The results show that the proposed method yields better prediction models than traditional methods which ignore measurement errors in gene expressions.
