Whole-exome sequencing to identify causative variants in juvenile sudden cardiac death

IF 3.8 3区 医学 Q2 GENETICS & HEREDITY Human Genomics Pub Date : 2024-09-16 DOI:10.1186/s40246-024-00657-x
Martina Modena, Alberto Giannoni, Alberto Aimo, Paolo Aretini, Nicoletta Botto, Simona Vittorini, Andrea Scatena, Diana Bonuccelli, Marco Di Paolo, Michele Emdin
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Abstract

Juvenile sudden cardiac death (SCD) remains unexplained in approximately 40% of cases, leading to a significant emotional burden for the victims’ families and society. Comprehensive investigations are essential to uncover its elusive causes and enable cascade family screening. This study aimed to enhance the identification of likely causative variants in juvenile SCD cases (age ≤ 50 years), particularly when autopsy findings are inconclusive. Autopsy revealed diagnostic structural abnormalities in 46%, non-diagnostic findings in 23%, and structurally normal hearts in 31% of cases. Whole-exome sequencing (WES), refined through a customized virtual gene panel was used to identify variants. These variants were then evaluated using a multidisciplinary approach and a structured variant prioritization scheme. Our extended approach identified likely causative variants in 69% of cases, outperforming the diagnostic yields of both the cardio panel and standard susceptibility gene analysis (50% and 16%, respectively). The extended cardio panel achieved an 80% diagnostic yield in cases with structurally normal hearts, demonstrating its efficacy in challenging scenarios. Notably, half of the positive cases harboured a single variant, while the remainder had two or more variants. This study highlights the efficacy of a multidisciplinary approach employing WES and a tailored virtual gene panel to elucidate the aetiology of juvenile SCD. The findings support the expansion of genetic testing using tailored gene panels and prioritization schemes as part of routine autopsy evaluations to improve the identification of causative variants and potentially facilitate early diagnosis in first-degree relatives.
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通过全基因组测序确定青少年心脏性猝死的致病变异基因
约有 40% 的青少年心脏性猝死(SCD)病例仍然无法解释原因,这给受害者家庭和社会造成了巨大的精神负担。全面的调查对于揭示其难以捉摸的病因和实现级联家庭筛查至关重要。本研究旨在加强对青少年 SCD 病例(年龄小于 50 岁)可能致病变异的鉴定,尤其是在尸检结果不确定的情况下。尸检结果显示,46%的病例有诊断性结构异常,23%的病例无诊断性结果,31%的病例心脏结构正常。全外显子组测序(WES)通过定制的虚拟基因面板进行改进,用于识别变异。然后采用多学科方法和结构化变异优先排序方案对这些变异进行评估。我们的扩展方法在 69% 的病例中识别出了可能的致病变异体,其诊断率超过了心肌病面板和标准易感基因分析(分别为 50% 和 16%)。在心脏结构正常的病例中,扩展的心肌细胞面板的诊断率达到了80%,证明了它在具有挑战性的情况下的有效性。值得注意的是,一半的阳性病例携带一个变异体,而其余病例则携带两个或更多变异体。这项研究强调了采用 WES 和定制虚拟基因面板的多学科方法在阐明幼年 SCD 病因方面的有效性。研究结果支持在常规尸检评估中扩大使用定制基因面板和优先排序计划的基因检测范围,以改进致病变异的鉴定并促进一级亲属的早期诊断。
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来源期刊
Human Genomics
Human Genomics GENETICS & HEREDITY-
CiteScore
6.00
自引率
2.20%
发文量
55
审稿时长
11 weeks
期刊介绍: Human Genomics is a peer-reviewed, open access, online journal that focuses on the application of genomic analysis in all aspects of human health and disease, as well as genomic analysis of drug efficacy and safety, and comparative genomics. Topics covered by the journal include, but are not limited to: pharmacogenomics, genome-wide association studies, genome-wide sequencing, exome sequencing, next-generation deep-sequencing, functional genomics, epigenomics, translational genomics, expression profiling, proteomics, bioinformatics, animal models, statistical genetics, genetic epidemiology, human population genetics and comparative genomics.
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