Virtual Gene Panels Have a Superior Diagnostic Yield for Inherited Rare Diseases Relative to Static Panels

IF 7.1 2区 医学 Q1 MEDICAL LABORATORY TECHNOLOGY
Massomeh Sheikh Hassani, Ruchi Jain, Sathishkumar Ramaswamy, Shruti Sinha, Maha El Naofal, Nour Halabi, Sawsan Alyafei, Roudha Alfalasi, Shruti Shenbagam, Alan Taylor, Ahmad Abou Tayoun
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Abstract

Background Exome- or genome-based panels—also known as slices or virtual panels—are now a popular approach that involves comprehensive genomic sequencing while restricting analysis to subsets of genes based on patients’ phenotypes. This flexible strategy enables frequent gene updates based on novel disease associations as well as reflexing to analyzing other genes up to the whole exome or genome. With recent improvements addressing limitations associated with virtual panels, the advantages of this approach, relative to static custom-based panels, remain to be systematically characterized. Methods Here we perform slice testing on 1014 patients (50.5% females; average age 17 years) referred from multiple pediatric clinics within a single center in the Middle East (83% Arab population). Results Initial analysis uncovered molecular diagnoses for 235 patients for a diagnostic yield of 23% (235/1014). “On the fly” focused analysis in most negative cases (N = 779) identified clinically significant variants correlating with patients’ presentations in genes outside the originally ordered panel for another 35 patients (3.5% or 35/1024) increasing the overall diagnostic yield to 27%. The pathogenic variants underlying the additional cases (13% of all positive cases) were excluded from the original “panel” gene list, mainly as result of issues related to panel selection, novel gene–disease associations, phenotype spectrum broadening, or gene lists variability. The additional findings led to changes in clinical management in most patients (94%). Conclusions Our findings support slice testing as an efficient and flexible platform that facilitates updates to gene lists to achieve high clinical sensitivity and utility.
与静态面板相比,虚拟基因面板对遗传性罕见病的诊断率更高
背景 基于外显子组或基因组的基因组分析--又称切片分析或虚拟分析--是目前一种流行的方法,它包括全面的基因组测序,同时根据患者的表型限制对基因子集进行分析。这种灵活的策略可根据新的疾病关联频繁更新基因,并可反射性地分析其他基因,直至整个外显子组或基因组。虽然最近的改进解决了与虚拟面板相关的局限性,但相对于静态的定制面板,这种方法的优势仍有待系统鉴定。方法 在这里,我们对中东地区(阿拉伯人口占 83%)一个中心的多个儿科诊所转来的 1014 名患者(50.5% 为女性,平均年龄 17 岁)进行了切片检测。结果 初步分析发现了 235 名患者的分子诊断结果,诊断率为 23%(235/1014)。对大多数阴性病例(N = 779)进行的 "即时 "重点分析发现,另有 35 名患者(3.5% 或 35/1024)的临床重要变异与患者表现相关,这些变异的基因不在最初订购的研究小组范围内,从而将总体诊断率提高到 27%。新增病例(占所有阳性病例的 13%)的致病变异基因被排除在最初的 "面板 "基因列表之外,这主要是由于面板选择、新基因与疾病相关、表型谱扩大或基因列表变异等相关问题造成的。额外的发现导致大多数患者(94%)的临床管理发生了变化。结论 我们的研究结果表明,切片检验是一种高效灵活的平台,可促进基因列表的更新,从而实现较高的临床灵敏度和实用性。
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来源期刊
Clinical chemistry
Clinical chemistry 医学-医学实验技术
CiteScore
11.30
自引率
4.30%
发文量
212
审稿时长
1.7 months
期刊介绍: Clinical Chemistry is a peer-reviewed scientific journal that is the premier publication for the science and practice of clinical laboratory medicine. It was established in 1955 and is associated with the Association for Diagnostics & Laboratory Medicine (ADLM). The journal focuses on laboratory diagnosis and management of patients, and has expanded to include other clinical laboratory disciplines such as genomics, hematology, microbiology, and toxicology. It also publishes articles relevant to clinical specialties including cardiology, endocrinology, gastroenterology, genetics, immunology, infectious diseases, maternal-fetal medicine, neurology, nutrition, oncology, and pediatrics. In addition to original research, editorials, and reviews, Clinical Chemistry features recurring sections such as clinical case studies, perspectives, podcasts, and Q&A articles. It has the highest impact factor among journals of clinical chemistry, laboratory medicine, pathology, analytical chemistry, transfusion medicine, and clinical microbiology. The journal is indexed in databases such as MEDLINE and Web of Science.
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