BACKGROUND/AIMS: To illustrate the utility of causal models for research in genetic epidemiology and statistical genetics. Causal models are increasingly applied in risk factor epidemiology, economics, and health policy, but seldom used in statistical genetics or genetic epidemiology. Unlike the statistical models usually used in genetic epidemiology, causal models are explicitly formulated in terms of cause and effect relationships occurring at the individual level. METHODS: We describe two causal models, the sufficient component cause model and the potential outcomes model, and show how key concepts in genetic epidemiology, including penetrance, phenocopies, genetic heterogeneity, etiologic heterogeneity, gene-gene interaction, and gene-environment interaction, can be framed in terms of these causal models. We also illustrate how potential outcomes models can provide insight into the potential for confounding and bias in the measurement of causal effects in genetic studies. RESULTS: Our analysis illustrates how causal models can elucidate the relationships among underlying causal mechanisms and measures obtained from statistical analysis of observed data. CONCLUSION: Causal models can enhance research aimed at identifying causal genes.
BACKGROUND/AIMS: To illustrate the utility of causal models for research in genetic epidemiology and statistical genetics. Causal models are increasingly applied in risk factor epidemiology, economics, and health policy, but seldom used in statistical genetics or genetic epidemiology. Unlike the statistical models usually used in genetic epidemiology, causal models are explicitly formulated in terms of cause and effect relationships occurring at the individual level. METHODS: We describe two causal models, the sufficient component cause model and the potential outcomes model, and show how key concepts in genetic epidemiology, including penetrance, phenocopies, genetic heterogeneity, etiologic heterogeneity, gene-gene interaction, and gene-environment interaction, can be framed in terms of these causal models. We also illustrate how potential outcomes models can provide insight into the potential for confounding and bias in the measurement of causal effects in genetic studies. RESULTS: Our analysis illustrates how causal models can elucidate the relationships among underlying causal mechanisms and measures obtained from statistical analysis of observed data. CONCLUSION: Causal models can enhance research aimed at identifying causal genes.
Authors: Jane E Persons; Paul Lodder; William H Coryell; John I Nurnberger; Jess G Fiedorowicz Journal: Psychiatry Res Date: 2021-11-21 Impact factor: 3.222
Authors: W James Gauderman; Bhramar Mukherjee; Hugues Aschard; Li Hsu; Juan Pablo Lewinger; Chirag J Patel; John S Witte; Christopher Amos; Caroline G Tai; David Conti; Dara G Torgerson; Seunggeun Lee; Nilanjan Chatterjee Journal: Am J Epidemiol Date: 2017-10-01 Impact factor: 5.363