Abstract
BackgroundSelection bias affects Mendelian randomization investigations when selection into the study sample depends on a collider between the genetic variant and confounders of the risk factor–outcome association. However, the relative importance of selection bias for Mendelian randomization compared with other potential biases is unclear.MethodsWe performed an extensive simulation study to assess the impact of selection bias on a typical Mendelian randomization investigation. We considered inverse probability weighting as a potential method for reducing selection bias. Finally, we investigated whether selection bias may explain a recently reported finding that lipoprotein(a) is not a causal risk factor for cardiovascular mortality in individuals with previous coronary heart disease.ResultsSelection bias had a severe impact on bias and Type 1 error rates in our simulation study, but only when selection effects were large. For moderate effects of the risk factor on selection, bias was generally small and Type 1 error rate inflation was not considerable. Inverse probability weighting ameliorated bias when the selection model was correctly specified, but increased bias when selection bias was moderate and the model was misspecified. In the example of lipoprotein(a), strong genetic associations and strong confounder effects on selection mean the reported null effect on cardiovascular mortality could plausibly be explained by selection bias.ConclusionsSelection bias can adversely affect Mendelian randomization investigations, but its impact is likely to be less than other biases. Selection bias is substantial when the effects of the risk factor and confounders on selection are particularly large.
Highlights
Mendelian randomization is the use of genetic information to assess the existence of a causal relationship between a risk factor and an outcome of interest.[1,2] It is the application of instrumental variable analysis in the context of genetic epidemiology, where genetic variants are used as VC The Author(s) 2018
To investigate the utility of inverse probability weighting to correct for selection bias in Mendelian randomization, we extend the simulations presented in the previous section
We simulated data to be representative of a typical Mendelian randomization investigation and showed that selection bias can significantly influence causal effect estimates when selection into the study is strongly influenced by the risk factor
Summary
Mendelian randomization is the use of genetic information to assess the existence of a causal relationship between a risk factor and an outcome of interest.[1,2] It is the application of instrumental variable analysis in the context of genetic epidemiology, where genetic variants are used as VC The Author(s) 2018. Selection bias is usually small compared with other types of bias if the effects of the risk factor and/or outcome on selection are weak or moderate. It can be a real concern if the selection effects are strong. Selection bias affects Mendelian randomization investigations when selection into the study sample depends on a collider between the genetic variant and confounders of the risk factor–outcome association. Results: Selection bias had a severe impact on bias and Type 1 error rates in our simulation study, but only when selection effects were large. Selection bias is substantial when the effects of the risk factor and confounders on selection are large
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