Shrinkage estimators for robust and efficient inference in haplotype-based case-control studies

Yi Hau Chen; Nilanjan Chatterjee; Raymond J. Carroll

doi:10.1198/jasa.2009.0104

Shrinkage estimators for robust and efficient inference in haplotype-based case-control studies

Yi Hau Chen, Nilanjan Chatterjee, Raymond J. Carroll

Research output: Contribution to journal › Article › peer-review

48 Scopus citations

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.

Original language	English (US)
Pages (from-to)	220-233
Number of pages	14
Journal	Journal of the American Statistical Association
Volume	104
Issue number	485
DOIs	https://doi.org/10.1198/jasa.2009.0104
State	Published - Mar 2009
Externally published	Yes

Keywords

Empirical bayes
Genetic epidemiology
LASSO (Least Absolute Shrinkage and Selection Operator)
Model averaging
Model robustness
Model selection

ASJC Scopus subject areas

Statistics and Probability
Statistics, Probability and Uncertainty

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10.1198/jasa.2009.0104

Cite this

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title = "Shrinkage estimators for robust and efficient inference in haplotype-based case-control studies",

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.",

keywords = "Empirical bayes, Genetic epidemiology, LASSO (Least Absolute Shrinkage and Selection Operator), Model averaging, Model robustness, Model selection",

author = "Chen, {Yi Hau} and Nilanjan Chatterjee and Carroll, {Raymond J.}",

note = "Funding Information: Yi-Hau Chen is Associate Research Member with the Institute of Statistical Science, Academia Sinica, Taipei 11529, Taiwan, Republic of China (E-mail: yhchen@stat.sinica.edu.tw). Nilanjan Chatterjee is Chief and Principle Investigator with the Division of Cancer Epidemiology and Genetics, National Cancer Institute, National Institute of Health, Department of Health and Human Services, Rockville Maryland 20852 (E-mail: chattern@mail.nih.gov). Raymond J. Carroll is Distinguished Professor with the Department of Statistics, Texas A&M University, College Station, Texas 77843-3143 (E-mail: carroll@ stat.tamu.edu). Chen{\textquoteright}s research was supported by the National Science Council of ROC (NSC 95-2118-M-001-022-MY3). Chatterjee{\textquoteright}s research was supported by a gene-environment initiative grant from the National Heart Lung and Blood Institute (RO1HL091172-01) and by the Intramural Research Program of the National Cancer Institute. Carroll{\textquoteright}s research was supported by grants from the National Cancer Institute (CA57030, CA104620) and by Award Number KUS-CI-016-04, made by King Abdullah University of Science and Technology (KAUST). The authors thank the editor, associate editor, and referees for their helpful comments.",

year = "2009",

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doi = "10.1198/jasa.2009.0104",

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AU - Chen, Yi Hau

AU - Chatterjee, Nilanjan

AU - Carroll, Raymond J.

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N2 - 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.

AB - 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.

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KW - Model averaging

KW - Model robustness

KW - Model selection

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Shrinkage estimators for robust and efficient inference in haplotype-based case-control studies

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Keywords

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