I-GWAS: Privacy-Preserving Interdependent Genome-Wide Association Studies

Proceedings on Privacy Enhancing Technologies. Privacy Enhancing Technologies Symposium Pub Date : 2023-01-01 DOI:10.56553/popets-2023-0026

Túlio Pascoal, Jérémie Decouchant, Antoine Boutet, Marcus Völp

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引用次数: 1

Abstract

Genome-wide Association Studies (GWASes) identify genomic variations that are statistically associated with a trait, such as a disease, in a group of individuals. Unfortunately, careless sharing of GWAS statistics might give rise to privacy attacks. Several works attempted to reconcile secure processing with privacy-preserving releases of GWASes. However, we highlight that these approaches remain vulnerable if GWASes utilize overlapping sets of individuals and genomic variations. In such conditions, we show that even when relying on state-of-the-art techniques for protecting releases, an adversary could reconstruct the genomic variations of up to 28.6% of participants, and that the released statistics of up to 92.3% of the genomic variations would enable membership inference attacks. We introduce I-GWAS, a novel framework that securely computes and releases the results of multiple possibly interdependent GWASes. I-GWAS continuously releases privacy-preserving and noise-free GWAS results as new genomes become available.

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I-GWAS:隐私保护相互依赖的全基因组关联研究

全基因组关联研究(gwas)在一组个体中确定与某种特征(如疾病)在统计学上相关的基因组变异。不幸的是，不小心分享GWAS统计数据可能会引起隐私攻击。一些工作试图将安全处理与gase的隐私保护版本协调起来。然而，我们强调，如果gase利用重叠的个体和基因组变异集，这些方法仍然是脆弱的。在这种情况下，我们表明，即使依靠最先进的技术来保护释放，攻击者也可以重建高达28.6%的参与者的基因组变异，并且高达92.3%的基因组变异的已发布统计数据将使成员推理攻击成为可能。我们介绍了I-GWAS，这是一个新的框架，可以安全地计算和发布多个可能相互依赖的gwas的结果。随着新基因组的出现，I-GWAS不断发布隐私保护和无噪声的GWAS结果。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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