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OncoPanel验证:一种用于检测癌症体细胞变异的靶向新一代测序分析方法

Validation of OncoPanel: A Targeted Next-Generation Sequencing Assay for the Detection of Somatic Variants in Cancer.

作者信息

Garcia Elizabeth P, Minkovsky Alissa, Jia Yonghui, Ducar Matthew D, Shivdasani Priyanka, Gong Xin, Ligon Azra H, Sholl Lynette M, Kuo Frank C, MacConaill Laura E, Lindeman Neal I, Dong Fei

机构信息

From the Center for Advanced Molecular Diagnostics, Brigham and Women's Hospital (Drs Garcia, Minkovsky, Jia, Ligon, Sholl, Kuo, MacConaill, Lindeman, and Dong, Messrs Ducar and Gong, and Ms. Shivdasani), and the Center for Cancer Genome Discovery, Dana Farber Cancer Institute (Mr Ducar and Dr MacConaill), Harvard Medical School, Boston, Massachusetts.

出版信息

Arch Pathol Lab Med. 2017 Jun;141(6):751-758. doi: 10.5858/arpa.2016-0527-OA. Epub 2017 Mar 3.

DOI:10.5858/arpa.2016-0527-OA
PMID:28557599
Abstract

CONTEXT

  • The analysis of somatic mutations across multiple genes in cancer specimens may be used to aid clinical decision making. The analytical validation of targeted next-generation sequencing panels is important to assess accuracy and limitations.

OBJECTIVE

  • To report the development and validation of OncoPanel, a custom targeted next-generation sequencing assay for cancer.

DESIGN

  • OncoPanel was designed for the detection of single-nucleotide variants, insertions and deletions, copy number alterations, and structural variants across 282 genes with evidence as drivers of cancer biology. We implemented a validation strategy using formalin-fixed, paraffin-embedded, fresh or frozen samples compared with results obtained by clinically validated orthogonal technologies.

RESULTS

  • OncoPanel achieved 98% sensitivity and 100% specificity for the detection of single-nucleotide variants, and 84% sensitivity and 100% specificity for the detection of insertions and deletions compared with single-gene assays and mass spectrometry-based genotyping. Copy number detection achieved 86% sensitivity and 98% specificity compared with array comparative genomic hybridization. The sensitivity of structural variant detection was 74% compared with karyotype, fluorescence in situ hybridization, and polymerase chain reaction. Sensitivity was affected by inconsistency in the detection of FLT3 and NPM1 alterations and IGH rearrangements due to design limitations. Limit of detection studies demonstrated 98.4% concordance across triplicate runs for variants with allele fraction greater than 0.1 and at least 50× coverage.

CONCLUSIONS

  • The analytical validation of OncoPanel demonstrates the ability of targeted next-generation sequencing to detect multiple types of genetic alterations across a panel of genes implicated in cancer biology.
摘要

背景

  • 对癌症标本中多个基因的体细胞突变进行分析可用于辅助临床决策。靶向新一代测序panel的分析验证对于评估准确性和局限性很重要。

目的

  • 报告OncoPanel的开发和验证情况,OncoPanel是一种定制的癌症靶向新一代测序检测方法。

设计

  • OncoPanel旨在检测282个具有癌症生物学驱动证据的基因中的单核苷酸变异、插入和缺失、拷贝数改变以及结构变异。我们采用了一种验证策略,将福尔马林固定、石蜡包埋、新鲜或冷冻样本与通过临床验证的正交技术获得的结果进行比较。

结果

  • 与单基因检测和基于质谱的基因分型相比,OncoPanel检测单核苷酸变异的灵敏度达到98%,特异性达到100%;检测插入和缺失的灵敏度为84%,特异性为100%。与阵列比较基因组杂交相比,拷贝数检测的灵敏度为86%,特异性为98%。与核型分析、荧光原位杂交和聚合酶链反应相比,结构变异检测的灵敏度为74%。由于设计限制,FLT3和NPM1改变以及IGH重排检测的不一致影响了灵敏度。检测限研究表明,对于等位基因频率大于0.1且覆盖度至少为50×的变异,三次重复检测的一致性为98.4%。

结论

  • OncoPanel的分析验证证明了靶向新一代测序能够检测与癌症生物学相关的一组基因中的多种类型的基因改变。

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