Shrinkage Estimators for Robust and Efficient Inference in Haplotype-Based Case-Control Studies. uri icon

abstract

  • Case-control association studies often aim to investigate the role of genes and gene-environment interactions in terms of the underlying haplotypes (i.e., the combinations of alleles at multiple genetic loci along chromosomal regions). The goal of this article is to develop robust but efficient approaches to the estimation of disease odds-ratio parameters associated with haplotypes and haplotype-environment interactions. We consider "shrinkage" estimation techniques that can adaptively relax the model assumptions of Hardy-Weinberg-Equilibrium and gene-environment independence required by recently proposed efficient "retrospective" methods. Our proposal involves first development of a novel retrospective approach to the analysis of case-control data, one that is robust to the nature of the gene-environment distribution in the underlying population. Next, it involves shrinkage of the robust retrospective estimator toward a more precise, but model-dependent, retrospective estimator using novel empirical Bayes and penalized regression techniques. Methods for variance estimation are proposed based on asymptotic theories. Simulations and two data examples illustrate both the robustness and efficiency of the proposed methods.

published proceedings

  • J Am Stat Assoc

author list (cited authors)

  • Chen, Y., Chatterjee, N., & Carroll, R. J.

citation count

  • 53

complete list of authors

  • Chen, Yi-Hau||Chatterjee, Nilanjan||Carroll, Raymond J

publication date

  • March 2009