Further development of the case-only design for assessing gene-environment interaction: evaluation of and adjustment for bias

doi:10.1093/ije/dyh306

IJE Advance Access published online on September 9, 2004
International Journal of Epidemiology, doi:10.1093/ije/dyh306
© 2004 by International Epidemiological Association

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Accepted July 13, 2004

Original paper

Further development of the case-only design for assessing gene-environment interaction: evaluation of and adjustment for bias

Nicolle M. Gatto ¹, Ulka B. Campbell ¹, Andrew G. Rundle ², and Habibul Ahsan ²^*

¹ Department of Epidemiology, Mailman School of Public Health at Columbia University in the City of New York, NY, USA
² Department of Epidemiology, Mailman School of Public Health at Columbia University in the City of New York, NY, USA; Herbert Irving Comprehensive Cancer Center, Columbia University in the City of New York, NY, USA

^* To whom correspondence should be addressed. E-mail: ha37{at}columbia.edu.

Abstract

Background The case-only study for investigating gene-environmentinteractions provides increased statistical efficiency overcase-control analyses. This design has been criticized for beingsusceptible to bias arising from non-independence between thegenetic and environmental factors in the population. Given thatindependence is critical to the validity of case-only estimatesof interaction, researchers frequently use controls to evaluatewhether the independence assumption is tenable, as advised inthe literature. Our work investigates to what extent this approachis appropriate and how non-independence can be accounted forin case-only analyses.

Methods We provide a formula in epidemiologicalterms that illustrates the relationship between the gene-environmentassociation measured among controls and the gene-environmentassociation in the source population. Using this formula, weconducted sensitivity analyses to describe the circumstancesin which controls can be used as proxy for the source populationwhen evaluating gene-environment independence. Lastly, we generatedhypothetical cohort data to examine whether multivariable modellingapproaches can be used to control for non-independence.

ResultsOur sensitivity analyses show that controls should not be usedto evaluate gene-environment independence in the population,even when the baseline risk of disease is low (i.e. 1%), andthe interaction and independent effects are moderate (i.e. riskratio = 2). When the factors are associated, it is possibleto remove bias arising from non-independence using standardstatistical multivariable techniques in case-only analyses.

ConclusionsEven when the disease risk is low, evaluation of gene-environmentindependence in controls does not provide a consistent testfor bias in the caseonly study. Given that control for non-independenceis possible when the source of the non-independence can be conceptualized,the case-only design may still be a useful epidemiological toolfor examining gene-environment interactions.

Keywords: Bias (epidemiology); case-only design; environment; epidemiological methods; genes; interaction; research design.

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