联合序列和拷贝数分析提高了肢带型和其他肌病的诊断能力。

Combined sequence and copy number analysis improves diagnosis of limb girdle and other myopathies.

机构信息

Revvity Omics, Pittsburgh, Pennsylvania, USA.

Sanofi, Cambridge, Massachusetts, USA.

出版信息

Ann Clin Transl Neurol. 2023 Nov;10(11):2092-2104. doi: 10.1002/acn3.51896. Epub 2023 Sep 8.

DOI:10.1002/acn3.51896

PMID:37688281

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10647006/

Abstract

OBJECTIVE

Clinical and genetic heterogeneities make diagnosis of limb-girdle muscular dystrophy (LGMD) and other overlapping disorders of muscle weakness complicated and expensive. We aimed to develop a comprehensive next generation sequence-based multi-gene panel ("The Lantern Focused Neuromuscular Panel") to detect both sequence variants and copy number variants in one assay.

METHODS

Patients with clinical diagnosis of LGMD or other overlapping muscular dystrophies in the United States were tested by PerkinElmer Genomics in 2018-2021 via "The Lantern Project," a sponsored diagnostic testing program. Sixty-six genes related to LGMD subtypes- and other myopathies were investigated. Main outcomes were diagnostic yield, gene-variant spectrum, and LGMD subtypes' prevalence.

RESULTS

Molecular diagnosis was established in 19.6% (1266) of 6473 cases. Major genes contributing to LGMD were identified including CAPN3 (5.4%, 68), DYSF (4.0%, 51), GAA (3.7%, 47), ANO5 (3.6%, 45), and FKRP (2.7%, 34). Genes of other overlapping MD subtypes identified included PABPN1 (10.5%, 133), VCP (2.2%, 28), MYOT (1.2% 15), LDB3 (1.0%, 13), COL6A1 (1.5%, 19), FLNC (1.1%, 14), and DNAJB6 (0.8%, 10). Different sizes of copy number variants including single exon, multi-exon, and whole genes were identified in 7.5% (95) cases in genes including DMD, EMD, CAPN3, ANO5, SGCG, COL6A2, DOK7, and LAMA2.

INTERPRETATION

"The Lantern Focused Neuromuscular Panel" enables identification of LGMD subtypes and other myopathies with overlapping clinical features. Prevalence of some MD subtypes was higher than previously reported. Widespread deployment of this comprehensive NGS panel has the potential to ensure early, accurate diagnosis as well as re-define MD epidemiology.

摘要

目的

肢带型肌营养不良症（LGMD）和其他肌肉无力的重叠疾病在临床表现和遗传上存在异质性，这使得其诊断既复杂又昂贵。本研究旨在开发一种综合的下一代基于序列的多基因检测panel（“Lantern Focused Neuromuscular Panel”），以在一次检测中同时检测序列变异和拷贝数变异。

方法

2018 年至 2021 年，美国的临床诊断为 LGMD 或其他重叠性肌营养不良症的患者参加了 PerkinElmer Genomics 的“Lantern Project”赞助的诊断测试项目。对 66 个与 LGMD 亚型和其他肌病相关的基因进行了研究。主要结局为诊断率、基因变异谱和 LGMD 亚型的患病率。

结果

在 6473 例病例中，有 19.6%（1266 例）确定了分子诊断。确定了导致 LGMD 的主要基因，包括 CAPN3（5.4%，68 例）、DYSF（4.0%，51 例）、GAA（3.7%，47 例）、ANO5（3.6%，45 例）和 FKRP（2.7%，34 例）。还鉴定出其他重叠性 MD 亚型的基因包括 PABPN1（10.5%，133 例）、VCP（2.2%，28 例）、MYOT（1.2%，15 例）、LDB3（1.0%，13 例）、COL6A1（1.5%，19 例）、FLNC（1.1%，14 例）和 DNAJB6（0.8%，10 例）。在包括 DMD、EMD、CAPN3、ANO5、SGCG、COL6A2、DOK7 和 LAMA2 在内的基因中，有 7.5%（95 例）的病例发现了不同大小的拷贝数变异，包括单外显子、多外显子和整个基因。

结论

“Lantern Focused Neuromuscular Panel”可识别具有重叠临床表现的 LGMD 亚型和其他肌病。一些 MD 亚型的患病率高于先前报道。广泛应用这种综合的 NGS panel 有可能确保早期、准确的诊断，并重新定义 MD 的流行病学。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/cb21/10647006/5de8e5748616/ACN3-10-2092-g001.jpg

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联合序列和拷贝数分析提高了肢带型和其他肌病的诊断能力。

Combined sequence and copy number analysis improves diagnosis of limb girdle and other myopathies.

机构信息

出版信息

OBJECTIVE

METHODS

RESULTS

INTERPRETATION

目的

方法

结果

结论

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