CancerScreen: A novel ultrasensitive liquid biopsy for early-stage cancer detection by ctDNA Duplex Sequencing and Tissue of Origin identification with supervised machine learning.

Journal of global oncology Pub Date : 2019-10-07 DOI:10.1200/jgo.2019.5.suppl.60

Elizabeth Ding, Zhilong Zhao, Hongsheng Xue, Jianxin Li, T. Lei, Xuezhen Ma, Jianlin Wu, Qin Huang

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Abstract

60 Background: Circulating tumor DNA (ctDNA) in blood holds promise as a cancer-specific biomarker for early-stage cancer diagnosis. However, detection of ultra-low mutation allelic frequency (MAF) of ctDNA at early stages of cancer is infeasible by conventional next generation sequencing (NGS). Using duplex sequencing with unique molecular identifiers (UMIs) and custom-designed probes, we tested the hypothesis that ctDNA duplex sequencing with UMIs was able to detect ultra-low MAF of ctDNA in patients with early-stage cancers. Methods: A 128-gene panel that contains probes targeted to clinical relevant genome variations in cancers of the lung, stomach, and esophagus was designed and validated with reference DNA and controls using ctDNA duplex sequencing with UMIs. A data analysis pipeline was implemented withimproved algorithms for variant calling, blood tumor mutational burden (bTMB) calculation, and supervised machine learning for tissue-of-origin primary cancer identification. Results: We designed and validated a ctDNA duplex sequencing with UMIs assay that enables simultaneous detection of 128 clinical relevant geneswith SNPs, indels, amplifications, and fusions in a single blood test. Compared to conventional ctDNA NGS, our assay achieved high sensitivity (over 82%) and specificity (over 96%) with LOD at 0.1% MAF for stage I lung, gastric and esophageal cancers with the sequencing depth at 30,000x from a cohort of 136 clinical samples. Results also showed significant concordance of MAF and TMB between DNA from tumor tissues and plasma ctDNA. Our deep learning predictive model with novel algorithms and features for tumor tissue-of-origin classification achieved an overall 85% accuracy. Conclusions: In this study, a novel ultrasensitive assay was designed and validated for accurate detection of MAF at 0.1% from plasma ctDNA of multiple tumors, and accurate classification on tissue-of-origin for major primary cancers using supervised deep learning. The results of this liquid biopsy study from initial clinical testing showed its promise on clinical applications for early-stage cancer diagnosis.

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CancerScreen:一种新型的超灵敏液体活检，用于早期癌症检测，通过ctDNA双工测序和组织起源识别与监督机器学习。

背景:血液中循环肿瘤DNA (ctDNA)有望成为早期癌症诊断的癌症特异性生物标志物。然而，传统的下一代测序(NGS)无法在癌症早期检测到ctDNA的超低突变等位基因频率(MAF)。使用具有独特分子标识符(UMIs)的双工测序和定制设计的探针，我们验证了具有UMIs的ctDNA双工测序能够检测早期癌症患者中ctDNA的超低MAF的假设。方法:设计了一个包含针对肺癌、胃癌和食管癌临床相关基因组变异的探针的128个基因面板，并使用带有UMIs的ctDNA双链测序与对照DNA进行了验证。采用改进的算法实现了数据分析管道，用于变体调用、血液肿瘤突变负担(bTMB)计算和用于起源组织原发性癌症识别的监督机器学习。结果:我们设计并验证了一种ctDNA双工测序方法，该方法可以在一次血液检测中同时检测128个具有snp、indels、扩增和融合的临床相关基因。与传统的ctDNA NGS相比，我们的检测方法对I期肺癌、胃癌和食管癌具有高灵敏度(82%以上)和特异性(96%以上)，LOD为0.1% MAF，测序深度为3万倍，来自136个临床样本的队列。结果还显示肿瘤组织DNA与血浆ctDNA之间的MAF和TMB具有显著的一致性。我们的深度学习预测模型具有新颖的算法和特征，用于肿瘤组织起源分类，总体准确率达到85%。结论:在本研究中，设计并验证了一种新的超灵敏检测方法，用于从多种肿瘤的血浆ctDNA中准确检测0.1%的MAF，并使用监督深度学习对主要原发性癌症的起源组织进行准确分类。这项液体活检研究的初步临床试验结果显示其在早期癌症诊断的临床应用前景。

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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.