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技术、生物信息学和变异评估方法在髓系恶性肿瘤靶向二代测序panel验证中的整合

Integration of Technical, Bioinformatic, and Variant Assessment Approaches in the Validation of a Targeted Next-Generation Sequencing Panel for Myeloid Malignancies.

作者信息

Thomas Mariam, Sukhai Mahadeo A, Zhang Tong, Dolatshahi Roozbeh, Harbi Djamel, Garg Swati, Misyura Maksym, Pugh Trevor, Stockley Tracy L, Kamel-Reid Suzanne

机构信息

From the Laboratory Medicine Program, Advanced Molecular Diagnostics Laboratory, Departments of Pathology and Genetics (Drs Thomas, Sukhai, Garg, Misyura, Stockley, and Kamel-Reid), the Princess Margaret Cancer Centre (Drs Thomas, Sukhai, Garg, Misyura, Pugh, Stockley, and Kamel-Reid and Ms Zhang), and High Performance Computing and Bioinformatics Services, Princess Margaret Genomics Centre (Dr Harbi and Mr Dolatshahi), University Health Network, Toronto, Ontario, Canada; and the Departments of Medical Biophysics (Drs Pugh and Kamel-Reid) and Laboratory Medicine and Pathobiology (Drs Stockley and Kamel-Reid), The University of Toronto, Toronto, Ontario, Canada.

出版信息

Arch Pathol Lab Med. 2017 Jun;141(6):759-775. doi: 10.5858/arpa.2016-0547-RA. Epub 2017 Mar 9.

DOI:10.5858/arpa.2016-0547-RA
PMID:28557600
Abstract

CONTEXT

  • Detection of variants in hematologic malignancies is increasingly important because of a growing number of variants impacting diagnosis, prognosis, and treatment response, and as potential therapeutic targets. The use of next-generation sequencing technologies to detect variants in hematologic malignancies in a clinical diagnostic laboratory setting allows for efficient identification of routinely tested markers in multiple genes simultaneously, as well as the identification of novel and rare variants in other clinically relevant genes.

OBJECTIVE

  • To apply a systematic approach to evaluate and validate a commercially available next-generation sequencing panel (TruSight Myeloid Sequencing Panel, Illumina, San Diego, California) targeting 54 genes. In this manuscript, we focused on the parameters that were used to evaluate assay performance characteristics.

DATA SOURCES

  • Analytical validation was performed using samples containing known variants that had been identified previously. Cases were selected from different disease types, with variants in a range of genes. Panel performance characteristics were assessed and genomic regions requiring additional analysis or wet-bench approaches identified.

CONCLUSIONS

  • We validated the performance characteristics of a myeloid next-generation sequencing panel for detection of variants. The TruSight Myeloid Sequencing Panel covers more than 95% of target regions with depth greater than 500×. However, because of unique variant types such as large insertions or deletions or genomic regions of high GC content, variants in CEBPA, FLT3, and CALR required supplementation with non-next-generation sequencing assays or with informatics approaches to address deficiencies in performance. The use of multiple bioinformatics approaches (2 variant callers and informatics scripts) allows for maximizing calling of true positives, while identifying limitations in using either method alone.
摘要

背景

  • 由于越来越多的变异影响血液系统恶性肿瘤的诊断、预后和治疗反应,并作为潜在的治疗靶点,因此检测血液系统恶性肿瘤中的变异变得越来越重要。在临床诊断实验室环境中使用下一代测序技术检测血液系统恶性肿瘤中的变异,能够同时高效鉴定多个基因中常规检测的标志物,以及鉴定其他临床相关基因中的新型和罕见变异。

目的

  • 应用一种系统方法来评估和验证靶向54个基因的商用下一代测序panel(TruSight Myeloid Sequencing Panel,Illumina,加利福尼亚州圣地亚哥)。在本手稿中,我们重点关注用于评估检测性能特征的参数。

数据来源

  • 使用含有先前已鉴定的已知变异的样本进行分析验证。病例选自不同疾病类型,基因存在一系列变异。评估panel的性能特征,并确定需要额外分析或湿实验方法的基因组区域。

结论

  • 我们验证了用于检测变异的髓系下一代测序panel的性能特征。TruSight Myeloid Sequencing Panel覆盖超过95%的目标区域,深度大于500×。然而,由于存在独特的变异类型,如大的插入或缺失或高GC含量的基因组区域,CEBPA、FLT3和CALR中的变异需要补充非下一代测序检测或信息学方法以解决性能缺陷。使用多种生物信息学方法(2种变异检测工具和信息学脚本)可最大限度地提高真阳性的检出率,同时识别单独使用任何一种方法的局限性。

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