全基因组关联研究中的惩罚回归与风险预测

IF 2.1 4区数学 Q3 COMPUTER SCIENCE, ARTIFICIAL INTELLIGENCE

Statistical Analysis and Data Mining Pub Date : 2013-08-01 DOI:10.1002/sam.11183

Erin Austin, Wei Pan, Xiaotong Shen

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引用次数: 0

摘要

个性化医疗的一项重要任务是根据一个人的基因组，如大量的单核苷酸多态性（SNPs）来预测疾病风险。全基因组关联研究（GWAS）为研究人员提供了 SNP 和表型数据。研究人员面临的一个关键问题是如何最有效地预测疾病风险。在这种情况下，带有变量选择功能的惩罚回归（如 LASSO 和 SCAD）被认为很有前途。然而，LASSO、SCAD 和许多其他惩罚性回归技术所采用的稀疏性假设在这里可能并不适用：目前的假设是，许多常见疾病与许多具有小到中等影响的 SNP 相关。在本文中，我们利用威康信托病例控制联盟（WTCCC）的 GWAS 数据，研究了各种非惩罚性和惩罚性回归方法在真正稀疏或非稀疏模型下的表现。我们发现，一般来说，惩罚回归优于非惩罚回归；对于稀疏模型，SCAD、TLP 和 LASSO 表现最佳，而对于非稀疏模型，弹性网回归是赢家，其次是脊回归、TLP 和 LASSO。

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Penalized Regression and Risk Prediction in Genome-Wide Association Studies.

An important task in personalized medicine is to predict disease risk based on a person's genome, e.g. on a large number of single-nucleotide polymorphisms (SNPs). Genome-wide association studies (GWAS) make SNP and phenotype data available to researchers. A critical question for researchers is how to best predict disease risk. Penalized regression equipped with variable selection, such as LASSO and SCAD, is deemed to be promising in this setting. However, the sparsity assumption taken by the LASSO, SCAD and many other penalized regression techniques may not be applicable here: it is now hypothesized that many common diseases are associated with many SNPs with small to moderate effects. In this article, we use the GWAS data from the Wellcome Trust Case Control Consortium (WTCCC) to investigate the performance of various unpenalized and penalized regression approaches under true sparse or non-sparse models. We find that in general penalized regression outperformed unpenalized regression; SCAD, TLP and LASSO performed best for sparse models, while elastic net regression was the winner, followed by ridge, TLP and LASSO, for non-sparse models.

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来源期刊

Statistical Analysis and Data Mining COMPUTER SCIENCE, ARTIFICIAL INTELLIGENCEC-COMPUTER SCIENCE, INTERDISCIPLINARY APPLICATIONS

CiteScore

3.20

自引率

7.70%

发文量

期刊介绍： Statistical Analysis and Data Mining addresses the broad area of data analysis, including statistical approaches, machine learning, data mining, and applications. Topics include statistical and computational approaches for analyzing massive and complex datasets, novel statistical and/or machine learning methods and theory, and state-of-the-art applications with high impact. Of special interest are articles that describe innovative analytical techniques, and discuss their application to real problems, in such a way that they are accessible and beneficial to domain experts across science, engineering, and commerce. The focus of the journal is on papers which satisfy one or more of the following criteria: Solve data analysis problems associated with massive, complex datasets Develop innovative statistical approaches, machine learning algorithms, or methods integrating ideas across disciplines, e.g., statistics, computer science, electrical engineering, operation research. Formulate and solve high-impact real-world problems which challenge existing paradigms via new statistical and/or computational models Provide survey to prominent research topics.