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本文引用的文献

1
Longitudinal monitoring of KRAS-mutated circulating tumor DNA enables the prediction of prognosis and therapeutic responses in patients with pancreatic cancer.对 KRAS 突变的循环肿瘤 DNA 进行纵向监测可预测胰腺癌患者的预后和治疗反应。
PLoS One. 2019 Dec 31;14(12):e0227366. doi: 10.1371/journal.pone.0227366. eCollection 2019.
2
Genome-wide cell-free DNA fragmentation in patients with cancer.癌症患者的全基因组游离 DNA 片段化。
Nature. 2019 Jun;570(7761):385-389. doi: 10.1038/s41586-019-1272-6. Epub 2019 May 29.
3
Multilaboratory Assessment of a New Reference Material for Quality Assurance of Cell-Free Tumor DNA Measurements.多实验室评估一种新型无细胞肿瘤 DNA 测量质量保证参考物质。
J Mol Diagn. 2019 Jul;21(4):658-676. doi: 10.1016/j.jmoldx.2019.03.006. Epub 2019 May 2.
4
Enhanced detection of circulating tumor DNA by fragment size analysis.通过片段大小分析增强循环肿瘤 DNA 的检测。
Sci Transl Med. 2018 Nov 7;10(466). doi: 10.1126/scitranslmed.aat4921.
5
Repeated mutKRAS ctDNA measurements represent a novel and promising tool for early response prediction and therapy monitoring in advanced pancreatic cancer.重复检测突变型 KRAS ctDNA 可作为一种新型且有前途的工具,用于预测晚期胰腺癌的早期应答,并进行治疗监测。
Ann Oncol. 2018 Dec 1;29(12):2348-2355. doi: 10.1093/annonc/mdy417.
6
Circulating Nucleic Acids Are Associated With Outcomes of Patients With Pancreatic Cancer.循环核酸与胰腺癌患者的预后相关。
Gastroenterology. 2019 Jan;156(1):108-118.e4. doi: 10.1053/j.gastro.2018.09.022. Epub 2018 Sep 19.
7
Automated size selection for short cell-free DNA fragments enriches for circulating tumor DNA and improves error correction during next generation sequencing.自动化选择短细胞游离 DNA 片段可富集循环肿瘤 DNA,并改善下一代测序过程中的错误校正。
PLoS One. 2018 Jul 25;13(7):e0197333. doi: 10.1371/journal.pone.0197333. eCollection 2018.
8
Risk of Neoplastic Progression in Individuals at High Risk for Pancreatic Cancer Undergoing Long-term Surveillance.高危人群行长期监测者的胰腺肿瘤进展风险。
Gastroenterology. 2018 Sep;155(3):740-751.e2. doi: 10.1053/j.gastro.2018.05.035. Epub 2018 May 24.
9
Genome-Wide Somatic Copy Number Alterations and Mutations in High-Grade Pancreatic Intraepithelial Neoplasia.高级别胰腺上皮内瘤变中的全基因组体细胞拷贝数改变和突变。
Am J Pathol. 2018 Jul;188(7):1723-1733. doi: 10.1016/j.ajpath.2018.03.012. Epub 2018 Apr 22.
10
Enhancing the accuracy of next-generation sequencing for detecting rare and subclonal mutations.提高下一代测序检测稀有和亚克隆突变的准确性。
Nat Rev Genet. 2018 May;19(5):269-285. doi: 10.1038/nrg.2017.117. Epub 2018 Mar 26.

利用数字下一代测序技术检测胰腺癌患者的循环肿瘤 DNA。

Detection of Circulating Tumor DNA in Patients with Pancreatic Cancer Using Digital Next-Generation Sequencing.

机构信息

Department of Pathology, The Sol Goldman Pancreatic Cancer Research Center, Johns Hopkins Medical Institutions, Baltimore, Maryland.

Department of Surgery, The Sol Goldman Pancreatic Cancer Research Center, Johns Hopkins Medical Institutions, Baltimore, Maryland.

出版信息

J Mol Diagn. 2020 Jun;22(6):748-756. doi: 10.1016/j.jmoldx.2020.02.010. Epub 2020 Mar 20.

DOI:10.1016/j.jmoldx.2020.02.010
PMID:32205290
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7338889/
Abstract

Circulating tumor DNA (ctDNA) measurements can be used to estimate tumor burden, but avoiding false-positive results is challenging. Herein, digital next-generation sequencing (NGS) is evaluated as a ctDNA detection method. Plasma KRAS and GNAS hotspot mutation levels were measured in 140 subjects, including 67 with pancreatic ductal adenocarcinoma and 73 healthy and disease controls. To limit chemical modifications of DNA that yield false-positive mutation calls, plasma DNA was enzymatically pretreated, after which DNA was aliquoted for digital detection of mutations (up to 384 aliquots/sample) by PCR and NGS. A digital NGS score of two SDs above the mean in controls was considered positive. Thirty-seven percent of patients with pancreatic cancer, including 31% of patients with stages I/II disease, had positive KRAS codon 12 ctDNA scores; only one patient had a positive GNAS mutation score. Two disease control patients had positive ctDNA scores. Low-normal-range digital NGS scores at mutation hotspots were found at similar levels in healthy and disease controls, usually at sites of cytosine deamination, and were likely the result of chemical modification of plasma DNA and NGS error rather than true mutations. Digital NGS detects mutated ctDNA in patients with pancreatic cancer with similar yield to other methods. Detection of low-level, true-positive ctDNA is limited by frequent low-level detection of false-positive mutation calls in plasma DNA from controls.

摘要

循环肿瘤 DNA(ctDNA)测量可用于估计肿瘤负担,但避免假阳性结果具有挑战性。在此,评估数字下一代测序(NGS)作为 ctDNA 检测方法。对 140 名受试者的血浆 KRAS 和 GNAS 热点突变水平进行了测量,其中包括 67 名胰腺导管腺癌患者和 73 名健康和疾病对照者。为了限制产生假阳性突变检测的 DNA 化学修饰,对血浆 DNA 进行酶预处理,然后将 DNA 等分用于通过 PCR 和 NGS 对突变进行数字检测(每个样品最多 384 个等分物)。将对照中平均值以上两个标准差的数字 NGS 评分视为阳性。37%的胰腺癌患者,包括 31%的 I/II 期疾病患者,KRAS 密码子 12 ctDNA 评分阳性;只有一名患者 GNAS 突变评分阳性。两名疾病对照患者的 ctDNA 评分阳性。在健康和疾病对照者中,通常在胞嘧啶脱氨酶部位,在突变热点处发现数字 NGS 评分处于低正常范围,这可能是由于血浆 DNA 的化学修饰和 NGS 错误,而不是真正的突变导致的。数字 NGS 与其他方法一样,在胰腺癌患者中检测到突变的 ctDNA。由于在来自对照者的血浆 DNA 中经常检测到低水平的假阳性突变检测,因此检测低水平的真正阳性 ctDNA 受到限制。