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用于临床实验室的新一代测序癌症检测板的验证

Validation of a next-generation-sequencing cancer panel for use in the clinical laboratory.

作者信息

Simen Birgitte B, Yin Lina, Goswami Chirayu P, Davis Kathleen O, Bajaj Renu, Gong Jerald Z, Peiper Stephen C, Johnson Erica S, Wang Zi-Xuan

机构信息

From the Genomic Pathology Laboratory, Thomas Jefferson University Hospital (Dr Simen, Mr Goswami, and Ms Davis), Philadelphia, Pennsylvania; and the Departments of Pathology, Anatomy, & Cell Biology (Drs Yin, Bajaj, Gong, Peiper, Johnson, and Wang); and Surgery (Dr Wang), Thomas Jefferson University, Philadelphia. Drs Simen and Yin, Mr Goswami, and Ms Davis contributed equally to this article.

出版信息

Arch Pathol Lab Med. 2015 Apr;139(4):508-17. doi: 10.5858/arpa.2013-0710-OA. Epub 2014 Oct 30.

Abstract

CONTEXT

Next-generation sequencing allows for high-throughput processing and sensitive variant detection in multiple genes from small samples. For many diseases, including cancer, a comprehensive mutational profile of a targeted list of genes can be used to simultaneously inform patient care, establish eligibility for ongoing clinical trials, and further research.

OBJECTIVE

To validate a pan-cancer, next-generation-sequencing assay for use in the clinical laboratory.

DESIGN

DNA was extracted from 68 clinical specimens (formalin-fixed, paraffin-embedded; fine-needle aspirates; peripheral blood; or bone marrow) and 5 normal controls. Sixty-four DNA samples (94%; 64 of 68) were successfully processed with the TruSeq Amplicon Cancer Panel (Illumina Inc, San Diego, California) and sequenced in 4 sequencing runs. The data were analyzed at 4 different filter settings for sequencing coverage and variant frequency cutoff.

RESULTS

Libraries created from 40 specimens could be successfully sequenced in a single run and still yield sufficient coverage for robust data analysis of individual samples. Sensitivity for mutation detection down to 5% was demonstrated using dilutions of clinical specimens and control samples. The test was highly repeatable and reproducible and showed 100% concordance with clinically validated Sanger sequencing results. Comparison to an alternate next-generation sequencing technology was performed by also processing 9 of the specimens with the AmpliSeq Cancer Hotspot Panel (version 2; Life Technologies, Grand Island, New York). Thirty of the 31 (97%) TruSeq-detected variants covered by the designs of both panels were confirmed.

CONCLUSIONS

A sensitive, high-throughput, pan-cancer mutation panel for sequencing of cancer hot-spot mutations in 42 genes was validated for routine use in clinical testing.

摘要

背景

新一代测序技术能够对少量样本中的多个基因进行高通量处理和灵敏的变异检测。对于包括癌症在内的许多疾病,一份靶向基因列表的全面突变图谱可用于同时指导患者护理、确定参与正在进行的临床试验的资格以及进一步的研究。

目的

验证一种用于临床实验室的泛癌新一代测序检测方法。

设计

从68份临床标本(福尔马林固定石蜡包埋标本、细针穿刺抽吸物、外周血或骨髓)和5份正常对照中提取DNA。64份DNA样本(94%;68份中的64份)使用TruSeq Amplicon癌症检测板(Illumina公司,加利福尼亚州圣地亚哥)成功进行处理,并在4次测序运行中进行测序。对数据在4种不同的过滤设置下进行分析,以确定测序覆盖度和变异频率阈值。

结果

从40份标本构建的文库能够在单次运行中成功测序,并且仍能产生足够的覆盖度,以便对单个样本进行可靠的数据分析。使用临床标本和对照样本的稀释液证明了对低至5%的突变检测灵敏度。该检测具有高度的可重复性和再现性,并且与经过临床验证的桑格测序结果显示出100%的一致性。通过使用AmpliSeq癌症热点检测板(第2版;Life Technologies公司,纽约州大岛)对9份标本进行处理,与另一种新一代测序技术进行了比较。两个检测板设计所涵盖的31个TruSeq检测到的变异中有30个(97%)得到了确认。

结论

一种灵敏、高通量的泛癌突变检测板,用于对42个基因中的癌症热点突变进行测序,已被验证可用于临床检测的常规应用。

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