Your search keyword '"circulating DNA"' showing total 945 results

151. Circulating cell-free DNA-based epigenetic assay can detect early breast cancer.

Author

Natsue Uehiro, Fumiaki Sato, Fengling Pu, Sunao Tanaka, Masahiro Kawashima, Kosuke Kawaguchi, Masahiro Sugimoto, Shigehira Saji, and Masakazu Toi

Subjects

BREAST cancer, EPIGENETICS, DNA methylation, EARLY detection of cancer, CIRCULATING tumor DNA

Abstract

Background: Circulating cell-free DNA (cfDNA) has recently been recognized as a resource for biomarkers of cancer progression, treatment response, and drug resistance. However, few have demonstrated the usefulness of cfDNA for early detection of cancer. Although aberrant DNA methylation in cfDNA has been reported for more than a decade, its diagnostic accuracy remains unsatisfactory for cancer screening. Thus, the aim of the present study was to develop a highly sensitive cfDNA-based system for detection of primary breast cancer (BC) using epigenetic biomarkers and digital PCR technology. Methods: Array-based genome-wide DNA methylation analysis was performed using 56 microdissected breast tissue specimens, 34 cell lines, and 29 blood samples from healthy volunteers (HVs). Epigenetic markers for BC detection were selected, and a droplet digital methylation-specific PCR (ddMSP) panel with the selected markers was established. The detection model was constructed by support vector machine and evaluated using cfDNA samples. Results: The methylation array analysis identified 12 novel epigenetic markers (JAK3, RASGRF1, CPXM1, SHF, DNM3, CAV2, HOXA10, B3GNT5, ST3GAL6, DACH1, P2RX3, and chr8:23572595) for detecting BC. We also selected four internal control markers (CREM, GLYATL3, ELMOD3, and KLF9) that were identified as infrequently altered genes using a public database. A ddMSP panel using these 16 markers was developed and detection models were constructed with a training dataset containing cfDNA samples from 80 HVs and 87 cancer patients. The best detection model adopted four methylation markers (RASGRF1, CPXM1, HOXA10, and DACH1) and two parameters (cfDNA concentration and the mean of 12 methylation markers), and, and was validated in an independent dataset of 53 HVs and 58 BC patients. The area under the receiver operating characteristic curve for cancer-normal discrimination was 0.916 and 0.876 in the training and validation dataset, respectively. The sensitivity and the specificity of the model was 0.862 (stages 0-I 0.846, IIA 0.862, IIB-III 0.818, metastatic BC 0.935) and 0.827, respectively. Conclusion: Our epigenetic-marker-based system distinguished BC patients from HVs with high accuracy. As detection of early BC using this system was comparable with that of mammography screening, this system would be beneficial as an optional method of screening for BC. [ABSTRACT FROM AUTHOR]

Published

2016

152. Diagnostic potential of circulating cell‐free nuclear and mitochondrial DNA for several cancer types and nonmalignant diseases: A study on suspected cancer patients

Author

Anna Hedelius, Ashfaque A. Memon, Jan Sundquist, and Kristina Sundquist

Subjects

0301 basic medicine, Adult, Male, Cancer Research, medicine.medical_specialty, Mitochondrial DNA, diagnostic, mitochondrial DNA, Biology, Gastroenterology, DNA, Mitochondrial, Polymerase Chain Reaction, Circulating Tumor DNA, 03 medical and health sciences, Young Adult, 0302 clinical medicine, Internal medicine, Neoplasms, medicine, Biomarkers, Tumor, cancer, Humans, Digital polymerase chain reaction, Mortality, Molecular Biology, Research Articles, Early Detection of Cancer, Aged, Aged, 80 and over, Receiver operating characteristic, Hazard ratio, nuclear DNA, Cancer, circulating DNA, Middle Aged, medicine.disease, Prognosis, Confidence interval, Mitochondria, 030104 developmental biology, 030220 oncology & carcinogenesis, Case-Control Studies, Biomarker (medicine), Medical genetics, biomarker, Female, Precancerous Conditions, Research Article

Abstract

Circulating cell‐free nuclear DNA (nDNA) has been implicated in individual cancer types with a diagnostic value; however, the role of cell‐free mitochondrial DNA (mtDNA) in cancers is controversial. We aimed to investigate and compare the diagnostic potential of both nDNA and mtDNA for multiple cancers and to investigate their ability to distinguish multiple cancers from healthy controls and from nonmalignant diseases. We also investigated the prognostic value of both nDNA and mtDNA. The absolute copy number of circulating DNAs in suspected cancer patients (n = 286) referred to a cancer diagnostic center and healthy controls (n = 109) was quantified by droplet digital polymerase chain reaction. Among the suspected cancer patients, 66 (23%) were diagnosed with various cancers, 193 (67%) with nonmalignant diseases, and 27 (10%) with no active disease. Levels of nDNA were significantly higher in cancers (copies/μl; mean ± SD, 21.0 ± 14.2) as compared with nonmalignant diseases (15.2 ± 10.0) and controls (9.3 ± 4.1). In contrast, levels of mtDNA were significantly lower in cancers (copies/μl; mean ± SD, 68,557 ± 66,663) and nonmalignant diseases (60,174 ± 55,831) as compared with controls (98,714 ± 77,789). Receiver operating curve analysis showed that nDNA not only could distinguish multiple cancers from controls (area under curve [AUC] = 0.78; 95% confidence interval [CI] = 0.70–0.86) but also from nonmalignant diseases (AUC = 0.68; 95% CI = 0.59–0.76). However, mtDNA could only differentiate cancers from controls (AUC = 0.65; 95% CI = 0.56–0.73). Higher levels of nDNA were also associated with increased mortality in the cancer patients (hazard ratio = 2.3; 95% CI = 1.1–4.7). Circulating cell‐free nDNA, but not the mtDNA, could distinguish multiple cancers from nonmalignant diseases and was associated with poor survival of cancer patients.

Published

2020

153. Circulating Cell-Free DNA Correlates with Body Integral Dose and Radiation Modality in Prostate Cancer

Author

Zhenhuan Zhang, Paul Okunieff, Robert A. Zlotecki, Bingrong Zhang, Christopher G. Morris, Natalie A. Lockney, Katherine Casey-Sawicki, Jennifer W Li, Randal H. Henderson, and Steven Swarts

Subjects

lcsh:Medical physics. Medical radiology. Nuclear medicine, medicine.medical_specialty, lcsh:R895-920, medicine.medical_treatment, Urology, circulating dna, 030218 nuclear medicine & medical imaging, 03 medical and health sciences, Prostate cancer, 0302 clinical medicine, Prostate, Medicine, lcsh:Nuclear and particle physics. Atomic energy. Radioactivity, Radiology, Nuclear Medicine and imaging, protons, business.industry, Original Articles, prostate cancer, medicine.disease, Atomic and Molecular Physics, and Optics, Circulating Cell-Free DNA, cell-free dna, Radiation therapy, Clinical trial, medicine.anatomical_structure, Cell-free fetal DNA, Prostate Bed, radiation dosimeter, 030220 oncology & carcinogenesis, Toxicity, lcsh:QC770-798, business

Abstract

Purpose The RadTox assay measures circulating cell-free DNA released in response to radiotherapy (RT)-induced tissue damage. The primary objectives for this clinical trial were to determine whether cell-free DNA numbers measured by the RadTox assay are (1) correlated with body integral dose, (2) lower with proton RT compared with photon RT, and (3) higher with larger prostate cancer RT fields. Patients and Methods Patients planned to receive proton or photon RT for nonmetastatic prostate cancer in the setting of an intact prostate or postprostatectomy were eligible for the trial. Plasma was collected pre-RT and at 5 additional daily collection points beginning 24 hours after the initiation of RT. Data from 54 evaluable patients were analyzed to examine any correlations among RadTox scores with body-integral dose, RT modality (photon versus proton), and RT field size (prostate or prostate bed versus whole pelvis). Results Body integral dose was significantly associated with the peak post-RT RadTox score (P = .04). Patients who received photon RT had a significant increase in peak post-RT RadTox score (P = .04), average post-RT RadTox score (P = .04), and day-2 RadTox score (all minus the pre-RT values for each patient) as compared with patients who received proton RT. Field size was not significantly associated with RadTox score. Conclusion RadTox is correlated with body integral dose and correctly predicts which patients receive proton versus photon RT. Data collection remains ongoing for patient-reported RT toxicity outcomes to determine whether RadTox scores are correlated with toxicity.

Published

2020

154. Cardiac-specific methylation patterns of circulating DNA for identification of cardiomyocyte death

Author

Shu-Jun Huang, Weibin Xu, Jian Ma, Qin Liu, Hua Deng, Liang Zhang, Jingsi Huang, Shan-Quan Sun, and Jiao Rao

Subjects

Heart Defects, Congenital, Male, medicine.medical_specialty, lcsh:Diseases of the circulatory (Cardiovascular) system, Time Factors, Heart disease, Circulating cell-free DNA, Pilot Projects, 030204 cardiovascular system & hematology, Epigenome, 03 medical and health sciences, 0302 clinical medicine, Internal medicine, medicine, Humans, Myocytes, Cardiac, Methylation biomarker, Cardiac Surgical Procedures, FAM101A, qMS-PCR, 030304 developmental biology, Angiology, 0303 health sciences, Cell Death, biology, business.industry, Microfilament Proteins, Cardiomyocyte death, Infant, Newborn, Infant, Methylation, DNA Methylation, medicine.disease, Troponin, Circulating Cell-Free DNA, Cardiac surgery, Treatment Outcome, lcsh:RC666-701, Child, Preschool, Time course, biology.protein, Cardiology, Circulating DNA, Female, Cardiology and Cardiovascular Medicine, business, Cell-Free Nucleic Acids, Research Article

Abstract

Background Correct detection of human cardiomyocyte death is essential for definitive diagnosis and appropriate management of cardiovascular diseases. Although current strategies have proven utility in clinical cardiology, they have some limitations. Our aim was to develop a new approach to monitor myocardial death using methylation patterns of circulating cell-free DNA (cf-DNA). Methods We first examined the methylation status of FAM101A in heart tissue and blood of individual donors using quantitative methylation-sensitive PCR (qMS-PCR). The concentrations and kinetics of cardiac cf-DNA in plasma from five congenital heart disease (CHD) children before and after they underwent cardiac surgery at serial time points were then investigated. Results We identified demethylated FAM101A specifically present in heart tissue. Importantly, our time course experiments demonstrated that the plasma cardiac cf-DNA level increased quickly during the early post-cardiac surgery phase, peaking at 4–6 h, decreased progressively (24 h) and returned to baseline (72 h). Moreover, cardiac cf-DNA concentrations pre- and post-operation were closely correlated with plasma troponin levels. Conclusions We proposed a novel strategy for the correct detection of cardiomyocyte death, based on analysis of plasma cf-DNA carrying the cardiac-specific methylation signature. Our pilot study may lead to new tests for human cardiac pathologies.

Published

2020

155. Multidisciplinary therapy strategy of precision medicine in clinical practice

Author

Yunfeng Cheng, Qi Shen, Tianshu Liu, Miaomiao Zhang, Xiangdong Wang, Mengjia Qian, Xiaojing Xu, Qian Li, and Hao Chen

Subjects

0301 basic medicine, medicine.medical_specialty, precision medicine, Medicine (miscellaneous), 03 medical and health sciences, 0302 clinical medicine, Clinical work, Multidisciplinary approach, MDTS‐PM, Medicine, cancer, Medical physics, Research Articles, Therapeutic strategy, lcsh:R5-920, gene sequencing, business.industry, target therapy, Precision medicine, Clinical Practice, Medical services, 030104 developmental biology, 030220 oncology & carcinogenesis, Clinical diagnosis, Molecular Medicine, Circulating DNA, business, lcsh:Medicine (General), Research Article

Abstract

The application of precision medicine concept in clinical work needs a period of practice and experience accumulation. The present article introduced an example of functioning approach named “multidisciplinary therapy strategy of precision medicine” (MDTS‐PM), clinical practice and process, decision‐making, and therapies. The MDTS‐PM integrates multidisciplinary experts and develops real‐time therapeutic strategy based on clinical phenomes and gene sequencing of tissue DNA and circulating DNA. The strength of MDTS‐PM is the combination of dynamical clinical phenomes, genetic information, diagnosis, and treatment to make the therapy more targeted and specific. MDTS‐PM provides comprehensive, whole‐process, and personalized diagnosis and treatment services for patients with complex cancer or complex drug resistance progression; provides guidance for further adjustment of drug use; and establishes a multidisciplinary cooperative team, improves the quality of clinical diagnosis and treatment, and optimizes the process of medical services.

Published

2020

156. A designed locked nucleic acid-based nanopore for discriminating ctDNA and its coexisting analogue ncDNA

Author

Yuqin Huang, Cuisong Zhou, Jia Geng, You Lv, and Dan Xiao

Subjects

Chemistry, 02 engineering and technology, General Chemistry, Computational biology, 010402 general chemistry, 021001 nanoscience & nanotechnology, 01 natural sciences, 0104 chemical sciences, Biomarker (cell), Nanopore, Circulating tumor DNA, Circulating DNA, Locked nucleic acid, 0210 nano-technology

Abstract

Circulating tumor DNA (ctDNA), carrying tumor-specific sequence mutations, is a promising biomarker for classification, diagnosis and prognosis of cancers. However, there is still a great challenge in discriminating single-base difference between ctDNA and its coexisting analogue (normal circulating DNA, ncDNA) at a serum sample. A locked nucleic acid (LNA) probe combined with α-HL nanopore sensor was designed, which achieved a high signal-to-background ratio (SBR) of ∼8.34 × 103, as well as a significant discrimination capability (∼12.3 times) of single-base difference. The accurate discrimination strategy is label-free, convenient, selective and sensitive, which has great potential in the early diagnosis of diseases and biomedical research fields.

Published

2020

157. Blood Biomarkers of Uveal Melanoma: Current Perspectives

Author

Bande Rodríguez, Manuel F, Fernandez Marta, Beatriz, Lago Baameiro, Nerea, Santiago-Varela, Maria, Silva-Rodríguez, Paula, Blanco-Teijeiro, María Jose, Pardo Perez, Maria, and Piñeiro Ces, Antonio

Subjects

biomarker, exosome, Review, uveal melanoma, circulating tumor cells, circulating DNA, microRNAs

Abstract

The detection of metastases in patients with a diagnosis of uveal melanoma (UM) is a controversial issue. While only 1% of the patients have detectable metastases at the time of diagnosis, up to 30% of them will develop liver metastases within 5 years of treatment. UM spreads hematogenously, therefore, blood biomarkers may be helpful for prognosis and monitoring the disease progression. Despite the great progress achieved thanks to the genetic analysis of UM biopsies, this is an invasive technique and is limited by the heterogeneity of the tumor. The present review considers the current understanding in the field regarding biomarkers for the diagnosis and prognosis of UM and its metastasis, primarily to the liver. General covered topics include non-conventional markers such as proteins previously identified in cutaneous melanoma and UM cell lines, circulating tumor cells, microRNAs (miRNA), and circulating DNA, and how each may be critical in the development of novel blood biomarkers for UM.

Published

2020

158. Somatic Mutation Detection in Leukemia-Derived Circulating DNA: Utility in Monitoring Clonal Dynamics and Disease Response in Pediatric Acute Lymphoblastic Leukemia

Author

Sarah Hisham Abdelaziz Youssef

Subjects

Leukemia, Germline mutation, Disease Response, Pediatric Acute Lymphoblastic Leukemia, business.industry, Immunology, Circulating DNA, Medicine, business, medicine.disease

Published

2022

159. Predicting Response to Radical Chemoradiotherapy with Circulating HPV DNA (cHPV-DNA) in Locally Advanced Uterine Cervix Cancer

Author

Susan Lalondrelle, Jen Lee, Rosalind J. Cutts, Isaac Garcia Murillas, Nik Matthews, Nicholas Turner, Kevin Harrington, Katherine Vroobel, Emily Moretti, and Shreerang A. Bhide

Subjects

Cancer Research, cervical cancer, plasma HPV DNA, response prediction, circulating DNA, next generation sequencing, Oncology

Abstract

Background: The majority of locally advanced cervical cancers (LaCC) are causally related to HPV. We sought to investigate the utility of an ultra-sensitive HPV-DNA next generation sequencing (NGS) assay—panHPV-detect—in LaCC treated with chemoradiotherapy, as a marker of treatment response and persistent disease. Method: Serial blood samples were collected from 22 patients with LaCC before, during and after chemoradiation. The presence of circulating HPV-DNA was correlated with clinical and radiological outcomes. Results: The panHPV-detect test demonstrated a sensitivity and specificity of 88% (95% CI-70–99%) and 100% (95% CI-30–100%), respectively, and correctly identified the HPV-subtype (16, 18, 45, 58). After a median follow up of 16 months, and three relapses all had detectable cHPV-DNA at 3 months post-CRT despite complete response on imaging. Another four patients with radiological partial or equivocal response and undetectable cHPV-DNA at the 3-month time point did not go on to develop relapse. All patients with radiological CR and undetectable cHPV-DNA at 3-months remained disease free. Conclusions: These results demonstrate that the panHPV-detect test shows high sensitivity and specificity for detecting cHPV-DNA in plasma. The test has potential applications in assessment of the response to CRT and in monitoring for relapse, and these initial findings warrant validation in a larger cohort.

Published

2023

160. Toward a holistic view of multiscale breast cancer molecular biomarkers

Author

Peihua Lu, Xiaofeng Dai, and Xuanhao Zhang

Subjects

0301 basic medicine, business.industry, Biochemistry (medical), Clinical Biochemistry, Computational biology, medicine.disease, Molecular biomarkers, Clinical Practice, 03 medical and health sciences, 030104 developmental biology, 0302 clinical medicine, Breast cancer, Metabolomics, 030220 oncology & carcinogenesis, Drug Discovery, Circulating DNA, Medicine, business

Abstract

Powered by rapid technology developments, biomarkers become increasingly diverse, including those detected at genomic, transcriptomic, proteomic, metabolomic and cellular levels. While diverse sets of biomarkers have been utilized in breast cancer predisposition, diagnosis, prognosis, treatment and management, recent additions derived from lincRNA, circular RNA, circulating DNA together with its methylated and hydroxymethylated forms and immune signatures are likely to further transform clinical practice. Here, we take breast cancer as an example of heterogeneous diseases that require many informed decisions from treatment to care to review the huge variety of biomarkers. By assessing the advantages and limitations of modern biomarkers in diverse use scenarios, this article outlines the prospects and challenges of releasing complimentary advantages by augmentation of multiscale molecular biomarkers.

Published

2019

161. Circulating nucleic acids: a new class of physiological mobile genetic elements [version 1; referees: 2 approved]

Author

Indraneel Mittra

Subjects

Opinion Article, Articles, Aging, Cellular Death & Stress Responses, Mobile genetic elements, horizontal gene transfer, circulating nucleic acids, circulating DNA, circulating chromatin, DNA damage, ageing

Abstract

Mobile genetic elements play a major role in shaping biotic genomes and bringing about evolutionary transformations. Herein, a new class of mobile genetic elements is proposed in the form of circulating nucleic acids (CNAs) derived from the billions of cells that die in the body every day due to normal physiology and that act intra-corporeally. A recent study shows that CNAs can freely enter into healthy cells, integrate into their genomes by a unique mechanism and cause damage to their DNA. Being ubiquitous and continuously arising, CNA-induced DNA damage may be the underlying cause of ageing, ageing-related disabilities and the ultimate demise of the organism. Thus, DNA seems to act in the paradoxical roles of both preserver and destroyer of life. This new class of mobile genetic element may be relevant not only to multi-cellular organisms with established circulatory systems, but also to other multi-cellular organisms in which intra-corporeal mobility of nucleic acids may be mediated via the medium of extra-cellular fluid.

Published

2015

162. Biliary Tract Cancers: Treatment Updates and Future Directions in the Era of Precision Medicine and Immuno-Oncology

Author

Edward Woods, Allan Tsung, Arjun Mittra, and Ashish Manne

Subjects

Cancer Research, medicine.medical_specialty, business.industry, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, Review, circulating DNA, Precision medicine, targeted therapy, Oncology, Biliary tract, biliary tract cancer, medicine, biomarker, Radiology, methylation, immunotherapy, mutation, business, cholangiocarcinoma, RC254-282

Abstract

The effective management of biliary tract cancers (BTCs) has been hampered by limited options for systemic therapy. In recent years, the focus on precision medicine has made technologies such as next-generation sequencing (NGS) accessible to clinicians to identify targetable mutations in BTCs in tumor tissue (primarily) as well as blood, and to treat them with targeted therapies when possible. It has also expanded our understanding of functional pathways associated with genetic alterations and opened doors for identifying novel targets for treatment. Recent advances in the precision medicine approach allowed us to identify new molecular markers in BTCs, such as epigenetic changes (methylation and histone modification) and non-DNA markers such as messenger RNA, microRNA, and long non-coding RNA. It also made detecting these markers from non-traditional sources such as blood, urine, bile, and cytology (from fine-needle aspiration and biliary brushings) possible. As these tests become more accessible, we can see the integration of different molecular markers from all available sources to aid physicians in diagnosing, assessing prognosis, predicting tumor response, and screening BTCs. Currently, there are a handful of approved targeted therapies and only one class of immunotherapy agents (immune checkpoint inhibitors or ICIs) to treat BTCs. Early success with new targets, vascular endothelial growth factor receptor (VEGFR), HER2, protein kinase receptor, and Dickkopf-1 (DKK1); new drugs for known targets, fibroblast growth factor receptors (FGFRs) such as futabatinib, derazantinib, and erdafitinib; and ICIs such as durvalumab and tremelimumab is encouraging. Novel immunotherapy agents such as bispecific antibodies (bintrafusp alfa), arginase inhibitors, vaccines, and cellular therapy (chimeric antigen receptor—T cell or CAR-T, natural killer cells, tumor-infiltrating lymphocytes) have the potential to improve outcomes of BTCs in the coming years.

Published

2021

163. Noninvasive prenatal testing: Advancing through a virtuous circle of science, technology and clinical applications

Author

Y.M. Dennis Lo

Subjects

Adult, Fetal dna, Massive parallel sequencing, Computer science, Noninvasive Prenatal Testing, Obstetrics and Gynecology, Maternal blood, Data science, Virtuous circle and vicious circle, Transplantation, Pregnancy, Circulating DNA, Humans, Female, Genetics (clinical)

Abstract

BACKGROUND Since the discovery of cell-free fetal DNA in maternal blood in 1997, the interplay of basic scientific observations and technological developments have continued to drive new clinical applications in the field. AIMS This commentary discusses a number of examples in this virtuous circle of science, technology and clinical applications. MATERIALS & METHODS: Commentary and literature review. RESULTS One example of technological developments is the detection technologies for detecting circulating DNA, moving from conventional PCR, to real-time PCR, to massively parallel sequencing. One example of basic scientific understanding is the size and fragmentation patterns of circulating DNA. DISCUSSION Beyond creating a global paradigm in prenatal medicine, the development of noninvasive prenatal testing has also impacted other areas such as cancer screening and transplantation monitoring. Finally, the commentary looks forward to what might be in store in the next decade.

Published

2021

164. Combined Detection of Copy Number Variations of MYCN and ALK using Droplet Digital Polymerase Chain Reaction to Identify High-Risk Patients with Neuroblastoma

Author

Trupti Trivedi, Harsha Panchal, Kinjal Panchal, Neha Bhalala, and Priti Trivedi

Subjects

N-Myc Proto-Oncogene Protein, DNA Copy Number Variations, business.industry, Multivariate survival, Polymerase Chain Reaction, Neuroblastoma, Cancer research, Circulating DNA, Medicine, Humans, Surgery, Digital polymerase chain reaction, High risk neuroblastoma, Anaplastic Lymphoma Kinase, Neurology (clinical), Copy-number variation, business, Cell-Free Nucleic Acids

Abstract

The current study sought to explore the significance of copy number variations (CNVs) of MYCN (v-myc myelocytomatosis viral related oncogene, neuroblastoma derived [avian]) and ALK (anaplastic lymphoma kinase) genes individually as well as their combined impact on clinical outcome and overall survival of patients with neuroblastoma (NB).A total 71 individuals including healthy controls (n = 11), circulating DNA (n = 11), and primary tumors (n = 49) were evaluated to detect CNVs of MYCN and ALK genes using droplet digital polymerase chain reaction. Data were correlated with univariate and multivariate survival analysis.CNVs of MYCN and ALK were detected in 27% and 18.2% from circulating DNA samples. A statistically significant difference in CNVs was noted between healthy controls and circulating DNA samples for MYCN (P = 0.001) and ALK (P = 0.004) genes. Further, we noted70% concordance in CNVs of MYCN (P = 0.030) and ALK (P = 0.040) from primary tumors and concordant plasma samples of patients with NB. Multivariate survival analysis for disease-free survival (P = 0.031) and overall survival (P = 0.011) showed that CNVs of both genes emerged at step 1 and thus remained as significant markers for predicting early recurrence and shorter survival, respectively, for patients with NB.Our study showed that the analysis of circulating DNA by droplet digital polymerase chain reaction is a helpful technique to identify high-risk patients for aggressive therapy at an early stage of disease. We also concluded that codetection of MYCN and ALK is a more powerful tool for identifying high-risk patients with NB. Thus, this study showed a novel coordinately significant prognostic role of MYCN and ALK CNVs.

Published

2021

165. Current Trends in Cell-Free DNA Applications. Scoping Review of Clinical Trials

Author

Ewelina Perdas, Robert Stawski, Dariusz Nowak, Emilia Stec-Martyna, and Adam Chmielecki

Subjects

medicine.medical_specialty, clinical trials, General Immunology and Microbiology, QH301-705.5, Diagnostic accuracy, Review, dd cf-DNA, Biology, Analysis of clinical trials, Free dna, General Biochemistry, Genetics and Molecular Biology, cf-DNA, Clinical trial, Clinical Practice, medicine, Circulating DNA, cancer, Clinical care, ct-DNA, Biology (General), General Agricultural and Biological Sciences, Intensive care medicine, NIPT

Abstract

Simple Summary Cell-free DNA is present in the plasma and serum of healthy subjects, however, its level is usually much higher in people after physical effort, patients with various diseases such as trauma, sepsis, and also in patients with some cancers. In this concise review, we show the current state of cell-free DNA applications based on clinical trials registered until April 2021. Furthermore, we attempt to summarize a large number of clinical trials and resolve discrepancies raised by these trials. Despite a large number of trials, more studies should include at least 1000 participants and be conducted in large multicenter projects in order to find more accurate results before cfDNA can replace standard diagnostics or often ineffective and hazardous biopsy. Abstract We aimed to summarize the current knowledge about the trends in cfDNA application based on the analysis of clinical trials registered until April 2021. International Clinical Trials Registry Platform (ICTRP) and Clinicaltrials.gov were searched with the keywords: “cf-DNA”; “Circulating DNA”; “Deoxyribonucleic Acid”; and “Cell-Free Deoxyribonucleic Acid”. Of 605 clinical trials, we excluded 237 trials, and 368 remaining ones were subject to further analysis. The subject, number of participants, and study design were analyzed. Our scoping review revealed three main trends: oncology (n = 255), non-invasive prenatal diagnostic (n = 48), and organ transplantation (n = 41), and many (n = 22) less common such as sepsis, sport, or autoimmune diseases in 368 clinical trials. Clinical trials are translating theory into clinical care. However, the diagnostic value of cfDNA remains controversial, and diagnostic accuracy still needs to be evaluated. Thus, further studies are necessary until cfDNA turns into a standard in clinical practice.

Published

2021

166. "SMART" digital nucleic acid amplification technologies for lung cancer monitoring from early to advanced stages.

Author

Ren, Yulin, Cao, Lei, You, Minli, Ji, Jingcheng, Gong, Yan, Ren, Hui, Xu, Feng, Guo, Hui, Hu, Jie, and Li, Zedong

Subjects

*LUNG cancer, *NUCLEIC acids, *TUMOR markers, *POLYMERASE chain reaction, *BODY fluids

Abstract

Recently, liquid biopsy based on detection of circulating nucleic acid (NA) biomarkers from body fluids has emerged as a promising strategy for lung cancer monitoring. Considering extremely low abundance of circulating NA in body fluids and the interference of normal cell-free NA, digital NA amplification (digital NAA) technologies (i.e. , digital polymerase chain reaction and digital isothermal amplification) with high sensitivity and specificity have been demonstrated to be well suited for early diagnosis, minimal residual disease detection, prognosis prediction and companion diagnosis of lung cancer. In this paper, we firstly summarized the evolution of digital NAA technologies. On this basis, we proposed " SMART " (i.e. , S uper-fast, M ultiplex, A utomated, integ R a T ed) digital NAA technologies for accelerating wider applications in lung cancer monitoring. Then, the existing NA biomarkers at different stage of lung cancer were summarized, and existing digital NAA methods for detecting these biomarkers were introduced. Finally, conclusions and future perspectives were proposed. • " SMART " (S uperfast, M ultiplex, A utomated, integ R a T ed) digital NAA technologies are proposed. • Different leading NA biomarkers at different stages of lung cancer are summarized. • Early-stage lung cancer NA biomarkers are compared from the aspect of stability, sensitivity, specificity and panel size. • Existing digital NAA technologies employed for lung cancer monitoring have been summarized. [ABSTRACT FROM AUTHOR]

Published

2022

167. Methylation of cell-free circulating DNA in the diagnosis of cancer

Author

Goli eSamimi and Kristina eWarton

Subjects

Methylation, Cancer, diagnosis, Early detection, Circulating DNA, Plasma DNA, Biology (General), QH301-705.5

Abstract

A range of molecular alterations found in tumor cells, such as DNA mutations and methylation changes, is also reflected in cell-free circulating DNA (circDNA) released from the tumor into the blood, thereby making circDNA an ideal candidate for the basis of a blood-based cancer diagnosis test. In many cancer types, mutations driving tumor development and progression are present in a wide range of oncogenes and tumor suppressor genes. However, even when a gene is consistently mutated in a particular cancer, the mutations can be spread over very large regions of its sequence, making evaluation difficult. This diversity of sequence changes in tumor DNA presents a challenge for the development of blood tests based on DNA mutations for cancer diagnosis. DNA methylation is a common molecular alteration found in many cancer types. Unlike DNA mutations, DNA methylation that can be consistently measured, as it tends to occur in specific regions of the DNA called CpG islands. DNA methylation is reflected within circDNA and therefore detection of tumor-specific DNA methylation in patient plasma is a feasible approach for the development of a blood-based test. Aberrant circDNA methylation has been described in most cancer types and is actively being investigated for clinical applications. A commercial blood test for colorectal cancer based on the methylation of the SEPT9 promoter region in circDNA is under review for approval by the Federal Drug Administration (FDA) for clinical use. In this paper, we review the state of research in circDNA methylation as an application for blood-based diagnostic tests in colorectal, breast, lung, pancreatic and ovarian cancers, and we consider some of the future directions and challenges in this field. There are a number of potential circDNA biomarkers currently under investigation, and experience with SEPT9 shows that the time to clinical translation can be relatively rapid, supporting the promise of circDNA as a biomarker.

Published

2015

168. Aberrant methylation of cell-free circulating DNA in plasma predicts poor outcome in diffuse large B cell lymphoma.

Author

Kristensen, Lasse Sommer, Hansen, Jakob Werner, Kristensen, Søren Sommer, Tholstrup, Dorte, Schram Harsløf, Laurine Bente, De Nully Brown, Peter, Grønbæk, Kirsten, and Pedersen, Ole Birger

Subjects

*DIFFUSE large B-cell lymphomas, *EPIGENETICS, *BIOMARKERS, *THERAPEUTICS

Abstract

Background: The prognostic value of aberrant DNA methylation of cell-free circulating DNA in plasma has not previously been evaluated in diffuse large B cell lymphoma (DLBCL). The aim of this study was to investigate if aberrant promoter DNA methylation can be detected in plasma from DLBCL patients and to evaluate this as a prognostic marker. Furthermore, we wanted to follow possible changes in methylation levels during treatment. Seventy-four patients were enrolled in the study, of which 59 received rituximab and CHOP-like chemotherapy. Plasma samples were collected from all patients at the time of diagnosis and from 14 healthy individuals used as controls. In addition, plasma samples were collected during and after treatment for surviving patients. In total, 158 plasma samples were analyzed for DNA methylation in the promoter regions of DAPK (DAPK1), DBC1, MIR34A, and MIR34B/C using pyrosequencing. Results: Aberrant methylation levels at the time of diagnosis were detected in 19, 16, 8, and 10 % of the DLBCL plasma samples for DAPK1, DBC1, MIR34A, and MIR34B/C, respectively. DAPK1 methylation levels were significantly correlated with DBC1 and MIR34B/C methylation levels (P < 0.001). For the entire cohort, 5-year overall survival (OS) rates were significantly lower in the groups carrying aberrant DAPK1 (P = 0.004) and DBC1 (P = 0.044) methylation, respectively. DAPK1 methylation status were significantly correlated with stage (P = 0.015), as all patients with aberrant DAPK1 methylation were stages III and IV. Multivariate analysis identified DAPK1 as an independent prognostic factor for OS with a hazard ratio of 8.9 (95 % CI 2.7–29.3, P < 0.0007). Patients with DAPK1 methylated cell-free circulating DNA at time of diagnosis, who became long-term survivors, lost the aberrant methylation after treatment initiation. Conversely, patients that maintained or regained aberrant DAPK1 methylation died soon thereafter. Conclusions: Aberrant promoter methylation of cell-free circulating DNA can be detected in plasma from DLBCL patients and hold promise as an easily accessible marker for evaluating response to treatment and for prognostication. In particular, aberrant DAPK1 methylation in plasma was an independent prognostic marker that may also be used to assess treatment response. [ABSTRACT FROM AUTHOR]

Published

2016

169. Hypomethylation of human-specific family of LINE-1 retrotransposons in circulating DNA of lung cancer patients.

Author

Gainetdinov, Ildar V., Kapitskaya, Kristina Yu., Rykova, Elena Yu., Ponomaryova, Anastasia A., Cherdyntseva, Nadezda V., Vlassov, Valentin V., Laktionov, Pavel P., and Azhikina, Tatyana L.

Subjects

*CIRCULATING tumor DNA, *LUNG cancer diagnosis, *LUNG cancer patients, *METHYLATION, *RETROTRANSPOSONS, *BIOMARKERS, *POLYMERASE chain reaction, *QUANTITATIVE research

Abstract

Circulating DNA has recently gained attention as a fast and non-invasive way to assess tumor biomarkers. Since hypomethylation of LINE-1 repetitive elements was described as one of the key hallmarks of tumorigenesis, we aimed to establish whether the methylation level of LINE-1 retrotransposons changes in cell-surface-bound fraction of circulating DNA (csbDNA) of lung cancer patients. Methylated CpG Island Recovery Assay (MIRA) coupled to qPCR-based quantitation was performed to assess integral methylation level of LINE-1 promoters in csbDNA of non-small cell lung cancer patients (n = 56) and healthy controls (n = 44). Deep sequencing of amplicons revealed that hypomethylation of LINE-1 promoters in csbDNA of lung cancer patients is more pronounced for the human-specific L1Hs family. Statistical analysis demonstrates significant difference in LINE-1 promoter methylation index between cancer patients and healthy individuals (ROC-curve analysis: n = 100, AUC = 0.69, p = 0.0012) and supports the feasibility of MIRA as a promising non-invasive approach. [ABSTRACT FROM AUTHOR]

Published

2016

170. Digital PCR for quantification of recurrent and potentially actionable somatic mutations in circulating free DNA from patients with diffuse large B-cell lymphoma.

Author

Camus, Vincent, Sarafan-Vasseur, Nasrin, Bohers, Elodie, Dubois, Sydney, Mareschal, Sylvain, Bertrand, Philippe, Viailly, Pierre-Julien, Ruminy, Philippe, Maingonnat, Catherine, Lemasle, Emilie, Stamatoullas, Aspasia, Picquenot, Jean-Michel, Cornic, Marie, Beaussire, Ludivine, Bastard, Christian, Frebourg, Thierry, Tilly, Hervé, and Jardin, Fabrice

Subjects

*LYMPHOMAS, *B cell lymphoma, *DNA, *NUCLEOTIDE sequence, *POLYMERASE chain reaction, *GENETICS

Abstract

Diffuse large B-cell lymphoma (DLBCL) is an aggressive and heterogeneous malignancy harboring frequent targetable activating somatic mutations. Emerging evidence suggests that circulating cell-free DNA (cfDNA) can be used to detect somatic variants in DLBCL using Next-Generation Sequencing (NGS) experiments. In this proof-of-concept study, we chose to develop simple and valuable digital PCR (dPCR) assays for the detection of recurrent exportin-1 (XPO1) E571K,EZH2Y641N, andMYD88L265P mutations in DLBCL patients, thereby identifying patients most likely to potentially benefit from targeted therapies. We demonstrated that our dPCR assays were sufficiently sensitive to detect rareXPO1,EZH2, andMYD88mutations in plasma cfDNA, with a sensitivity of 0.05%. cfDNA somatic mutation detection by dPCR seems to be a promising technique in the management of DLBCL, in addition to NGS experiments. [ABSTRACT FROM AUTHOR]

Published

2016

171. Genomic Alterations in Liquid Biopsies from Patients with Bladder Cancer.

Author

Birkenkamp-Demtröder, Karin, Nordentoft, Iver, Christensen, Emil, Høyer, Søren, Reinert, Thomas, Vang, Søren, Borre, Michael, Agerbæk, Mads, Jensen, Jørgen Bjerggaard, Ørntoft, Torben F., and Dyrskjøt, Lars

Subjects

*BLADDER cancer patients, *BLADDER cancer diagnosis, *BIOPSY, *BLADDER cancer, *BIOMARKERS, *RETROSPECTIVE studies, *PROGNOSIS

Abstract

Background At least half of the patients diagnosed with non–muscle-invasive bladder cancer (NMIBC) experience recurrence and approximately 15% will develop progression to muscle invasive or metastatic disease. Biomarkers for disease surveillance are urgently needed. Objective Development of assays for surveillance using genomic variants in cell-free tumour DNA from plasma and urine. Design, setting, and participants Retrospective pilot study of 377 samples from 12 patients with recurrent or progressive/metastatic disease. Three next-generation sequencing methods were applied and somatic variants in DNA from tumour, plasma, and urine were subsequently monitored by personalised assays using droplet digital polymerase chain reaction (ddPCR). Samples were collected from 1994 to 2015, with up to 20 yr of follow-up. Outcome measurements and statistical analysis Progression to muscle-invasive or metastatic bladder cancer; t test for ddPCR data. Results and limitations We developed from one to six personalised assays per patient. Patients with progressive disease showed significantly higher levels of tumour DNA in plasma and urine before disease progression, compared with patients with recurrent disease ( p = 0.032 and 1.3 × 10 −6 , respectively). Interestingly, tumour DNA was detected in plasma and urine in patients with noninvasive disease, being no longer detectable in disease-free patients. A significant level of heterogeneity was observed for each patient; this could be due to tumour heterogeneity or assay performance. Conclusions Cell-free tumour DNA can be detected in plasma and urine, even in patients with noninvasive disease, with high levels of tumour DNA detectable before progression, especially in urine samples. Personalised assays of genomic variants may be useful for disease monitoring. Patient summary Tumour DNA can be detected in blood and urine in early and advanced stages of bladder cancer. Measurement of these highly tumour-specific biomarkers may represent a novel diagnostic tool to indicate the presence of residual disease or to discover aggressive forms of bladder cancer early in the disease course. [ABSTRACT FROM AUTHOR]

Published

2016

172. Digital PCR assay detection of circulating Mycobacterium tuberculosis DNA in pulmonary tuberculosis patient plasma.

Author

Ushio, Ryota, Yamamoto, Masaki, Nakashima, Kentaro, Watanabe, Hiroki, Nagai, Kenjiro, Shibata, Yuji, Tashiro, Ken, Tsukahara, Toshinori, Nagakura, Hideyuki, Horita, Nobuyuki, Sato, Takashi, Shinkai, Masaharu, Kudo, Makoto, Ueda, Atsuhisa, and Kaneko, Takeshi

Abstract

Summary Nucleic acid amplification tests are a major diagnostic tool for pulmonary tuberculosis (PTB). Recently, digital PCR (dPCR) assay has improved sensitivity for the detection of small copy numbers of target molecules. The aim of this study is to explore the utility of dPCR for detecting Mycobacterium tuberculosis (MTB) DNA in PTB patient plasma. Total DNA was purified from plasma samples of newly diagnosed sputum smear-positive PTB patients. Copy numbers of MTB-specific genes in the samples were quantified with dPCR assays targeted for IS6110 or gyrB . A total of 33 PTB patients were enrolled. Significant differences between PTB patients and controls were observed in copy numbers of both targets: IS6110 mean ± SD, 144.8 ± 538.3 vs 0.44 ± 0.49 (copies/20 μL, p = 0.004; Mann–Whitney U test) and gyrB mean ± SD, 359.0 ± 2116 vs 0.07 ± 0.28 (copies/20 μL, p = 0.011; Mann–Whitney U test), respectively. This test had sensitivities of 65% or 29% and a specificity of 93% or 100% with the IS6110 -targeted or gyrB -targeted assays, respectively. A dPCR assay successfully detected MTB DNA in PTB patient plasma. This minimally invasive and accurate method has potential to become an alternative diagnostic option. [ABSTRACT FROM AUTHOR]

Published

2016

173. Darwin's Pangenesis as a molecular theory of inherited diseases.

Author

Liu, Yongsheng and Li, Xiuju

Subjects

*GENETIC disorders, *HEREDITY, *MOLECULAR theory, *PRIONS, *HYPOTHESIS, *MOLECULAR genetics

Abstract

Darwin spent much time and effort on the study of inherited diseases and the role of environment in disease development. To explain inherited diseases and a considerable variety of other hereditary phenomena, he formulated a Pangenesis hypothesis, assuming that cells could shed many kinds of molecules capable of diffusion from cell to cell, circulation throughout the body, incorporation into recipient cells, and transmission from parents to offspring. His Pangenesis is now supported by the discovery of circulating DNA, mobile RNAs and prions, and might provide an alternative molecular mechanism underlying the inherited diseases. [ABSTRACT FROM AUTHOR]

Published

2016

174. Identification of tissue-specific cell death using methylation patterns of circulating DNA.

Author

Lehmann-Werman, Roni, Neiman, Daniel, Zemmour, Hai, Moss, Joshua, Magenheim, Judith, Vaknin-Dembinsky, Adi, Rubertsson, Sten, Nellgård, Bengt, Blennow, Kaj, Zetterberg, Henrik, Spalding, Kirsty, Haller, Michael J., Wasserfall, Clive H., Schatz, Desmond A., Greenbaum, Carla J., Dorrell, Craig, Grompe, Markus, Zick, Aviad, Hubert, Ayala, and Maoz, Myriam

Subjects

*CELL death, *DNA methylation, *PANCREATIC beta cells, *OLIGODENDROGLIA, *BRAIN injuries, *PATIENTS, *PANCREATIC cancer, *CANCER patients, *PANCREATITIS

Abstract

Minimally invasive detection of cell death could prove an invaluable resource in many physiologic and pathologic situations. Cell-free circulating DNA (cfDNA) released from dying cells is emerging as a diagnostic tool for monitoring cancer dynamics and graft failure. However, existing methods rely on differences in DNA sequences in source tissues, so that cell death cannot be identified in tissues with a normal genome .We developed a method of detecting tissue-specific cell death in humans based on tissue-specific methylation patterns in cfDNA. We interrogated tissue-specific methylome databases to identify cell type specific DNA methylation signatures and developed a method to detect these signatures in mixed DNA samples. We isolated cfDNA from plasma or serum of donors, treated the cfDNA with bisulfite, PCR amplified the cfDNA, and sequenced it to quantify cfDNA carrying the methylation markers of the cell type of interest. Pancreatic β-cell DNA was identified in the circulation of patients with recently diagnosed type-1 diabetes and islet-graft recipients; oligodendrocyte DNA was identified in patients with relapsing multiple sclerosis; neuronal/glial DNA was identified in patients after traumatic brain injury or cardiac arrest; and exocrine pancreas DNA was identified in patients with pancreatic cancer or pancreatitis. This proof-of-concept study demonstrates that the tissue origins of cfDNA and thus the rate of death of specific cell types can be determined in humans. The approach can be adapted to identify cfDNA derived from any cell type in the body, offering a minimally invasive window for diagnosing and monitoring a broad spectrum of human pathologies as well as providing a better understanding of normal tissue dynamics. [ABSTRACT FROM AUTHOR]

Published

2016

175. Methylated circulating tumor DNA in blood: power in cancer prognosis and response.

Author

Warton, Kristina, Mahon, Kate L., and Samimi, Goli

Subjects

*CANCER prognosis, *METHYLATION, *DNA methylation, TUMOR genetics

Abstract

Circulating tumor DNA (ctDNA) in the plasma or serum of cancer patients provides an opportunity for non-invasive sampling of tumor DNA. This 'liquid biopsy' allows for interrogations of DNA such as quantity, chromosomal alterations, sequence mutations and epigenetic changes, and can be used to guide and improve treatment throughout the course of the disease. This tremendous potential for real-time 'tracking' in a cancer patient has led to substantial research efforts in the ctDNA field. ctDNA can be distinguished from non-tumor DNA by the presence of tumor-specific mutations and copy number variations, and also by aberrant DNA methylation, with both DNA sequence and methylation changes corresponding to those found in the tumor. Aberrant methylation of specific promoter regions can be a very consistent feature of cancer, in contrast to mutations, which typically occur at a wide range of sites. This consistency makes ctDNA methylation amenable to the design of widely applicable clinical assays. In this review, we examine ctDNA methylation in the context of monitoring disease status, treatment response and determining the prognosis of cancer patients. [ABSTRACT FROM AUTHOR]

Published

2016

176. 26th World Congress of the International Association of Surgeons, Gastroenterologists and Oncologists (IASGO 2016).

Subjects

*GASTROENTEROLOGY, *ONCOLOGY

Abstract

Abstracts of the oral and poster presentations and video festivals presented at the 26th World Congress of the International Association of Surgeons, Gastroenterologists and oncologists (IASGO) that will be held on September 8-10, 2016 in Seoul, South Korea are presented.

Published

2016

177. Les biomarqueurs circulants du cancer : avantages et perspectives.

Author

Dolfus, Claire, Toure, Emmanuel, Blanchard, France, and Sabourin, Jean-Christophe

Abstract

Résumé Les principaux biomarqueurs circulants du cancer sont les cellules tumorales circulantes (CTC) et l’ADN tumoral circulant (ADNtc). Les CTC, cellules issues de la tumeur, présentes dans la circulation sanguine, peuvent être détectées après diverses techniques d’enrichissement. Les CTC isolées par technique Veridex ® ont été validées par la Food and Drug Administration (FDA) comme un marqueur pronostique et de suivi dans les cancers mammaires, prostatiques et colorectaux. Les CTC sont également prometteuses comme marqueur diagnostique et prédictif de réponse aux thérapies ciblées. Les techniques microfluidiques, nanostructures permettant la manipulation de microlitres de fluides, permettent d’augmenter la précision et la sensibilité de l’enrichissement. L’ADNtc, issu de la sécrétion active des cellules vivantes ou passive de cellules en nécrose, est décelé par la recherche de mutations dans l’ADN libre plasmatique par différentes techniques. Des mutations de sensibilité ou de résistance à des thérapies ciblées peuvent être analysées. L’ADNtc montre aussi un intérêt comme marqueur pronostique et de suivi tumoral. Dans les tumeurs difficilement accessibles, l’ADNtc peut être une aide diagnostique. De nouvelles plateformes automatisées proposent la recherche d’ADNtc en moins de 150 minutes. Dans l’avenir, des techniques plus sensibles et plus rapides pour ces deux biomarqueurs circulants, pourraient permettre un véritable monitoring et ainsi une thérapie personnalisée adaptée à chaque étape de la maladie tumorale. Summary CTCs, arising from the tumor present in the blood stream, can be detected after various enrichment techniques. CTCs isolated by Veridex® technology has been validated by the FDA as a prognostic and follow up marker in breast, prostate and colorectal cancers. CTCs are also promising as a diagnostic and predictive marker of response to targeted therapies. Microfluidic techniques, nanostructures handling microliters of fluids, can increase the accuracy and sensitivity of enrichment. ctDNA, resulting from the active secretion of living tumor cells or passive secretion of tumor cells in necrosis, is detected by the search for mutations in plasma free DNA using various techniques. Therapy predictive mutations can be analyzed using ctDNA. ctDNA is also interesting as a prognostic and follow-up marker. In case of difficulties to sample tumors, ctDNA can be an interesting diagnostic tool. New automated platforms offer easy ctDNA detection in less than 150 minutes. In the near future, more sensitive and faster techniques for these circulating biomarkers will facilitate real-time monitoring enabling personalized therapy tailored to each stage of tumor disease. [ABSTRACT FROM AUTHOR]

Published

2016

178. Characterizing circulating nucleosomes in the plasma of dogs with lymphoma

Author

Jason Terrell, Jarvis Jill, Tasha Miller, Thomas Bygott, Theresa Kathleen Kelly, Christopher Dolan, and Heather Wilson-Robles

Subjects

Lymphoma, B-Cell, Lymphoma, Histone 3.1, Veterinary medicine, T cell, Circulating nucleosomes, Biology, Lymphoma, T-Cell, Canine, Dogs, SF600-1100, medicine, Animals, Nucleosome, Circulating DNA, Dog Diseases, Histone octamer, B cell, Cell free DNA, General Veterinary, Research, Cancer, General Medicine, medicine.disease, Molecular biology, Nucleosomes, Chromatin, medicine.anatomical_structure, Cell-free fetal DNA, Case-Control Studies

Abstract

Background: Nucleosomes consist of DNA wrapped around a histone octamer core like beads on a string so that DNA can be condensed as chromatin into chromosomes. Diseases such as cancer or inflammation lead to cell death where chromatin is fragmentated and released as mononucleosomes into the blood. The Nu.QTM H3.1 assay measures total nucleosome concentration in plasma of humans and has been used to detect and identify cancer even at early stages. The objectives of this study were to determine if nucleosome levels could be used to distinguish between healthy dogs and dogs with various stages of lymphoma (LSA) using the Nu.Q™ H3.1 assay. A total of 126 dogs diagnosed with LSA and 134 healthy controls were recruited for this study. Plasma was collected from each dog and stored in K2-EDTA tubes. The LSA patient samples were recruited from TAMU or purchased from various biobanks. All control cases were recruited from TAMU. Samples were also collected longitudinally from 3 dogs undergoing treatment for multicentric lymphoma at TAMU as a pilot study to investigate the pattern of nucleosome concentrations in plasma during treatment. Results: Dogs with LSA had an approximately 7-fold increase in their plasma nucleosome concentrations compared to controls (AUC 87.8%). Nucleosome concentrations increased with cancer stage and dogs with B cell lymphomas had significantly higher nucleosome concentrations than dogs with T cell lymphomas. Nucleosome concentrations from serially monitored patients were elevated at diagnosis and progression with subsequent decreases in nucleosome concentration that corresponded to clinically detectable responses to therapy. Conclusions: The Nu.QTM H3.1 assay was able to reliably detect elevated nucleosome concentrations in the plasma of dogs with LSA. Furthermore, it appears that nucleosomes are useful for differentiating cancer from healthy individuals in canines. Results from serially monitored patients indicate that nucleosomes could be an objective monitoring tool for remission status in canine lymphoma patients.

Published

2021

179. Cell-Free Circulating DNA

Author

Kristina Warton and Goli Samimi

Subjects

Biochemistry, Chemistry, Circulating DNA, Cell free

Published

2021

180. Circulating DNA in Serum as a Tumor Marker in Precancerous Lesions of the Cervix in Mexican Women

Author

Alcántara-Quintana Luz Eugenia

Subjects

Pathology, medicine.medical_specialty, medicine.anatomical_structure, business.industry, medicine, Circulating DNA, business, Cervix, Tumor marker

Published

2021

181. Re: Gillian Vandekerkhove, Werner J. Struss, Matti Annala, et al. Circulating Tumor DNA Abundance and Potential Utility in De Novo Metastatic Prostate Cancer. Eur Urol 2019;75:667–75

Author

Marina Scarpelli, Rodolfo Montironi, Francesco Montorsi, Alessia Cimadamore, Antonio Lopez-Beltran, and Liang Cheng

Subjects

Cell-Free Nucleic Acids, Prostate cancer, Circulating tumor DNA, business.industry, Urology, Cancer research, medicine, Circulating DNA, Castration resistant, medicine.disease, business, Blood stream

Published

2019

182. Liquid Biopsy by Next-Generation Sequencing: a Multimodality Test for Management of Cancer

Author

Sanam Loghavi, Hanadi El Achi, and Joseph D. Khoury

Subjects

Cancer Research, Tumor cells, Computational biology, DNA sequencing, Circulating Tumor DNA, 03 medical and health sciences, 0302 clinical medicine, Neoplasms, Biomarkers, Tumor, Humans, Medicine, Liquid biopsy, business.industry, Geriatrics gerontology, Health Policy, Liquid Biopsy, Disease Management, High-Throughput Nucleotide Sequencing, Cancer, Hematology, medicine.disease, Clinical Practice, Oncology, Circulating tumor DNA, 030220 oncology & carcinogenesis, Circulating DNA, business, 030215 immunology

Abstract

While liquid biopsy is still relatively a new concept, the advent of next-generation sequencing (NGS) technologies has recently generated a revolution in the field and will be the focus of this review. Circulating tumor DNA (ctDNA) derives from tumor cells and provides information about the genetic alterations of tumors. However, ctDNA concentration in plasma can be below the level of detection by conventional methods; therefore, screening for actionable genetic information is challenging. Clinical trials exploring targeted and untargeted sequencing to improve the outcomes of ctDNA detection are showing promising results, having reached a limit of detection as low as 0.001% of ctDNA in a background of normal circulating DNA. Most of the challenges related to the sensitivity of detection of ctDNA have been defeated by dint of NGS-based approaches. Despite all the efforts, these methods are still expensive, time-consuming, and require advanced skills for appropriate interpretation. Nevertheless, the technology is rapidly improving, and the expectations for the implementation of liquid biopsy into the clinical practice in the near future are high.

Published

2019

183. Liquid Biopsy: Is There an Advantage to Analyzing Circulating Exosomal DNA Compared to cfDNA or Are They the Same?

Author

Christoph Kahlert

Subjects

0301 basic medicine, Cancer Research, Early detection, Disease, Exosomes, Polymerase Chain Reaction, 03 medical and health sciences, chemistry.chemical_compound, 0302 clinical medicine, Neoplasms, Biomarkers, Tumor, Humans, Medicine, Liquid biopsy, business.industry, Liquid Biopsy, Diagnostic marker, DNA, Neoplasm, 030104 developmental biology, Therapy response, Oncology, chemistry, Neoplasms diagnosis, 030220 oncology & carcinogenesis, Cancer research, Circulating DNA, business, Cell-Free Nucleic Acids, DNA

Abstract

Cancer is one of the leading causes of death worldwide. This life-threatening disease requires novel strategies for the early detection and therapy response prediction. Circulating DNA was first described 70 years ago. However, only the recent evolution in the PCR-based sequencing techniques allow the minimally invasive molecular profiling of circulating mutant DNA from small-volume “liquid biopsies” such as blood, urine, or saliva. In this article, we aim to summarize the fast-growing evidence for cfDNA and exosomal DNA as minimally invasive diagnostic markers in solid tumors and to highlight their opposing diagnostic advantages and disadvantages.

Published

2019

184. Walking pathways with positive feedback loops reveal DNA methylation biomarkers of colorectal cancer

Author

Leonid S. Leskov, Alexander E. Kel, Manel Esteller, Olga V. Kel-Margoulis, Ulyana A. Boyarskikh, Sebastian Moran, Philip Stegmaier, Daria Stelmashenko, Anna Martínez-Cardús, Nikita Mandrik, Jeannette Koschmann, Edgar Wingender, Andrey Sokolov, Fedor A. Kolpakov, Ivan S. Yevshin, Mathias Krull, and Maxim L. Filipenko

Subjects

Male, Signal transduction, Biochemistry, Epigenesis, Genetic, 0302 clinical medicine, Structural Biology, lcsh:QH301-705.5, Epigenomics, Transcription factor binding sites, Regulation of gene expression, Feedback, Physiological, 0303 health sciences, DNA methylation, Applied Mathematics, Middle Aged, 3. Good health, Computer Science Applications, Gene Expression Regulation, Neoplastic, CpG site, Genetic algorithm, Prognostic biomarkers, 030220 oncology & carcinogenesis, lcsh:R858-859.7, Female, DNA microarray, Colorectal Neoplasms, Computational biology, Biology, lcsh:Computer applications to medicine. Medical informatics, 03 medical and health sciences, Multi-omics analysis, medicine, Biomarkers, Tumor, Humans, Circulating DNA, Epigenetics, Molecular Biology, 030304 developmental biology, Neoplasm Staging, Binding Sites, Gene Expression Profiling, Research, Cancer, medicine.disease, Colorectal cancer, DNA binding site, lcsh:Biology (General), CpG Islands, Prognostic biomarkers, Colorectal cancer, Multi-omics analysis, DNA methylation, Circulating DNA, Transcription factor binding sites, Signal transduction, Genetic algorithm, Transcription Factors

Abstract

Background The search for molecular biomarkers of early-onset colorectal cancer (CRC) is an important but still quite challenging and unsolved task. Detection of CpG methylation in human DNA obtained from blood or stool has been proposed as a promising approach to a noninvasive early diagnosis of CRC. Thousands of abnormally methylated CpG positions in CRC genomes are often located in non-coding parts of genes. Novel bioinformatic methods are thus urgently needed for multi-omics data analysis to reveal causative biomarkers with a potential driver role in early stages of cancer. Methods We have developed a method for finding potential causal relationships between epigenetic changes (DNA methylations) in gene regulatory regions that affect transcription factor binding sites (TFBS) and gene expression changes. This method also considers the topology of the involved signal transduction pathways and searches for positive feedback loops that may cause the carcinogenic aberrations in gene expression. We call this method “Walking pathways”, since it searches for potential rewiring mechanisms in cancer pathways due to dynamic changes in the DNA methylation status of important gene regulatory regions (“epigenomic walking”). Results In this paper, we analysed an extensive collection of full genome gene-expression data (RNA-seq) and DNA methylation data of genomic CpG islands (using Illumina methylation arrays) generated from a sample of tumor and normal gut epithelial tissues of 300 patients with colorectal cancer (at different stages of the disease) (data generated in the EU-supported SysCol project). Identification of potential epigenetic biomarkers of DNA methylation was performed using the fully automatic multi-omics analysis web service “My Genome Enhancer” (MGE) (my-genome-enhancer.com). MGE uses the database on gene regulation TRANSFAC®, the signal transduction pathways database TRANSPATH®, and software that employs AI (artificial intelligence) methods for the analysis of cancer-specific enhancers. Conclusions The identified biomarkers underwent experimental testing on an independent set of blood samples from patients with colorectal cancer. As a result, using advanced methods of statistics and machine learning, a minimum set of 6 biomarkers was selected, which together achieve the best cancer detection potential. The markers include hypermethylated positions in regulatory regions of the following genes: CALCA, ENO1, MYC, PDX1, TCF7, ZNF43. Electronic supplementary material The online version of this article (10.1186/s12859-019-2687-7) contains supplementary material, which is available to authorized users.

Published

2019

185. Characterization of circulating DNA in plasma of patients after allogeneic bone grafting

Author

Bettina Steinbach, Guido Heydecke, Klaus Pantel, Heidi Schwarzenbach, Önder Solakoglu, and Werner Götz

Subjects

Male, Pathology, medicine.medical_specialty, Bone Regeneration, Base pair, Y chromosome, Transplantation, Autologous, 03 medical and health sciences, chemistry.chemical_compound, 0302 clinical medicine, Alveolar ridge, medicine, Humans, Prospective Studies, General Dentistry, Glyceraldehyde 3-phosphate dehydrogenase, Dental Implants, Gel electrophoresis, Bone Transplantation, biology, business.industry, Hematopoietic Stem Cell Transplantation, 030206 dentistry, Real-time polymerase chain reaction, chemistry, 030220 oncology & carcinogenesis, biology.protein, Circulating DNA, Female, Patient Safety, business, Cell-Free Nucleic Acids, DNA

Abstract

Cell-free DNA (cfDNA) harboring mutations has been found in patients with diseases. Experimental studies have shown that cfDNA can be transmitted, leading to transformations in the host. In the present study, we evaluated whether bone allograft material contains cfDNA and whether this foreign cfDNA can be released into the patient’s blood circulation. Plasma samples were collected preoperatively and postoperatively on the same day, at 5 weeks, and 4 months from 25 women who received bone allograft material (test group) from male donors and from 10 women who were treated with autologous graft (control group, only pre- and postoperative samples were collected). DNA was quantified and characterized in bone material and plasma samples by quantitative PCR with primers specific for glyceraldehyde-3-phosphate dehydrogenase (GAPDH) and Y chromosome and gel electrophoresis. DNA in bone material was digested by different concentrations of DNase I. We detected between 1 and 1.8 μg cfDNA fragments at a length around 601 base pairs (bp) and smaller in each 100 mg allograft. Treatment of the allograft with DNase I completely degraded the longer but not the shorter DNA 90-bp fragments. Y-DNA was not detected in the patients’ bloodstream at any time during the treatment and follow-up, but elevated levels of circulating cfDNA could be measured immediately postoperatively. Our results suggest that a transmission of DNA from allografts used for alveolar ridge reconstruction in humans is unlikely. The observed increase in circulating cfDNA in allograft and autograft patients immediately postoperatively may be elicited by the surgical procedure. The results support the safety of allograft materials. The results suggest that human allograft materials seem not to release DNA into the blood since we did not measure Y-DNA with our technique.

Published

2019

186. Molecular tumor analysis and liquid biopsy: a feasibility investigation analyzing circulating tumor DNA in patients with central nervous system lymphomas

Author

Oliver Ganslandt, Markus Bittl, Anne Katrin Hickmann, Florian Battke, Saskia Biskup, Dennis Döcker, Dirk Hadaschik, and Maximilian Frick

Subjects

Adult, Male, 0301 basic medicine, Cancer Research, Pathology, medicine.medical_specialty, Lymphoma, B-Cell, Case Report, Sensitivity and Specificity, lcsh:RC254-282, Circulating Tumor DNA, Stereotaxic Techniques, 03 medical and health sciences, 0302 clinical medicine, Germline mutation, Cerebrospinal fluid, Targeted therapies, Surgical oncology, Biopsy, Genetics, medicine, Humans, Digital polymerase chain reaction, Circulating DNA, Liquid biopsy, Aged, medicine.diagnostic_test, Brain Neoplasms, Lumbar puncture, business.industry, High-Throughput Nucleotide Sequencing, Sequence Analysis, DNA, Middle Aged, medicine.disease, lcsh:Neoplasms. Tumors. Oncology. Including cancer and carcinogens, Magnetic Resonance Imaging, Personalized medicine, Lymphoma, 030104 developmental biology, Oncology, 030220 oncology & carcinogenesis, Mutation, Female, CNS-lymphoma, Tomography, X-Ray Computed, business, Cell-Free Nucleic Acids

Abstract

Background Central nervous system lymphomas (CNSL) is a devastating disease. Currently, a confirmatory biopsy is required prior to treatment. Objective Our investigation aims to prove the feasibility of a minimally-invasive diagnostic approach for the molecular characterization of CNSL. Methods Tissue biopsies from 6 patients with suspected CNSL were analyzed using a 649gene next-generation sequencing (NGS) tumor panel (tumor vs. reference tissue (EDTA-blood)). The individual somatic mutation pattern was used as a basis for the digital PCR analyzing circulating tumor DNA (ctDNA) from plasma and cerebrospinal fluid (CSF) samples, identifying one selected tumor mutation during this first step of the feasibility investigation. Results NGS-analysis of biopsy tissue revealed a specific somatic mutation pattern in all confirmed lymphoma samples (n = 5, NGS-sensitivity 100%) and none in the sample identified as normal brain tissue (NGS-specificity 100%). cfDNA-extraction was dependent on the extraction-kit used and feasible in 3 samples, in all of which somatic mutations were detectable (100%). Analysis of CSF-derived cfDNA was superior to plasma-derived cfDNA and routine microscopic analysis (lymphoma cells: n = 2, 40%). One patient showed a divergent molecular pattern, typical of Burkitt-Lymphoma (HIV+, serologic evidence of EBV-infection). Lumbar puncture was tolerated without complications, whereas biopsy caused 3 hemorrhages. Conclusions Our investigation provides evidence that analysis of cfDNA in central nervous system tumors is feasible using the described protocol. Molecular characterization of CNSL could be achieved by analysis of CSF-derived cfDNA. Knowledge of a tumor’s specific mutation pattern may allow initiation of targeted therapies, treatment surveillance and could lead to minimally-invasive diagnostics in the future. Electronic supplementary material The online version of this article (10.1186/s12885-019-5394-x) contains supplementary material, which is available to authorized users.

Published

2019

187. Impact of Polymerase Fidelity on Background Error Rates in Next-Generation Sequencing with Unique Molecular Identifiers/Barcodes

Author

Tony E. Godfrey, Anders Ståhlberg, Emiko Yamada, and Stefan Filges

Subjects

0301 basic medicine, DNA damage, Computer science, media_common.quotation_subject, Fidelity, lcsh:Medicine, Computational biology, DNA-Directed DNA Polymerase, medicine.disease_cause, DNA barcoding, Polymerase Chain Reaction, DNA sequencing, Article, law.invention, Circulating Tumor DNA, 03 medical and health sciences, 0302 clinical medicine, Gene Frequency, law, medicine, DNA Barcoding, Taxonomic, Humans, Nucleotide, Genomic library, lcsh:Science, Allele frequency, Polymerase, Polymerase chain reaction, media_common, Gene Library, chemistry.chemical_classification, Mutation, Multidisciplinary, biology, lcsh:R, Liquid Biopsy, High-Throughput Nucleotide Sequencing, Reproducibility of Results, Variant allele, 030104 developmental biology, chemistry, biology.protein, Circulating DNA, lcsh:Q, Error detection and correction, 030217 neurology & neurosurgery, GC-content

Abstract

Liquid biopsy and detection of tumor-associated mutations in cell-free circulating DNA often requires the ability to identify single nucleotide variants at allele frequencies below 0.1%. Standard sequencing protocols cannot achieve this level of sensitivity due to background noise from DNA damage and polymerase induced errors. Addition of unique molecular identifiers allows identification and removal of errors responsible for this background noise. Theoretically, high fidelity enzymes will also reduce error rates in barcoded NGS but this has not been thoroughly explored. We evaluated the impact of polymerase fidelity on the magnitude of error reduction at different steps of barcoded NGS library construction. We find that barcoding itself displays largest impact on error reduction, even with low fidelity polymerases. Use of high fidelity polymerases in the barcoding step of library construction further suppresses error in barcoded NGS, and allows detection of variant alleles below 0.1% allele frequency. However, the improvement in error correction is modest and is not directly proportional to polymerase fidelity. Depending on the specific application, other polymerase characteristics such as multiplexing capacity, PCR efficiency, buffer requirements and ability to amplify targets with high GC content may outweigh the relatively small additional decrease in error afforded by ultra-high fidelity polymerases.

Published

2019

188. Retracted: Urinary circulating DNA and circulating antigen for diagnosis of schistosomiasis mansoni: a field study

Author

Radwa G. Diab, Rasha Abdelmawla Ghazala, Rasha Fadly Mady, and Mona Mohamed Tolba

Subjects

Adult, Male, medicine.medical_specialty, Adolescent, Circulating antigen, Urinary system, 030231 tropical medicine, Prevalence, Schistosomiasis, Urine, Sensitivity and Specificity, Gastroenterology, Young Adult, 03 medical and health sciences, 0302 clinical medicine, Antigen, Internal medicine, parasitic diseases, medicine, Animals, Humans, Child, biology, business.industry, Public Health, Environmental and Occupational Health, Schistosoma mansoni, biology.organism_classification, medicine.disease, Schistosomiasis mansoni, Infectious Diseases, Antigens, Helminth, Circulating DNA, Biological Assay, Female, Parasitology, business, Cell-Free Nucleic Acids

Abstract

To evaluate three non-invasive assays for the diagnosis of schistosomiasis mansoni in an Egyptian village.Urine was collected for the detection of circulating cathodic antigen (CCA) and cell-free parasite DNA (cfpd) by Point-of-contact (POC)-cassette assay and PCR, respectively. These tests were compared to Kato-Katz (KK) faecal thick smear for detection of Schistosoma mansoni eggs.Disease prevalence by POC-CCA assay was 86%; by PCR it was 39% vs. 27% by KK. Compared to KK, the sensitivity of POC-CCA reached 100%, but its specificity was only 19.2% with 41% accuracy. Sensitivity of the PCR assay for cfpd was 55.56%, and specificity was 67.12% with 64% accuracy. A new end point was calculated for combined analysis of KK, POC-CCA assay and PCR. Sensitivity for the three tests was 52.94%, 90.2% and 76.47%; specificity was 100% for KK and PCR and 18.37% for POC-CCA. The accuracy calculated for the three tests at the end point was 76% for KK, 55% for POC-CCA assay and 88% for PCR.Conventional PCR assay for detection of cfpd provides a potential screening tool for intestinal schistosomiasis with reliable specificity, reasonable accuracy and affordable financial and technical cost.Evaluer trois tests non invasifs pour le diagnostic de la schistosomiase mansoni dans un village égyptien. MÉTHODES: L'urine a été collectée pour la détection de l'antigène cathodique circulant (ACC) et de l’ADN du parasite libéré des cellules (cfpd) par le test en cassette POC (point-of-contact) et par PCR, respectivement. Ces tests ont été comparés au test de Kato Katz (KK) sur frottis fécal épais pour la détection des œufs de Schistosoma mansoni. RÉSULTATS: La prévalence de la maladie par dosage POC-ACC était de 86%; elle était de 39% par PCR contre 27% par KK. Par rapport à KK, la sensibilité du POC-ACC atteignait 100%, mais sa spécificité n’était que de 19,2% avec une précision de 41%. La sensibilité du PCR pour la cfpd était de 55,56% et sa spécificité de 67,12% avec une précision de 64%. Un nouveau seuil a été calculé pour l'analyse combinée des tests KK, POC-ACC et PCR. La sensibilité pour les trois tests était de 52,94%, 90,2% et 76,47%; la spécificité était de 100% pour KK et PCR et de 18,37% pour POC-ACC. La précision calculée pour les trois tests au point seuil était de 76% pour KK, 55% pour le POC-ACC et 88% pour la PCR.Le test PCR conventionnel pour la détection de la cfpd constitue un outil de dépistage potentiel de la schistosomiase intestinale avec une spécificité fiable, une précision raisonnable et un coût financier et technique abordable.

Published

2019

189. Analysis of Cell-free Circulating DNA Fragment Size and Level in Patients With Lumbar Degenerative Disease

Author

Hiyama A, Sakai D, Watanabe M, Katoh H, and Nomura S

Subjects

Fragment size, Pathology, medicine.medical_specialty, Text mining, Lumbar, Degenerative disease, business.industry, Medicine, Circulating DNA, In patient, Cell free, business, medicine.disease

Abstract

Background: Cell-free circulating DNA (cfDNA), which can be extracted by liquid biopsy, has been studied as a noninvasive biomarker for various diseases. The potential of cfDNA fragment size and level as a marker for low back pain (LBP) has never been studied. We investigated whether cfDNA is a biomarker of LBP severity in patients with a lumbar degenerative disease (LDD). Methods: Blood samples were obtained from patients with LDD (n = 21) before and immediately after spinal surgery. Plasma DNA was isolated and examined for cfDNA fragment size and concentration. A cohort of healthy volunteers (n = 5) constituted the control group.Results: The cfDNA fragment size tended to be shorter in patients than in healthy controls, but this difference was not significant (P = .224). cfDNA level was significantly higher in LDD patients (mean 0.642±0.199 ng/mL, range 0.302–1.150 ng/mL) than in healthy controls (mean 0.429±0.064 ng/mL, range 0.366–0.506 ng/mL) (P = .029). cfDNA level correlated positively with present pain (r = .421, P = .036), maximum pain (r = .419, P = .037), average pain (r = .566, P = .003), low back pain (r = .403, P = .041), leg pain (r = .480, P = .013), and leg numbness (r = .455, P = .020). cfDNA fragment size did not differ from before to after surgery, but cfDNA level increased postoperatively in patients with LDD. Conclusions: This was the first study investigating whether cfDNA fragment size and level are associated with pain, including LBP, in patients with LDD. Our findings suggest that cfDNA level may be an objective indicator of pain and surgical invasiveness in patients with LDD.

Published

2021

190. Cell-free circulating DNA-methylation as biomarker for monitoring adjuvant and palliative immunotherapies

Author

A Franzen, Dimo Dietrich, M Färber, and Sebastian Strieth

Subjects

business.industry, medicine.medical_treatment, Cancer research, Biomarker (medicine), Medicine, Circulating DNA, Cell free, Methylation, business, Adjuvant

Published

2021

191. ESGO/ISUOG/IOTA/ESGE Consensus Statement on preoperative diagnosis of ovarian tumors

Author

Nicole Concin, David Cibula, François Planchamp, G. Gallardo, P. Morice, Giovanni Scambia, A. C. Testa, Wouter Froyman, Ignace Vergote, Daniela Fischerova, Annika Loft, Luis Chiva, Vincent Vandecaveye, Chiara Landolfo, Christina Fotopoulou, Tom Bourne, D. Timmerman, A du Bois, Liliana Mereu, Denis Querleu, and Birthe Lemley

Subjects

Technology, Statement (logic), 0302 clinical medicine, Gynecologic Surgical Procedures, Medicine, 030212 general & internal medicine, Societies, Medical, Ovarian Neoplasms, Tumor, 030219 obstetrics & reproductive medicine, Evidence-Based Medicine, MALIGNANCY ALGORITHM ROMA, Radiological and Ultrasound Technology, IOTA SIMPLE RULES, Radiology, Nuclear Medicine & Medical Imaging, Obstetrics & Gynecology, Obstetrics and Gynecology, General Medicine, SUBOPTIMAL CYTOREDUCTIVE SURGERY, CELL-FREE DNA, Adnexal Diseases, Preoperative Period, Female, Life Sciences & Biomedicine, COMPUTED-TOMOGRAPHY SCANS, medicine.medical_specialty, Consensus, Clinical Decision-Making, MEDLINE, Iota, 03 medical and health sciences, LOGISTIC-REGRESSION MODEL, Medical, MULTICENTER EXTERNAL VALIDATION, Biomarkers, Tumor, EPIDIDYMIS PROTEIN 4, Humans, Radiology, Nuclear Medicine and imaging, Ovarian tumours, Gynecology, Science & Technology, business.industry, Acoustics, PERITONEAL CARCINOMATOSIS INDEX, Settore MED/40 - GINECOLOGIA E OSTETRICIA, Reproductive Medicine, Circulating DNA, Societies, business, Biomarkers, RETROSPECTIVE COHORT ANALYSIS

Abstract

The European Society of Gynaecological Oncology (ESGO), the International Society of Ultrasound in Obstetrics and Gynecology (ISUOG), the International Ovarian Tumour Analysis (IOTA) group and the European Society for Gynaecological Endoscopy (ESGE) jointly developed clinically relevant and evidence-based statements on the preoperative diagnosis of ovarian tumors, including imaging techniques, biomarkers and prediction models. ESGO/ISUOG/IOTA/ESGE nominated a multidisciplinary international group, including expert practising clinicians and researchers who have demonstrated leadership and expertise in the preoperative diagnosis of ovarian tumors and management of patients with ovarian cancer (19 experts across Europe). A patient representative was also included in the group. To ensure that the statements were evidence-based, the current literature was reviewed and critically appraised. Preliminary statements were drafted based on the review of the relevant literature. During a conference call, the whole group discussed each preliminary statement and a first round of voting was carried out. Statements were removed when consensus among group members was not obtained. The voters had the opportunity to provide comments/suggestions with their votes. The statements were then revised accordingly. Another round of voting was carried out according to the same rules to allow the whole group to evaluate the revised version of the statements. The group achieved consensus on 18 statements. This Consensus Statement presents these ESGO/ISUOG/IOTA/ESGE statements on the preoperative diagnosis of ovarian tumors and the assessment of carcinomatosis, together with a summary of the evidence supporting each statement.

Published

2021

192. Circulating DNA fragmentomics and cancer screening.

Author

Thierry AR

Abstract

The high fragmentation of nuclear circulating DNA (cirDNA) relies on chromatin organization and protection or packaging within mononucleosomes, the smallest and the most stabilized structure in the bloodstream. The detection of differing size patterns, termed fragmentomics, exploits information about the nucleosomal packing of DNA. Fragmentomics not only implies size pattern characterization but also considers the positioning and occupancy of nucleosomes, which result in cirDNA fragments being protected and persisting in the circulation. Fragmentomics can determine tissue of origin and distinguish cancer-derived cirDNA. The screening power of fragmentomics has been considerably strengthened in the omics era, as shown in the ongoing development of sophisticated technologies assisted by machine learning. Fragmentomics can thus be regarded as a strategy for characterizing cancer within individuals and offers an alternative or a synergistic supplement to mutation searches, methylation, or nucleosome positioning. As such, it offers potential for improving diagnostics and cancer screening., Competing Interests: The author has two patents related to this work: A.R. Thierry and C. Sanchez. “Method for screening a subject for a cancer,” THIERRY17392NC, no. 17306721.6, December 7, 2017. US2021172019 (A1) 2021-06-10. A.R. Thierry. “Method for screening a subject for a cancer.” August 1, 2019, EP 19 30 6003. US2022290244 (A1) 2022-09-15., (© 2022 The Author(s).)

Published

2023

193. Fabrication of Multilayer Microfluidic Arrays for Passive, Efficient DNA Trapping and Profiling.

Author

O'Keefe CM and Wang TJ

Subjects

Humans, Microfluidics, DNA, Biomarkers, Tumor, Lab-On-A-Chip Devices, Neoplasms, Microfluidic Analytical Techniques

Abstract

Trace amounts of cell-free DNA containing cancer-specific biomarkers can be found in blood plasma. Detection of these biomarkers holds tremendous potential for applications such as noninvasive cancer diagnostics and therapeutic monitoring. However, such DNA molecules are extremely rare, and a typical patient blood sample may only contain a few copies. Here we describe the fabrication and operation of a microfluidic device to efficiently trap single DNA molecules into chambers for detection of tumor-specific biomarkers through a passive, geometric manipulation strategy., (© 2023. The Author(s), under exclusive license to Springer Science+Business Media, LLC, part of Springer Nature.)

Published

2023

194. Risk of early progression according to circulating ESR1 mutation, CA-15.3 and cfDNA increases under first-line anti-aromatase treatment in metastatic breast cancer

Author

Clatot, Florian, Perdrix, Anne, Beaussire, Ludivine, Lequesne, Justine, Lévy, Christelle, Emile, George, Bubenheim, Michael, Lacaille, Sigrid, Calbrix, Céline, Augusto, Laetitia, Guillemet, Cécile, Alexandru, Cristina, Fontanilles, Maxime, Sefrioui, David, Burel, Lucie, Guénot, Sabine, Richard, Doriane, Sarafan-Vasseur, Nasrin, and Di Fiore, Frédéric

Published

2020

195. Real-time monitoring efficiency and toxicity of chemotherapy in patients with advanced lung cancer.

Author

Bingfeng Zhang, Dan Chen, Wenying Xia, Jiexin Zhang, Fang Wang, Jian Xu, Yan Zhang, Meijuan Zhang, Lixia Zhang, Yachun Lu, Yan Geng, Peijun Huang, Shiyang Pan, Hong Wang, and Puwen Huang

Subjects

*METHYLATION, *LUNG cancer, *CANCER chemotherapy

Abstract

Background: The Response Evaluation Criteria in Solid Tumors (RECIST) guideline and Common Terminology Criteria for Adverse Events (CTCAE) criteria are used to assess chemotherapy efficiency and toxicity in patients with advanced lung cancer. However, no real-time, synchronous indicators that can evaluate chemotherapy outcomes are available. We wanted to evaluate tumor response and toxicity in advanced lung cancer chemotherapy by using a novel synchronous strategy. Results: We enrolled 316 patients with advanced lung cancer who were treated with cisplatin-based therapy and followed up them for 3 years. Plasma was obtained before and after every chemotherapy cycle. We quantitative assayed total plasma DNA and methylation of the APC/RASSF1A genes. Four parameters were assessed: methylation level before chemotherapy (meth0 h), methylation level 24 h after chemotherapy (meth24 h), total plasma DNA concentration before chemotherapy (DNA0 h), and total plasma DNA concentration 24 h after chemotherapy (DNA24 h). When meth24 h > meth0 h of at least one gene was used to predict tumor response, the correct prediction rate was 82.4 %. Additionally, patients for whom DNA24 h/DNA0 h ⩽ 2 had mild toxicities. Therefore, meth24 h > meth0 h and DNA24 h/DNA0 h ⩽ 2 were defined as criteria for better tumor response and fewer adverse events with a high correct prediction rate (84.7 %). Conclusions: Quantitative analysis of total plasma DNA and plasma APC/RASSF1A methylation provide a real-time synchronous rapid monitoring indicator for therapeutic outcomes of advanced lung cancer, which could be a reference or supplementary guidelines in evaluating chemotherapy effects. [ABSTRACT FROM AUTHOR]

Published

2015

196. Breast cancer circulating biomarkers: advantages, drawbacks, and new insights.

Author

Ravelli, Andrea, Reuben, James, Lanza, Francesco, Anfossi, Simone, Cappelletti, Maria, Zanotti, Laura, Gobbi, Angela, Senti, Chiara, Brambilla, Paola, Milani, Manuela, Spada, Daniele, Pedrazzoli, Paolo, Martino, Massimo, Bottini, Alberto, and Generali, Daniele

Abstract

As of today, the level of individualization of cancer therapies has reached a level that 20 years ago would be considered visionary. However, most of the diagnostic, prognostic, and therapy-predictive procedures which aim to improve the overall level of personalization are based on the evaluation of tumor tissue samples, therefore requiring surgical operations with consequent low compliance for patients and high costs for the hospital. Hence, the research of a panel of circulating indicators which may serve as source of information about tumor characteristics and which may be obtainable by a simple withdrawal of peripheral blood today represents a growing field of interest. This review aims to objectively summarize the characteristics of the currently available breast cancer circulating biomarkers, also providing an overview about the multitude of novel potential soluble predictors which are still under evaluation. Specifically, the usefulness of a so-called 'liquid biopsy' will be discussed in terms of improvements of diagnosis, prognosis, and therapy-prediction, but an overview will be given also on the potentiality of the molecular characterization arising from the isolation of circulating biomarkers and cells. Although this review will focus on the specific case of the breast, in the future liquid biopsies will hopefully be available for virtually any type of neoplasms. [ABSTRACT FROM AUTHOR]

Published

2015

197. Detection of K-ras gene mutation by liquid biopsy in patients with pancreatic cancer.

Author

Kinugasa, Hideaki, Nouso, Kazuhiro, Miyahara, Koji, Morimoto, Yuki, Dohi, Chihiro, Tsutsumi, Koichiro, Kato, Hironari, Matsubara, Takehiro, Okada, Hiroyuki, and Yamamoto, Kazuhide

Subjects

*GENETIC mutation, *BIOPSY, *PANCREATIC cancer, *DNA, *CANCER diagnosis, *POLYMERASE chain reaction, *NEEDLE biopsy, *ONCOGENES, *PANCREATIC tumors

Abstract

Background: Cell-free circulating tumor DNA (ctDNA) in serum has been considered to be a useful candidate for noninvasive cancer diagnosis. The current study was designed to estimate the clinical usefulness of genetic analysis for ctDNA by digital polymerase chain reaction in patients with pancreatic cancer.Methods: The authors compared K-ras mutations detected in endoscopic ultrasound-guided fine-needle aspiration biopsy tissue DNA and in ctDNA from 75 patients with pancreatic cancer. K-ras mutations in the serum of 66 independent, consecutive patients with pancreatic cancer were also analyzed and the authors compared the results with survival rates.Results: The frequencies of the mutations in tissue samples at G12V, G12D, and G12R in codon 12 were 28 of 75 samples (37.3%), 22 of 75 samples (29.3%), and 6 of 75 samples (8.0%), respectively. Conversely, the rates of the mutations in ctDNA were 26 of 75 samples (34.6%), 29 of 75 samples (38.6%), and 4 of 75 samples (5.3%), respectively. Overall, the K-ras mutation rates in tissue and ctDNA were 74.7% and 62.6%, respectively, and the concordance rate between them was 58 of 75 samples (77.3%). Survival did not appear to differ by the presence of K-ras mutations in tissue DNA, but the survival of patients with K-ras mutations in ctDNA was significantly shorter than that of patients without mutations in both a development set (P = .006) and an independent validation set (P = .002). The difference was especially evident in cases with a G12V mutation.Conclusions: Analysis of ctDNA is a new useful procedure for detecting mutations in patients with pancreatic cancer. This noninvasive method may have great potential as a new strategy for the diagnosis of pancreatic cancer as well as for predicting survival. [ABSTRACT FROM AUTHOR]

Published

2015

198. Quantification of concentration and assessment of EGFR mutation in circulating DNA.

Author

Mazurek, Agnieszka, Pierzyna, Magdalena, Giglok, Monika, Dworzecka, Urszula, Suwiński, Rafał, and Małusecka, Ewa

Subjects

*LUNG cancer, *BIOPSY, *CANCER chemotherapy, *EPIDERMAL growth factor receptors

Abstract

BACKGROUND: Analysis of circulating cell-free DNA in blood is considered as a liquid biopsy, which enables non-invasive and repetitive investigation of the tumor DNA. The potential clinical usefulness of circulating DNA is frequently examined in lung cancer. Thus, our aim was assessment if chemotherapy influences the circulating DNA concentration. PATIENTS AND METHODS: Fifty-seven lung cancer patients in advanced stages of the disease were examined. Quantification of circulating DNA was determined by TERT amplification. RESULTS: Distant metastases and chemotherapy were significantly connected with circulating DNA level. Patients treated with conventional chemotherapy had statistically lower circulating DNA levels when compared to patients not treated with chemotherapy. Histological types of tumor and smoking status were not associated with circulating DNA concentration. In this study, we have also genotyped the EGFR mutations in exon 19 of circulating DNA using the TaqMan PCR assays. One patient carried a deletion (2235-49del in EGFR), which has been confirmed by sequencing. CONCLUSIONS: Circulating DNA is easy to obtain, convenient biological material, although quantitative analysis cannot be used as diagnostic tool, but it can be applied to determination of EGFR mutations, basis of the tyrosine kinase inhibitors application. [ABSTRACT FROM AUTHOR]

Published

2015

199. MGMT promoter methylation in serum and cerebrospinal fluid as a tumor-specific biomarker of glioma.

Author

ZHENG WANG, WEI JIANG, YAHONG WANG, YANG GUO, ZHENG CONG, FANGFANG DU, and BIN SONG

Subjects

*O6-Methylguanine-DNA Methyltransferase, *METHYLATION, *CEREBROSPINAL fluid, *GLIOMAS, *ASTROCYTOMAS

Abstract

O6-methylguanine-DNA methyltransferase (MGMT) promoter methylation is a conventional technique to predict the prognosis or individualized treatment of glioma in tumor tissue following surgery or biopsy. However, the technique cannot be applied in those glioma patients with concomitant neurological dysfunctions or advanced age. The present study aimed to find a new minimally invasive and efficient alternative method for the detection of MGMT promoter methylation. The expression of MGMT promoter methylation was assessed in peripheral blood and cerebrospinal fluid (CSF), and compared to the corresponding tumor tissue from glioma patients. The 89 patients in the study [32 World Health Organization (WHO) grade II, 19 WHO grade III and 38 WHO grade IV) were pathologically-diagnosed glioma and received radiation therapy following sample collection. The resected glioma tumor tissue (89), corresponding serum (89) and CSF (78) samples were collected for the detection of MGMT promoter methylation using methylation-specific polymerase chain reaction. The sensitivity and specificity of detecting MGMT promoter methylation in CSF and serum were compared. Among the tumor tissue samples, 51/89 (57.3%) showed MGMT promoter methylation. The specificity of the detection in the CSF and serum samples reached 100%. The sensitivity of MGMT promoter methylation detection in CSF and serum were 26/40 (65.0%) and 19/51 (37.3%), respectively (P<0.05). In the WHO II, III and IV subgroups, the sensitivities of MGMT promoter methylation detection using CSF were 8/12 (66.7%), 11/18 (61.1%) and 7/10 (70.0%), respectively, which were significantly higher than the sensitivities using serum (7/21, 33.3%; 7/19, 36.8%; and 5/11, 45.5%, respectively P<0.05). Among patients with residual postoperative tumors, the sensitivities of detecting MGMT promoter methylation using CSF and serum were 18/25 (72.0%) and 10/24 (41.7%), respectively, both of which were significantly higher than the corresponding values for patients without residual tumors (8/15, 53.3% and 6/19, 31.6%, respectively; P<0.05). The detection of MGMT promoter methylation in CSF specimens shows higher sensitivity compared to the serum for glioma patients. Assessment of MGMT promoter methylation in CSF may provide a promising clinical methodology for early diagnosis, individual treatment, monitoring of recurrence and prognosis for glioma patients. [ABSTRACT FROM AUTHOR]

Published

2015

200. Circulating DNA of HOTAIR in serum is a novel biomarker for breast cancer.

Author

Zhang, Lei, Song, Xinyun, Wang, Xiaoxia, Xie, Yuntao, Wang, Zengwu, Xu, Ye, You, Xin, Liang, Zicai, and Cao, Huiqing

Abstract

Long non-coding HOX transcript antisense intergenic RNA (HOTAIR) plays an important role in breast cancer. The purpose of this study was to determine whether circulating HOTAIR can be used for breast cancer diagnosis. HOTAIR in serum was measured by PCR-based direct detection. Reverse transcriptase and DNase I treatment were used to distinguish the DNA and RNA forms of HOTAIR. To determine whether circulating HOTAIR is a biomarker for breast cancer, the DNA of HOTAIR from breast cancer patients and healthy controls was measured at both the discovery stage (48 individuals) and an independent validation stage (156 individuals). The diagnostic accuracy was assessed by the receiver operating characteristic curve (ROC) and the area under the curve (AUC). We showed that the major form of HOTAIR-derived fragment in serum is DNA rather than RNA in our study, the same as for MALAT-1, another well-described lincRNA. A higher circulating DNA level of HOTAIR was found in patients at the discovery stage ( P = 0.0008). ROC analysis revealed that the circulating HOTAIR DNA distinguished breast cancer patients from healthy individuals (AUC = 0.799). This finding was confirmed at the validation stage. Though circulating MALAT-1 DNA was altered in the discovery stage, it showed no significant difference in the validation stage. In the entire set of 204 samples, the circulating HOTAIR DNA showed a 2.15-fold change in patients compared with healthy controls ( P < 0.0001, AUC = 0.786). The optimal cutoff value for diagnosis was 0.30 with sensitivity of 80.0 % and specificity of 68.3 %. Moreover, a correlation between the DNA level of circulating HOTAIR and the progress of breast cancer was established. We have demonstrated that the circulating DNA of HOTAIR is a potential biomarker for breast cancer. [ABSTRACT FROM AUTHOR]

Published

2015