筛选biobank snp阵列基因分型数据，检测Lynch综合征易感MLH1拷贝数变异。

IF 2 4区医学 Q3 GENETICS & HEREDITY

Familial Cancer Pub Date : 2025-05-26 DOI:10.1007/s10689-025-00476-6

Kimmo Ala-Kulju, Olli Carpén, Maarit Lappalainen, Minja Pehrsson

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引用次数: 0

摘要

有效利用基因生物库数据来支持临床护理将促进个性化医疗的采用。识别医学上可操作的易患癌症变异的携带者，可以加强筛查和随访，以降低疾病风险。MLH1基因的致病性变异导致Lynch综合征，具有显著的癌症发展风险。在这里，我们介绍了一种新的方法，用于大规模筛选基于生物库snp阵列的基因分型数据，以分析拷贝数变异（CNVs）。利用开发的方法，我们分析了赫尔辛基生物银行（Helsinki Biobank）的121 073个样本队列，鉴定出29个MLH1外显子16缺失（MLH1∆Ex16）携带者，其中5个（17%）以前未在医疗保健中被鉴定出来。我们的研究结果表明，从基因分型数据中识别MLH1∆Ex16携带者具有很高的阳性预测值。本文描述的从大型生物库基因分型队列中检测CNV携带者的成本效益方法有助于加强筛查和随访，旨在预防癌症。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

Screening of biobank SNP-array genotyping data to detect Lynch syndrome predisposing MLH1 copy number variants.

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Screening of biobank SNP-array genotyping data to detect Lynch syndrome predisposing MLH1 copy number variants.

Efficient use of genetic biobank data in support of clinical care would enhance the adoption of personalized medicine. Identification of carriers of medically actionable variants that predispose to cancer enables intensified screening and follow-up to decrease disease risk. Pathogenic variants of the MLH1 gene cause Lynch syndrome with a significant risk of developing cancer. Here, we introduce a novel approach for the large-scale screening of biobank SNP-array-based genotyping data to analyze copy-number variants (CNVs). With the method developed, we analyzed the Helsinki Biobank cohort of 121 073 samples and identified 29 MLH1 exon 16 deletion (MLH1∆Ex16) carriers, of which five (17%) had not been previously identified in healthcare. Our results demonstrate a high positive predictive value for the identification of MLH1∆Ex16 carriers from genotyping data. The cost-efficient method for detection of CNV carriers from large biobank genotyping cohorts described here facilitates intensified screening and follow-up aiming to cancer prevention.

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来源期刊

Familial Cancer 医学-遗传学

CiteScore

4.10

自引率

4.50%

发文量

审稿时长

6-12 weeks

期刊介绍： In recent years clinical cancer genetics has become increasingly important. Several events, in particular the developments in DNA-based technology, have contributed to this evolution. Clinical cancer genetics has now matured to a medical discipline which is truly multidisciplinary in which clinical and molecular geneticists work together with clinical and medical oncologists as well as with psycho-social workers. Due to the multidisciplinary nature of clinical cancer genetics most papers are currently being published in a wide variety of journals on epidemiology, oncology and genetics. Familial Cancer provides a forum bringing these topics together focusing on the interests and needs of the clinician. The journal mainly concentrates on clinical cancer genetics. Most major areas in the field shall be included, such as epidemiology of familial cancer, molecular analysis and diagnosis, clinical expression, treatment and prevention, counselling and the health economics of familial cancer.