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Selecting likely causal risk factors from high-throughput experiments using multivariable Mendelian randomization

Verena Zuber, Johanna M. Colijn, Caroline C. W. Klaver, Stephen Burgess

2020Nature Communications253 citationsDOIOpen Access PDF

Abstract

Modern high-throughput experiments provide a rich resource to investigate causal determinants of disease risk. Mendelian randomization (MR) is the use of genetic variants as instrumental variables to infer the causal effect of a specific risk factor on an outcome. Multivariable MR is an extension of the standard MR framework to consider multiple potential risk factors in a single model. However, current implementations of multivariable MR use standard linear regression and hence perform poorly with many risk factors. Here, we propose a two-sample multivariable MR approach based on Bayesian model averaging (MR-BMA) that scales to high-throughput experiments. In a realistic simulation study, we show that MR-BMA can detect true causal risk factors even when the candidate risk factors are highly correlated. We illustrate MR-BMA by analysing publicly-available summarized data on metabolites to prioritise likely causal biomarkers for age-related macular degeneration.

Topics & Concepts

Mendelian randomizationMultivariable calculusComputer scienceMultivariate statisticsThroughputCausal inferenceGenome-wide association studyRegressionBayesian probabilityMachine learningArtificial intelligenceEconometricsStatisticsGenetic variantsBiologySingle-nucleotide polymorphismMathematicsGeneticsGeneEngineeringWirelessGenotypeTelecommunicationsControl engineeringGenetic Associations and EpidemiologyGenetic and phenotypic traits in livestockAdvanced Causal Inference Techniques