Detection of circulating tumor DNA in pancreas cancer.

2020 ◽  
Vol 38 (4_suppl) ◽  
pp. 645-645
Author(s):  
Daniel King ◽  
Ash A. Alizadeh ◽  
George A. Fisher
Keyword(s):  
Pancreas Cancer ◽  
Residual Disease ◽  
Circulating Tumor Dna ◽  
Pancreatic Tumors ◽  
Cancer Center ◽  
Blood Collection ◽  
Early Assessment ◽  
Response To Chemotherapy ◽  
Investigation Methods ◽  
Tumor Dna

645 Background: Pancreas cancer remains a leading cause of cancer-related death. Improved detection of early relapse or early failure of chemotherapy also has the potential to further improve outcomes. Exploring circulating tumor DNA (ctDNA) in this setting is an area of active investigation. Methods: We previously developed an approach, CAPP-Seq, combining high-depth sequencing with several strategies of error-suppression to identify minute amounts of circulating tumor DNA. We then trained and validated a new capture panel for pancreas cancer from 640 tumors from three data sources (TCGA, ICGC, UTSW), targeting 265 kb of the genome. We enrolled two cohorts of patients with pancreatic cancers at Stanford Cancer Center: (1) patients with localized tumors undergoing resection with curative intent, and (2) patients with unresectable or metastatic disease undergoing systemic therapy. Results: As of August 2019, we recruited 131 patients with at least one blood collection, with 63% having resectable disease and 27% having advanced disease; 59 patients had 2 or more blood collections. Stage distribution included 34% stage I, 33% stage II, 18% III, 16% IV disease. Approximately 15% had normal CA19-9 levels. Deep sequencing (4,000x unique depth) of an initial set of resected pancreatic tumors and matched germline specimens identified 1-6 non-synonymous coding mutations per case (median=3, n=14), with the most frequently mutated genes involving KRAS (79%), TP53 (50%), SMAD4 (29%). Among newly diagnosed treatment-naïve patients with resectable adenocarcinoma (n=9), we detected ctDNA in 4 patients (44%) prior to surgery including with AFs ranging from 0.27% - 0.88%. Subsequent sequencing will compare patients with and without neoadjuvant therapy prior to resection, selection of unresectable patients across a larger range of tumor burden and across multiple timepoints, and integration of large-scale copy number variant detection using low-pass whole-genome sequencing. Conclusions: Circulating tumor DNA monitoring with CAPP-Seq shows promise for improved detection of PDAC. Two key applications include early detection of minimal residual disease after resection and early assessment of response to chemotherapy.

scholarly journals Circulating tumor DNA is detectable in canine histiocytic sarcoma, oral malignant melanoma, and multicentric lymphoma

2021 ◽  
Vol 11 (1) ◽  
Author(s):  
Anaïs Prouteau ◽  
Jérôme Alexandre Denis ◽  
Pauline De Fornel ◽  
Edouard Cadieu ◽  
Thomas Derrien ◽  
...  
Keyword(s):  
Residual Disease ◽  
Specific Antigen ◽  
Point Mutations ◽  
Antigen Receptor ◽  
Digital Pcr ◽  
Circulating Tumor Dna ◽  
Histiocytic Sarcoma ◽  
Oncology Research ◽  
Tumor Dna

AbstractCirculating tumor DNA (ctDNA) has become an attractive biomarker in human oncology, and its use may be informative in canine cancer. Thus, we used droplet digital PCR or PCR for antigen receptor rearrangement, to explore tumor-specific point mutations, copy number alterations, and chromosomal rearrangements in the plasma of cancer-affected dogs. We detected ctDNA in 21/23 (91.3%) of histiocytic sarcoma (HS), 2/8 (25%) of oral melanoma, and 12/13 (92.3%) of lymphoma cases. The utility of ctDNA in diagnosing HS was explored in 133 dogs, including 49 with HS, and the screening of recurrent PTPN11 mutations in plasma had a specificity of 98.8% and a sensitivity between 42.8 and 77% according to the clinical presentation of HS. Sensitivity was greater in visceral forms and especially related to pulmonary location. Follow-up of four dogs by targeting lymphoma-specific antigen receptor rearrangement in plasma showed that minimal residual disease detection was concordant with clinical evaluation and treatment response. Thus, our study shows that ctDNA is detectable in the plasma of cancer-affected dogs and is a promising biomarker for diagnosis and clinical follow-up. ctDNA detection appears to be useful in comparative oncology research due to growing interest in the study of natural canine tumors and exploration of new therapies.

scholarly journals Detection of Tumor Recurrence via Circulating Tumor DNA Profiling in Patients with Localized Lung Cancer: Clinical Considerations and Challenges

Cancers ◽  
2021 ◽  
Vol 13 (15) ◽  
pp. 3759
Author(s):  
Bryan Ulrich ◽  
Anne Pradines ◽  
Julien Mazières ◽  
Nicolas Guibert
Keyword(s):  
Lung Cancer ◽  
Residual Disease ◽  
Lung Cancer Screening ◽  
Circulating Tumor Dna ◽  
Definitive Treatment ◽  
Curative Intent ◽  
Screening Programs ◽  
Adjuvant Therapies ◽  
Sequencing Platforms ◽  
Tumor Dna

Approximately 30% of patients with non-small-cell lung cancer (NSCLC) present with localized/non-metastatic disease and are eligible for surgical resection or other “treatment with curative intent”. Due to the high prevalence of recurrence after treatment, adjuvant therapy is standard care for most patients. The effect of adjuvant chemotherapy is, however, modest, and new tools are needed to identify candidates for adjuvant treatments (chemotherapy, immunotherapy, or targeted therapies), especially since expanded lung cancer screening programs will increase the rate of patients detected with localized NSCLC. Circulating tumor DNA (ctDNA) has shown strong potential to detect minimal residual disease (MRD) and to guide adjuvant therapies. In this manuscript, we review the technical aspects and performances of the main ctDNA sequencing platforms (TRACERx, CAPP-seq) investigated in this purpose, and discuss the potential of this approach to guide or spare adjuvant therapies after definitive treatment of NSCLC.

scholarly journals Patient-Specific Circulating Tumor DNA Detection during Neoadjuvant Chemotherapy in Triple-Negative Breast Cancer

2017 ◽  
Vol 63 (3) ◽  
pp. 691-699 ◽  
Author(s):  
Francesca Riva ◽  
Francois-Clement Bidard ◽  
Alexandre Houy ◽  
Adrien Saliou ◽  
Jordan Madic ◽  
...  
Keyword(s):  
Breast Cancer ◽  
Neoadjuvant Chemotherapy ◽  
Minimal Residual Disease ◽  
Triple Negative Breast Cancer ◽  
Triple Negative ◽  
Residual Disease ◽  
Circulating Tumor Dna ◽  
Tp53 Mutations ◽  
Tumor Dna ◽  
Minimal Residual

Abstract BACKGROUND In nonmetastatic triple-negative breast cancer (TNBC) patients, we investigated whether circulating tumor DNA (ctDNA) detection can reflect the tumor response to neoadjuvant chemotherapy (NCT) and detect minimal residual disease after surgery. METHODS Ten milliliters of plasma were collected at 4 time points: before NCT; after 1 cycle; before surgery; after surgery. Customized droplet digital PCR (ddPCR) assays were used to track tumor protein p53 (TP53) mutations previously characterized in tumor tissue by massively parallel sequencing (MPS). RESULTS Forty-six patients with nonmetastatic TNBC were enrolled. TP53 mutations were identified in 40 of them. Customized ddPCR probes were validated for 38 patients, with excellent correlation with MPS (r = 0.99), specificity (≥2 droplets/assay), and sensitivity (at least 0.1%). At baseline, ctDNA was detected in 27/36 patients (75%). Its detection was associated with mitotic index (P = 0.003), tumor grade (P = 0.003), and stage (P = 0.03). During treatment, we observed a drop of ctDNA levels in all patients but 1. No patient had detectable ctDNA after surgery. The patient with rising ctDNA levels experienced tumor progression during NCT. Pathological complete response (16/38 patients) was not correlated with ctDNA detection at any time point. ctDNA positivity after 1 cycle of NCT was correlated with shorter disease-free (P < 0.001) and overall (P = 0.006) survival. CONCLUSIONS Customized ctDNA detection by ddPCR achieved a 75% detection rate at baseline. During NCT, ctDNA levels decreased quickly and minimal residual disease was not detected after surgery. However, a slow decrease of ctDNA level during NCT was strongly associated with shorter survival.

scholarly journals Liquid biopsy in NSCLC: a new challenge in radiation therapy

2021 ◽  
Author(s):  
Annarita Perillo ◽  
Mohamed Vincenzo Agbaje Olufemi ◽  
Jacopo De Robbio ◽  
Rossella Margherita Mancuso ◽  
Anna Roscigno ◽  
...  
Keyword(s):  
Lung Cancer ◽  
Liquid Biopsy ◽  
Residual Disease ◽  
Biological Fluids ◽  
Circulating Tumor Dna ◽  
Minimum Residual ◽  
Nsclc Patients ◽  
Choice Of Therapy ◽  
Tumor Dna

Lung cancer is the most common cancer and the leading cause of cancer mortality worldwide. To date, tissue biopsy has been the gold standard for the diagnosis and the identification of specific molecular mutations, to guide choice of therapy. However, this procedure has several limitations. Liquid biopsy could represent a solution to the intrinsic limits of traditional biopsy. It can detect cancer markers such as circulating tumor DNA or RNA (ctDNA, ctRNA), and circulating tumor cells, in plasma, serum or other biological fluids. This procedure is minimally invasive, reproducible and can be used repeatedly. The main clinical applications of liquid biopsy in non-small cell lung cancer (NSCLC) patients are the early diagnosis, stratification of the risk of relapse, identification of mutations to guide application of targeted therapy and the evaluation of the minimum residual disease. In this review, the current role of liquid biopsy and associated markers in the management of NSCLC patients was analyzed, with emphasis on ctDNA and CTCs, and radiotherapy.

scholarly journals MA17.07 Circulating Tumor DNA Detects Minimal Residual Disease and Predicts Outcome in Localized Lung Cancer

2017 ◽  
Vol 12 (1) ◽  
pp. S445
Author(s):  
Aadel Chaudhuri ◽  
Alexander Lovejoy ◽  
Jacob Chabon ◽  
Aaron Newman ◽  
Henning Stehr ◽  
...  
Keyword(s):  
Lung Cancer ◽  
Minimal Residual Disease ◽  
Residual Disease ◽  
Circulating Tumor Dna ◽  
Tumor Dna ◽  
Minimal Residual

Comparative analysis of circulating tumor DNA stability In K3EDTA, Streck, and CellSave blood collection tubes

2016 ◽  
Vol 49 (18) ◽  
pp. 1354-1360 ◽  
Author(s):  
Qing Kang ◽  
N. Lynn Henry ◽  
Costanza Paoletti ◽  
Hui Jiang ◽  
Pankaj Vats ◽  
...  
Keyword(s):  
Comparative Analysis ◽  
Circulating Tumor Dna ◽  
Blood Collection ◽  
Dna Stability ◽  
Blood Collection Tubes ◽  
Tumor Dna

Minimal residual disease by circulating tumor DNA analysis for colorectal cancer patients receiving radical surgery: An initial report from CIRCULATE-Japan.

2021 ◽  
Vol 39 (15_suppl) ◽  
pp. 3608-3608
Author(s):  
Hiroki Yukami ◽  
Yoshiaki Nakamura ◽  
Jun Watanabe ◽  
Masahito Kotaka ◽  
Kentaro Yamazaki ◽  
...  
Keyword(s):  
Colorectal Cancer ◽  
Dna Analysis ◽  
Residual Disease ◽  
Clinical Stage ◽  
Circulating Tumor Dna ◽  
Patient Specific ◽  
Detection Rates ◽  
Initial Report ◽  
Post Surgery ◽  
Tumor Dna

3608 Background: Circulating tumor DNA (ctDNA) analysis can be used to predict the risk of recurrence by detecting molecular residual disease (MRD) in patients with colorectal cancer (CRC). We are conducting a prospective observational study to monitor MRD status in patients with clinical stage II–IV or relapsed CRC amenable to radical surgical resection (GALAXY study), as part of the CIRCULATE-Japan, a nationwide ctDNA-guided precision adjuvant therapy project. Methods: Analysis of ctDNA is being performed at pre- and post-surgery timepoints and will continue periodically for up to 2 years using Signatera, a personalized, tumor-informed ctDNA assay that is designed to track 16 patient-specific somatic variants based on whole-exome sequencing of tumor tissue. The association of peri-operative ctDNA status with clinicopathological characteristics was investigated. Results: As of January 13, 2021, 941 patients have been enrolled in the GALAXY study, of which 400 patients had their pre-operative ctDNA status evaluated. Of the 400 patients, baseline ctDNA was detected in 92% (367/400) of the patients: consisting of 35 patients with pathological stage (pStage) I, 135 with pStage II, 152 with pStage III, and 78 with pStage IV or relapsed disease (pStage IV/R). Patient-specific Signatera assays targeting 16 variants were designed for 100% of the patients. Out of the 6400 designed variants 99.3% passed quality control in the plasma analysis and produced the final results. Among 4425 genes selected for 400 patients, 3330 genes were selected for only one patient, while TP53 was the most commonly selected in 113 patients (28%). Median ctDNA levels, measured in mean tumor molecules per mL of plasma and ctDNA detection rate, stratified by stage are presented in table. Positive ctDNA status post-surgery was significantly associated with advanced pStage, pT and pN, and lymphovascular invasion. Of the 13 patients with recurrence, 10 were detected with a positive ctDNA at 4-weeks post-surgery, before confirmation of recurrence by the radiological imaging. Conclusions: Preoperative ctDNA detection rates were observed to be in >90% in patients with pStage II–III by personalized ctDNA assay based on unique somatic variants, specific to each patient. ctDNA- based MRD detected post-surgery (4W) was significantly associated with certain known clinicopathological factors for recurrence with ctDNA positivity associated with a very short-term of recurrence. Clinical trial information: 000039205. [Table: see text]

Circulating Tumor DNA Minimal Residual Disease Detection of Non–Small-Cell Lung Cancer Treated With Curative Intent

2022 ◽  
Author(s):  
Bruna Pellini ◽  
Aadel A. Chaudhuri
Keyword(s):  
Lung Cancer ◽  
Small Cell Lung Cancer ◽  
Residual Disease ◽  
Circulating Tumor Dna ◽  
Small Cell ◽  
Post Treatment ◽  
Small Cell Lung ◽  
Curative Intent ◽  
Tumor Dna ◽  
Minimal Residual

Circulating tumor DNA (ctDNA) minimal residual disease (MRD) is a powerful biomarker with the potential to improve survival outcomes for non–small-cell lung cancer (NSCLC). Multiple groups have shown the ability to detect MRD following curative-intent NSCLC treatment using next-generation sequencing–based assays of plasma cell-free DNA. These studies have been modest in size, largely retrospective, and without thorough prospective clinical validation. Still, when restricting measurement to the first post-treatment timepoint to assess the clinical performance of ctDNA MRD detection, they have demonstrated sensitivity for predicting disease relapse ranging between 36% and 100%, and specificity ranging between 71% and 100%. When considering all post-treatment follow-up timepoints (surveillance), including those beyond the initial post-treatment measurement, these assays' performances improve with sensitivity and specificity for identifying relapse ranging from 82% to 100% and 70% to 100%, respectively. In this manuscript, we review the evidence available to date regarding ctDNA MRD detection in patients with NSCLC undergoing curative-intent treatment and the ongoing prospective studies involving ctDNA MRD detection in this patient population.

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