Cardiomyopathies in 100,000 genomes project: interval evaluation improves diagnostic yield and informs strategies for ongoing gene discovery.

IF 10.4 1区 生物学 Q1 GENETICS & HEREDITY
Katherine S Josephs, Eleanor G Seaby, Philippa May, Pantazis Theotokis, Jing Yu, Avgi Andreou, Hannah Sinclair, Deborah Morris-Rosendahl, Ellen R A Thomas, Sarah Ennis, Angharad M Roberts, James S Ware
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引用次数: 0

Abstract

Background: Cardiomyopathies are clinically important conditions, with a strong genetic component. National genomic initiatives such as 100,000 Genome Project (100KGP) provide opportunity to study these rare conditions at scale beyond conventional research studies.

Methods: We present the clinical and molecular characteristics of the 100KGP cohort, comparing paediatric and adult probands with diverse cardiomyopathies. We assessed the diagnostic yield and spectrum of genetic aetiologies across clinical presentations. We re-analysed existing genomic data using an updated analytical strategy (revised gene panels; unbiased analyses of de novo variants; and improved variant prioritisation strategies) to identify new causative variants in genetically unsolved children.

Results: We identified 1918 individuals (1563 probands, 355 relatives) with cardiomyopathy (CM) in 100KGP. Probands, comprising 273 children and 1290 adults, were enrolled under > 55 different recruitment categories. Paediatric probands had higher rates of co-existing congenital heart disease (12%) compared to adults (0.9%). Diagnostic yield following 100KGP's initial analysis was significantly higher for children (19%) than for adults (11%) with 11% of diagnoses overall made in genes not on the existing UK paediatric or syndromic CM panel. Our re-analysis of paediatric probands yields a potential diagnosis in 40%, identifying new probable or possible diagnoses in 49 previously unsolved paediatric cases. Structural and intronic variants accounted for 11% of all potential diagnoses in children while de novo variants were identified in 17%.

Conclusions: 100KGP demonstrates the benefit of genome sequencing over a standalone panel in CM. Re-analysis of paediatric CM probands allowed a significant uplift in diagnostic yield, emphasising the importance of iterative re-evaluation in genomic studies. Despite these efforts, many children with CM remain without a genetic diagnosis, highlighting the need for better gene-disease relationship curation and ongoing data sharing. The 100KGP CM cohort is likely to be useful for further gene discovery, but heterogeneous ascertainment and key technical limitations must be understood and addressed.

十万个基因组中的心肌病项目:间隔评估提高了诊断率,并为正在进行的基因发现提供了战略信息。
背景:心肌病是临床上的重要疾病,具有很强的遗传性。100,000基因组计划(100KGP)等国家基因组计划为研究这些罕见疾病提供了机会,其规模超过了传统的研究:方法:我们介绍了 100KGP 队列的临床和分子特征,比较了患有各种心肌病的儿童和成人病例。我们评估了不同临床表现的诊断率和遗传病因谱。我们使用更新的分析策略(修订基因面板;无偏见地分析新变异;改进变异优先排序策略)重新分析了现有的基因组数据,以便在基因问题尚未解决的儿童中发现新的致病变异:我们在 100KGP 中发现了 1918 名心肌病(CM)患者(1563 名原发者,355 名亲属)。包括 273 名儿童和 1290 名成人在内的受试者按 55 种不同的招募类别进行了登记。与成人(0.9%)相比,儿童患者合并先天性心脏病的比例更高(12%)。根据 100KGP 的初步分析,儿童的诊断率(19%)明显高于成人(11%),其中有 11% 的诊断结果与英国现有儿科或综合征 CM 面板中没有的基因有关。我们对儿科疑似病例的再分析结果显示,40%的病例有可能确诊,在 49 个以前未解决的儿科病例中确定了新的可能或可能的诊断。结构变异和内含子变异占儿童所有潜在诊断的11%,而新发现的变异占17%:结论:100KGP证明了基因组测序比单独的CM基因组测序更有优势。对儿科 CM 疑似患者进行再分析可显著提高诊断率,强调了基因组研究中反复再评估的重要性。尽管做出了这些努力,但仍有许多患 CM 的儿童没有得到基因诊断,这凸显了加强基因与疾病关系的整理和持续数据共享的必要性。100KGP CM 队列可能有助于进一步发现基因,但必须了解和解决异质性确定和关键技术限制的问题。
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来源期刊
Genome Medicine
Genome Medicine GENETICS & HEREDITY-
CiteScore
20.80
自引率
0.80%
发文量
128
审稿时长
6-12 weeks
期刊介绍: Genome Medicine is an open access journal that publishes outstanding research applying genetics, genomics, and multi-omics to understand, diagnose, and treat disease. Bridging basic science and clinical research, it covers areas such as cancer genomics, immuno-oncology, immunogenomics, infectious disease, microbiome, neurogenomics, systems medicine, clinical genomics, gene therapies, precision medicine, and clinical trials. The journal publishes original research, methods, software, and reviews to serve authors and promote broad interest and importance in the field.
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