Speaker: Linbo Wang, Assistant professor in the Department of Statistical Sciences and the Department of Computer and Mathematical Sciences, University of Toronto

Time: 15:00-16:00 p.m., May 9, 2024, GMT+8

Venue: Rm 101, Wangxuan Hall, Zhihua Building, PKU 

Abstract: 

Instrumental variable methods provide useful tools for inferring causal effects in the presence of unmeasured confounding. To apply these methods with large-scale data sets, a major challenge is to find valid instruments from a possibly large candidate set. In practice, most of the candidate instruments are often not relevant for studying a particular exposure of interest. Moreover, not all relevant candidate instruments are valid as they may directly influence the outcome of interest. In this article, we propose a data-driven method for causal inference with many candidate instruments that addresses these two challenges simultaneously. A key component of our proposal is a novel resampling method, which constructs pseudo variables to remove irrelevant candidate instruments having spurious correlations with the exposure. Synthetic data analyses show that the proposed method performs favourably compared to existing methods. We apply our method to a Mendelian randomization study estimating the effect of obesity on health-related quality of life.

Source: School of Mathematical Sciences, PKU