Új lehetőség a szisztolés szívelégtelenség (HFrEF) kezelésében: omecamtiv-mecarbil

Cardiologia Hungarica Pub Date : 1900-01-01 DOI:10.26430/chungarica.2021.51.2.118

A. Ráduly, Attila Tóth, Z. Papp, A. Borbély

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Abstract

Hypertrophic cardiomyopathy (HCM) is the most common genetic cardiovascular disorder worldwide which exhibits considerable genetic heterogeneity. Widespread utilization of next-generation sequencing (NGS) in HCM has uncovered substantial genetic variation and highlighted the importance of a standardized approach to variant interpretation. According to this, accurate and consistent interpretation of sequence variants is essential for effective clinical care for individuals and their families with HCM. With this regard, the 2015 guidelines from the American College of Medical Genetics and Genomics and the Association for Molecular Pathology (ACMG/AMP) were widely applicable, but several elements lacked specificity for given genes or diseases. The latter guideline was adapted for the most frequent causative HCM gene, the beta myosin heavy chain gene (MYH7) by the ClinGen (Clinical Genome Resource) expert panel, the Inherited Cardiomyopathy Expert Panel. Due to the adaptation, the guideline became gene-specific, with general considerations which are widely adaptable for most of the causative genes in HCM. Based on the modified guideline, web-based interpretation algorithms have been developed which integrate data from population databases and define pathogenicity of different variants independent of the observer, therefore aiding standardized clinical interpretation of genetic testing. The latter approach serves as a basis for recommendation for genetic testing in the recent ACC/AHA HCM guideline published in 2020. The current review is meant to compile the latest advances in HCM genetic testing in clinical practice, while bringing into focus some of the ongoing challenges clinical geneticists are still facing. Although nowadays the interpretation of genetic findings is two steps closer to a more accurate approach due to gene adaptation and automatization, the multitude of putative causative genes have been once again reduced to the 8 sarcomere genes, a backward step.

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肥厚性心肌病(HCM)是世界范围内最常见的遗传性心血管疾病，具有相当大的遗传异质性。下一代测序(NGS)在HCM中的广泛应用揭示了大量的遗传变异，并强调了标准化方法对变异解释的重要性。因此，准确和一致的序列变异解释对于HCM患者及其家庭的有效临床护理至关重要。在这方面，2015年美国医学遗传学与基因组学学院和分子病理学协会(ACMG/AMP)的指南广泛适用，但有几个要素缺乏特定基因或疾病的特异性。后一种指南被ClinGen(临床基因组资源)专家小组(遗传性心肌病专家小组)适用于最常见的HCM致病基因- - -肌球蛋白重链基因(MYH7)。由于调整，该指南具有基因特异性，具有广泛适用于HCM中大多数致病基因的一般考虑。根据修订后的指南，基于网络的解释算法已经开发出来，该算法整合了来自人群数据库的数据，并独立于观察者定义不同变异的致病性，因此有助于基因检测的标准化临床解释。后一种方法是最近于2020年发布的ACC/AHA HCM指南中推荐基因检测的基础。当前的综述旨在汇编HCM基因检测在临床实践中的最新进展，同时关注临床遗传学家仍然面临的一些持续挑战。尽管由于基因适应和自动化，现在对遗传发现的解释离更准确的方法又近了两步，但假定的致病基因又一次减少到8个肌节基因，这是一个倒退。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Cardiologia Hungarica

CiteScore

0.40

自引率

0.00%

发文量