An optimized ultra-deep massively parallel sequencing with unique molecular identifier tagging for detection and quantification of circulating tumor DNA from lung cancer patients.

Journal of global oncology Pub Date : 2019-10-07 DOI:10.1200/jgo.2019.5.suppl.55

H. A. Pham, L. S. Tran, U. V. Tran, Thanh-Truong Tran, H. Nguyen, H. Giang, A. Dang, D. Le, S. Nguyen, N. Nguyen, V. Nguyen, B. Vo, N. H. Nguyen, C. Nguyen, Cam Phuong Pham, Anh Tuan Dang-Mai, Thien Kim Dinh-Nguyen, V. Phan, T. Do, K. T. Dinh

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Abstract

55 Background: The identification and quantification of actionable mutations are of critical importance for effective genotype-directed therapies, prognosis and drug response monitoring in patients with non-small-cell lung cancer (NSCLC). Although tumor tissue biopsy remains the gold standard for diagnosis of NSCLC, the analysis of plasma circulating tumor DNA (ctDNA), known as liquid biopsy, has recently emerged as an alternative and noninvasive approach for exploring tumor genetic constitution. In this study, we developed a mutation detection approach for liquid biopsy using ultra-deep massively parallel sequencing (MPS) with unique molecular identifier (UID) tagging and evaluated its performance for the identification and quantification of tumor-derived mutations from plasma of patients with advanced NSCLC. Methods: Tissue biopsy and plasma samples were collected from a total of 58 patients diagnosed with NSCLC in Vietnam. Genetic alterations in four driver genes including EGFR, KRAS, NRAS and BRAF were identified by using ultra-deep MPS combined with UID tagging. Subsequently, the concordance rate of mutation testing between matched plasma and tissue samples was assessed. Additionally, a commercially available ddPCR (Bio-rad) assay was used to conduct a cross-platform comparison with ultra-deep MPS for the detection and quantification of the three most common actionable EGFR mutations (del19, L858R and T790M). Results: Compared to the mutations detected in paired tissue samples, the plasma based ultra-deep MPS achieved high concordance rate of 87.5%. Cross-platform comparison with droplet digital PCR demonstrated comparable detection performance (91.4% concordance, Cohen's kappa coefficient of 0.85 with 95% CI = 0.72 – 0.97) and great reliability in quantification of mutation allele frequency (Intraclass correlation coefficient of 0.96 with 95% CI = 0.90 – 0.98). Conclusions: Our results highlight the potential application of liquid biopsy using ultra-deep MPS as a routine assay in clinical practice for both detection and quantification of actionable mutation landscape in NSCLC patients.

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一种优化的具有独特分子标识标记的超深度大规模平行测序用于肺癌患者循环肿瘤DNA的检测和定量。

55背景：可操作突变的识别和量化对于非小细胞肺癌癌症（NSCLC）患者的有效基因型定向治疗、预后和药物反应监测至关重要。尽管肿瘤组织活检仍然是诊断NSCLC的金标准，但血浆循环肿瘤DNA（ctDNA）分析，即液体活检，最近已成为探索肿瘤遗传构成的一种替代性和非侵入性方法。在这项研究中，我们开发了一种使用具有唯一分子标识符（UID）标记的超深度大规模平行测序（MPS）进行液体活检的突变检测方法，并评估了其在识别和量化晚期NSCLC患者血浆中肿瘤衍生突变方面的性能。方法：收集越南58例NSCLC患者的组织活检和血浆样本。使用超深层MPS结合UID标记鉴定了EGFR、KRAS、NRAS和BRAF四个驱动基因的遗传改变。随后，评估了匹配血浆和组织样本之间突变检测的一致性。此外，使用市售的ddPCR（Bio-rad）测定法与超深层MPS进行跨平台比较，以检测和定量三种最常见的可操作EGFR突变（del19、L858R和T790M）。结果：与配对组织样本中检测到的突变相比，基于血浆的超深层MPS实现了87.5%的高一致性。与液滴数字PCR的跨平台比较显示了可比的检测性能（91.4%的一致性，Cohen’s kappa系数为0.85，95%CI=0.72–0.97）和突变等位基因频率量化的高可靠性（组内相关系数为0.96，95%CI=0.90–0.98）。结论：我们的研究结果强调了使用超深层MPS进行液体活检作为常规检测在临床实践中的潜在应用，用于检测和量化NSCLC患者的可操作突变情况。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Journal of global oncology ONCOLOGY-

自引率

0.00%

发文量

审稿时长

20 weeks

期刊介绍： The Journal of Global Oncology (JGO) is an online only, open access journal focused on cancer care, research and care delivery issues unique to countries and settings with limited healthcare resources. JGO aims to provide a home for high-quality literature that fulfills a growing need for content describing the array of challenges health care professionals in resource-constrained settings face. Article types include original reports, review articles, commentaries, correspondence/replies, special articles and editorials.