Alfares Ahmed A, Kelly Melissa A, McDermott Gregory, Funke Birgit H, Lebo Matthew S, Baxter Samantha B, Shen Jun, McLaughlin Heather M, Clark Eugene H, Babb Larry J, Cox Stephanie W, DePalma Steven R, Ho Carolyn Y, Seidman J G, Seidman Christine E, Rehm Heidi L
Laboratory for Molecular Medicine, Partners Healthcare Personalized Medicine, Boston, Massachusetts, USA.
Department of Pediatrics, Qassim University, Buraydah, Saudi Arabia.
Genet Med. 2015 Nov;17(11):880-8. doi: 10.1038/gim.2014.205. Epub 2015 Jan 22.
Hypertrophic cardiomyopathy (HCM) is caused primarily by pathogenic variants in genes encoding sarcomere proteins. We report genetic testing results for HCM in 2,912 unrelated individuals with nonsyndromic presentations from a broad referral population over 10 years.
Genetic testing was performed by Sanger sequencing for 10 genes from 2004 to 2007, by HCM CardioChip for 11 genes from 2007 to 2011 and by next-generation sequencing for 18, 46, or 51 genes from 2011 onward.
The detection rate is ~32% among unselected probands, with inconclusive results in an additional 15%. Detection rates were not significantly different between adult and pediatric probands but were higher in females compared with males. An expanded gene panel encompassing more than 50 genes identified only a very small number of additional pathogenic variants beyond those identifiable in our original panels, which examined 11 genes. Familial genetic testing in at-risk family members eliminated the need for longitudinal cardiac evaluations in 691 individuals. Based on the projected costs derived from Medicare fee schedules for the recommended clinical evaluations of HCM family members by the American College of Cardiology Foundation/American Heart Association, our data indicate that genetic testing resulted in a minimum cost savings of about $0.7 million.
Clinical HCM genetic testing provides a definitive molecular diagnosis for many patients and provides cost savings to families. Expanded gene panels have not substantively increased the clinical sensitivity of HCM testing, suggesting major additional causes of HCM still remain to be identified.
肥厚型心肌病(HCM)主要由编码肌节蛋白的基因中的致病变异引起。我们报告了10年间从广泛转诊人群中选取的2912名非综合征性表现的无关个体的HCM基因检测结果。
2004年至2007年,通过桑格测序对10个基因进行基因检测;2007年至2011年,通过HCM心脏芯片对11个基因进行检测;2011年起,通过下一代测序对18、46或51个基因进行检测。
在未经选择的先证者中,检测率约为32%,另有15%的结果不确定。成人和儿童先证者的检测率无显著差异,但女性的检测率高于男性。一个包含50多个基因的扩展基因 panel 仅鉴定出极少数在我们最初检测的11个基因的 panel 中无法鉴定的额外致病变异。对高危家庭成员进行家族基因检测,使691名个体无需进行长期心脏评估。根据美国心脏病学会基金会/美国心脏协会对HCM家庭成员推荐的临床评估的医疗保险费用表推算出的预计成本,我们的数据表明基因检测至少节省了约70万美元的成本。
临床HCM基因检测为许多患者提供了明确的分子诊断,并为家庭节省了成本。扩展基因 panel 并未实质性提高HCM检测的临床敏感性,这表明HCM的主要其他病因仍有待确定。
