Enrichment of short mutant cell-free DNA fragments enhanced detection of pancreatic cancer

Liu, Xiaoyu; Liu, Lingxiao; Ji, Yuan; Li, Changyu; Tao, Wei; Yang, Xi; Zhang, Yuefang; Cai, Xinjiang; Yang, Ting; Gao, Yangbin; Xu, Weihong; Rao, Shengxiang; Jin, Dayong; Lou, Wenhui; Qiu, Zilong; Wang, Xiaolin

doi:10.1101/482745

Cited by 20 publications

(33 citation statements)

References 60 publications

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“…This is consistent with a recent report that pancreatic cancer is among the low ctDNA cancers [41]. Emerging evidence indicated that tumor-derived cfDNA were shorter than those from nonmalignant cells, and enrichment of short fragments could improve detection of ctDNA [41,42]. Indeed, we also found that estimated TFx for samples with selection of short reads after sequencing was significantly higher than that of original samples (data not shown).…”

Section: Discussionsupporting

confidence: 93%

Genome‐wide profiling of circulating tumor DNA depicts landscape of copy number alterations in pancreatic cancer with liver metastasis

Tao

Zhang

et al. 2020

Molecular Oncology

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We used whole‐genome sequencing of cell‐free DNA (cfDNA) to obtain copy number alteration (CNA) profiles from the plasma of patients with metastatic pancreatic cancer (PC). These profiles were compared with TCGA‐derived CNA profiles of primary pancreatic tumors. CNA analysis enabled the prediction of tumor burden and tumor prognosis, and assessment of therapeutic response and clonal evolution.

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Section: Discussionsupporting

confidence: 93%

Genome‐wide profiling of circulating tumor DNA depicts landscape of copy number alterations in pancreatic cancer with liver metastasis

Tao

Zhang

et al. 2020

Molecular Oncology

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“…Indeed, using this approach, ctDNA could be detected in 88% of stage I/II pancreatic adenocarcinoma cases and in 95% of those with stage III/IV disease [41]. The analysis of cfDNA fragment size revealed that the DNA fragments that contained the wild-type KRAS allele were all around 160 bp in size, while a large proportion of the DNA fragments containing the mutant KRAs allele had size below 100 bp [41]. Interestingly, the short DNA fragments were more pronounced in the pre-cancerous stage and in early-stage pancreatic cancers [38].…”

Section: Ctdna In Pancreatic Cancermentioning

confidence: 99%

“…Liu and coworkers reported developing a single-strand library preparation and hybrid-capturebased ctDNA sequencing (SLHS-seq) approach. The procedure was applied to perform cfDNA profiling in a group of 112 pancreatic cancer patients, and the results demonstrated high specificity and sensitivity in the detection of ctDNA in pancreatic cancer patients, including those at an early stage of disease [41]. Indeed, using this approach, ctDNA could be detected in 88% of stage I/II pancreatic adenocarcinoma cases and in 95% of those with stage III/IV disease [41].…”

Section: Ctdna In Pancreatic Cancermentioning

confidence: 99%

“…The procedure was applied to perform cfDNA profiling in a group of 112 pancreatic cancer patients, and the results demonstrated high specificity and sensitivity in the detection of ctDNA in pancreatic cancer patients, including those at an early stage of disease [41]. Indeed, using this approach, ctDNA could be detected in 88% of stage I/II pancreatic adenocarcinoma cases and in 95% of those with stage III/IV disease [41]. The analysis of cfDNA fragment size revealed that the DNA fragments that contained the wild-type KRAS allele were all around 160 bp in size, while a large proportion of the DNA fragments containing the mutant KRAs allele had size below 100 bp [41].…”

Section: Ctdna In Pancreatic Cancermentioning

confidence: 99%

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Detection of Circulating Tumor DNA in Solid Tumors

Testa¹,

Castelli²

2020

genetics

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Cancer is characterized by sequential and progressive genetic and epigenetic alterations in key proto-oncogenes and tumor suppressor genes, which ultimately lead to tumor development. Advances in the technology of analysis of molecular mechanisms have increased the efficiency of clinical management of cancer patients. Recent years have witnessed a progressive development in technologies that enable the detection of specific molecular abnormalities associated with various types of solid tumors in body fluids, a process that is globally known as "liquid biopsy". Liquid biopsy is largely based on the circulating free DNA (cfDNA) present in the plasma of healthy individuals and derived either from cell apoptosis or from the active secretion of microvesicles mediated by white blood cells (WBCs). The plasma of cancer patients contains DNA, which is referred to as circulating tumor DNA (ctDNA) and is released by the tumor cells in the form of DNA fragments of various sizes bearing the various types of genetic abnormalities specific to the tumors from which were derived. Sequencing studies conducted with several thousands of cancer patients have revealed that ctDNA accounts for only a fraction of the total DNA, and the size of this fraction varies in relation to tumor burden, tumor site, tumor subtypes, and several other biological properties of the tumor cells. Therefore, the levels of ctDNA are extremely low in several earlystage tumors, requiring highly sensitive methods for the detection of genetic alterations

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“…The current article describes a single-strand library preparation assay for the sequencing of cell-free DNA (cfDNA) in a clinical cohort of patients with PC or relevant pancreatic lesions and healthy controls [3]. A major pitfall of the cfDNA analysis is the contamination with high molecular weight genomic DNA, which originates from healthy blood cells when the blood is extracted and centrifuged for the retrieval of plasma.…”

mentioning

confidence: 99%

Towards a more sensitive detection of somatic mutations in cell-free DNA

Earl

2019

EBioMedicine

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Enrichment of short mutant cell-free DNA fragments enhanced detection of pancreatic cancer

Cited by 20 publications

References 60 publications

Genome‐wide profiling of circulating tumor DNA depicts landscape of copy number alterations in pancreatic cancer with liver metastasis

Genome‐wide profiling of circulating tumor DNA depicts landscape of copy number alterations in pancreatic cancer with liver metastasis

Detection of Circulating Tumor DNA in Solid Tumors

Towards a more sensitive detection of somatic mutations in cell-free DNA

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