Association of Arrhythmia-Related Genetic Variants With Phenotypes Documented in Electronic Medical Records.

Sara L Van Driest, Quinn S Wells, Sarah Stallings, William S Bush, Adam Gordon, Deborah A Nickerson, Jerry H Kim, David R Crosslin, Gail P Jarvik, David S Carrell, James D Ralston, Eric B Larson, Suzette J Bielinski, Janet E Olson, Zi Ye, Iftikhar J Kullo, Noura S Abul-Husn, Stuart A Scott, Erwin Bottinger, Berta Almoguera, John Connolly, Rosetta Chiavacci, Hakon Hakonarson, Laura J Rasmussen-Torvik, Vivian Pan, Stephen D Persell, Maureen Smith, Rex L Chisholm, Terrie E Kitchner, Max M He, Murray H Brilliant, John R Wallace, Kimberly F Doheny, M Benjamin Shoemaker, Rongling Li, Teri A Manolio, Thomas E Callis, Daniela Macaya, Marc S Williams, David Carey, Jamie D Kapplinger, Michael J Ackerman, Marylyn D Ritchie, Joshua C Denny, Dan M Roden
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Abstract

Importance: Large-scale DNA sequencing identifies incidental rare variants in established Mendelian disease genes, but the frequency of related clinical phenotypes in unselected patient populations is not well established. Phenotype data from electronic medical records (EMRs) may provide a resource to assess the clinical relevance of rare variants.

Objective: To determine the clinical phenotypes from EMRs for individuals with variants designated as pathogenic by expert review in arrhythmia susceptibility genes.

Design, setting, and participants: This prospective cohort study included 2022 individuals recruited for nonantiarrhythmic drug exposure phenotypes from October 5, 2012, to September 30, 2013, for the Electronic Medical Records and Genomics Network Pharmacogenomics project from 7 US academic medical centers. Variants in SCN5A and KCNH2, disease genes for long QT and Brugada syndromes, were assessed for potential pathogenicity by 3 laboratories with ion channel expertise and by comparison with the ClinVar database. Relevant phenotypes were determined from EMRs, with data available from 2002 (or earlier for some sites) through September 10, 2014.

Exposures: One or more variants designated as pathogenic in SCN5A or KCNH2.

Main outcomes and measures: Arrhythmia or electrocardiographic (ECG) phenotypes defined by International Classification of Diseases, Ninth Revision (ICD-9) codes, ECG data, and manual EMR review.

Results: Among 2022 study participants (median age, 61 years [interquartile range, 56-65 years]; 1118 [55%] female; 1491 [74%] white), a total of 122 rare (minor allele frequency <0.5%) nonsynonymous and splice-site variants in 2 arrhythmia susceptibility genes were identified in 223 individuals (11% of the study cohort). Forty-two variants in 63 participants were designated potentially pathogenic by at least 1 laboratory or ClinVar, with low concordance across laboratories (Cohen κ = 0.26). An ICD-9 code for arrhythmia was found in 11 of 63 (17%) variant carriers vs 264 of 1959 (13%) of those without variants (difference, +4%; 95% CI, -5% to +13%; P = .35). In the 1270 (63%) with ECGs, corrected QT intervals were not different in variant carriers vs those without (median, 429 vs 439 milliseconds; difference, -10 milliseconds; 95% CI, -16 to +3 milliseconds; P = .17). After manual review, 22 of 63 participants (35%) with designated variants had any ECG or arrhythmia phenotype, and only 2 had corrected QT interval longer than 500 milliseconds.

Conclusions and relevance: Among laboratories experienced in genetic testing for cardiac arrhythmia disorders, there was low concordance in designating SCN5A and KCNH2 variants as pathogenic. In an unselected population, the putatively pathogenic genetic variants were not associated with an abnormal phenotype. These findings raise questions about the implications of notifying patients of incidental genetic findings.

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心律失常相关基因变异与电子病历中记录的表型的关联。
重要性:大规模的DNA测序可识别已确定的孟德尔疾病基因中的偶然罕见变异,但在未经选择的患者群体中,相关临床表型的频率尚未得到很好的确定。电子病历(EMR)中的表型数据可为评估罕见变异的临床相关性提供资源:目的:从电子病历中确定心律失常易感基因专家审查认定为致病变异个体的临床表型:这项前瞻性队列研究纳入了 2012 年 10 月 5 日至 2013 年 9 月 30 日期间为电子病历和基因组学网络药物基因组学项目从美国 7 家学术医疗中心招募的 2022 名非抗心律失常药物暴露表型个体。长 QT 和 Brugada 综合征的疾病基因 SCN5A 和 KCNH2 的变异由 3 个具有离子通道专业知识的实验室进行潜在致病性评估,并与 ClinVar 数据库进行比较。相关表型由 EMR 确定,数据可从 2002 年(或某些站点的更早)至 2014 年 9 月 10 日获得:SCN5A或KCNH2的一个或多个变异被指定为致病性:心律失常或心电图(ECG)表型由国际疾病分类第九版(ICD-9)代码、ECG数据和手动EMR审查定义:在 2022 名研究参与者(中位年龄 61 岁[四分位数间距 56-65 岁];女性 1118 人[55%];白人 1491 人[74%])中,共有 122 例罕见病(小等位基因频率结论和相关性):在有心律失常基因检测经验的实验室中,将 SCN5A 和 KCNH2 变体定为致病基因的一致性较低。在未经筛选的人群中,假定的致病基因变异与异常表型无关。这些发现提出了将偶然的基因发现通知患者的意义问题。
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