Your search keyword '"cell-free dna"' showing total 10,320 results

1. Analysis of fetal fraction in non-invasive prenatal testing with low-depth whole genome sequencing

Author

Xie, Xiaolei, Yin, Weiguo, Li, Fuguang, Xuan, Suxia, and Ouyang, Yu

Published

2025

2. Cell-free and extrachromosomal DNA profiling of small cell lung cancer

Author

Behrouzi, Roya, Clipson, Alexandra, Simpson, Kathryn L., Blackhall, Fiona, Rothwell, Dominic G., Dive, Caroline, and Mouliere, Florent

Published

2025

3. Biomarker potential of plasma cell-free DNA for cholangiocarcinoma

Author

Prasopdee, Sattrachai, Tongsima, Sissades, Pholhelm, Montinee, Yusuk, Siraphatsorn, Tangphatsornruang, Sithichoke, Butthongkomvong, Kritiya, Phanaksri, Teva, Kunjantarachot, Anthicha, Kulsantiwong, Jutharat, Tesana, Smarn, Sathavornmanee, Thanakrit, and Thitapakorn, Veerachai

Published

2024

4. LBFextract: Unveiling transcription factor dynamics from liquid biopsy data

Author

Lazzeri, Isaac, Spiegl, Benjamin Gernot, Hasenleithner, Samantha O., Speicher, Michael R., and Kircher, Martin

Published

2024

5. Enhancing the interactions of ion-tagged oligonucleotides and magnetic ionic liquid supports for the sequence-specific extraction of hepatitis B virus DNA

Author

Lee, Seong-Soo, Eitzmann, Derek R., and Anderson, Jared L.

Published

2025

6. Epigenetic modifications of cfDNA in liquid biopsy for the cancer care continuum

Author

Wong, Jodie, Muralidhar, Rohit, Wang, Liang, and Huang, Chiang-Ching

Published

2025

7. The potential of circulating free DNA of methylated IGFBP as a biomarker for type 2 diabetes Mellitus: A Comprehensive review

Author

Belinda, Audrey, Humardani, Farizky Martriano, Dwi Putra, Sulistyo Emantoko, and Widyadhana, Bhanu

Published

2025

8. Multifunctional nanoparticles confers both multiple inflammatory mediators scavenging and macrophage polarization for sepsis therapy

Author

Xi, Wenjie, Wu, Weijie, Zhou, Lili, Zhang, Qi, Yang, Shushu, Huang, Lihong, Lu, Yijun, Wang, Jing, Chi, Xinjin, and Kang, Yang

Published

2025

9. The use of free DNA for fetal RHD genotyping in the Rh negative pregnant patient—the time has come

Author

Moise, Kenneth J., Jr

Published

2025

10. GWAS shows the genetics behind cell-free DNA and highlights the importance of p.Arg206Cys in DNASE1L3 for non-invasive testing

Author

Linthorst, Jasper, Nivard, Michel, and Sistermans, Erik A.

Published

2024

11. Circulating cell-free DNA as a biomarker for molecular diagnosis of Neurocysticercosis

Author

Mehta, Yashvi, Kaur, Upninder, Shree, Ritu, Modi, Manish, Lal, Vivek, and Sehgal, Rakesh

Published

2024

12. A model for decoding resistance in precision oncology: acquired resistance to FGFR inhibitors in cholangiocarcinoma

Author

Goyal, L., DiToro, D., Facchinetti, F., Martin, E.E., Peng, P., Baiev, I., Iyer, R., Maurer, J., Reyes, S., Zhang, K., Majeed, U., Berchuck, J.E., Chen, C.T., Walmsley, C., Pinto, C., Vasseur, D., Gordan, J.D., Mody, K., Borad, M., Karasic, T., Damjanov, N., Danysh, B.P., Wehrenberg-Klee, E., Kambadakone, A.R., Saha, S.K., Hoffman, I.D., Nelson, K.J., Iyer, S., Qiang, X., Sun, C., Wang, H., Li, L., Javle, M., Lin, B., Harris, W., Zhu, A.X., Cleary, J.M., Flaherty, K.T., Harris, T., Shroff, R.T., Leshchiner, I., Parida, L., Kelley, R.K., Fan, J., Stone, J.R., Uboha, N.V., Hirai, H., Sootome, H., Wu, F., Bensen, D.C., Hollebecque, A., Friboulet, L., Lennerz, J.K., Getz, G., and Juric, D.

Published

2024

13. A systematic literature review and meta-analysis of circulating nucleic acids as biomarkers in psychiatry

Author

Verebi, Camille, Nectoux, Juliette, Gorwood, Philip, Le Strat, Yann, Duriez, Philibert, Ramoz, Nicolas, and Bienvenu, Thierry

Published

2023

14. The role of cell-free DNA biomarkers and patient data in the early prediction of preeclampsia: an artificial intelligence model

Author

Khalil, Asma, Bellesia, Giovanni, Norton, Mary E., Jacobsson, Bo, Haeri, Sina, Egbert, Melissa, Malone, Fergal D., Wapner, Ronald J., Roman, Ashley, Faro, Revital, Madankumar, Rajeevi, Strong, Noel, Silver, Robert M., Vohra, Nidhi, Hyett, Jon, MacPherson, Cora, Prigmore, Brittany, Ahmed, Ebad, Demko, Zachary, Ortiz, J. Bryce, Souter, Vivienne, and Dar, Pe’er

Published

2024

15. Systematic evaluation of methylation-based cell type deconvolution methods for plasma cell-free DNA.

Author

Sun, Tongyue, Yuan, Jinqi, Zhu, Yacheng, Li, Jingqi, Yang, Shen, Zhou, Junpeng, Ge, Xinzhou, Qu, Susu, Li, Wei, Li, Jingyi, and Li, Yumei

Subjects

Benchmark, Cell-free DNA, DNA methylation, Deconvolution, Humans, DNA Methylation, Cell-Free Nucleic Acids, Whole Genome Sequencing

Abstract

BACKGROUND: Plasma cell-free DNA (cfDNA) is derived from cellular death in various tissues. Investigating the tissue origin of cfDNA through cell type deconvolution, we can detect changes in tissue homeostasis that occur during disease progression or in response to treatment. Consequently, cfDNA has emerged as a valuable noninvasive biomarker for disease detection and treatment monitoring. Although there are many methylation-based methods for cfDNA cell type deconvolution, a comprehensive and systematic evaluation of these methods has yet to be conducted. RESULTS: In this study, we benchmark five methods: MethAtlas, cfNOMe toolkit, CelFiE, CelFEER, and UXM. Utilizing deep whole-genome bisulfite sequencing data from 35 human cell types, we generate in silico cfDNA samples with ground truth cell type proportions to assess the deconvolution performance of the five methods under multiple scenarios. Our findings indicate that multiple factors, including reference marker selection, sequencing depth, and reference atlas completeness, jointly influence the deconvolution performance. Notably, an incomplete reference with missing markers or cell types leads to suboptimal results. We observe performance differences among methods under varying conditions, underscoring the importance of tailoring cfDNA deconvolution analyses. To increase the clinical relevance of our findings, we further evaluate each methods performance in potential clinical applications using real-world datasets. CONCLUSIONS: Based on the benchmark results, we propose general guidelines to choose the suitable methods based on sequencing depth of the cfDNA data and completeness of the reference atlas to maximize the performance of methylation-based cfDNA cell type deconvolution.

Published

2024

16. Utilizing non-invasive prenatal test sequencing data for human genetic investigation.

Author

Liu, Siyang, Liu, Yanhong, Gu, Yuqin, Lin, Xingchen, Zhu, Huanhuan, Liu, Hankui, Xu, Zhe, Cheng, Shiyao, Lan, Xianmei, Li, Linxuan, Huang, Mingxi, Li, Hao, Nielsen, Rasmus, Davies, Robert, Albrechtsen, Anders, Chen, Guo-Bo, Qiu, Xiu, Jin, Xin, and Huang, Shujia

Subjects

NIPT-human-genetics workflow, allele frequency estimation, cell-free DNA, family relatedness, genome-wide association analysis, genotype imputation, low-pass whole-genome sequencing, non-invasive prenatal test, population structure, variant detection, Humans, Female, Pregnancy, Genome-Wide Association Study, Noninvasive Prenatal Testing, Prenatal Diagnosis, Gene Frequency, Algorithms, Genotype, Sequence Analysis, DNA, Polymorphism, Single Nucleotide, Software

Abstract

Non-invasive prenatal testing (NIPT) employs ultra-low-pass sequencing of maternal plasma cell-free DNA to detect fetal trisomy. Its global adoption has established NIPT as a large human genetic resource for exploring genetic variations and their associations with phenotypes. Here, we present methods for analyzing large-scale, low-depth NIPT data, including customized algorithms and software for genetic variant detection, genotype imputation, family relatedness, population structure inference, and genome-wide association analysis of maternal genomes. Our results demonstrate accurate allele frequency estimation and high genotype imputation accuracy (R2>0.84) for NIPT sequencing depths from 0.1× to 0.3×. We also achieve effective classification of duplicates and first-degree relatives, along with robust principal-component analysis. Additionally, we obtain an R2>0.81 for estimating genetic effect sizes across genotyping and sequencing platforms with adequate sample sizes. These methods offer a robust theoretical and practical foundation for utilizing NIPT data in medical genetic research.

Published

2024

17. Visualization using NIPTviewer support the clinical interpretation of noninvasive prenatal testing results.

Author

Smeds, Patrik, Baranowska Körberg, Izabella, Melin, Malin, and Ladenvall, Claes

Subjects

*WEB-based user interfaces, *CELL-free DNA, *PRENATAL diagnosis, *REPORT writing, *PATHOLOGICAL laboratories

Abstract

Background: Noninvasive prenatal testing (NIPT) is increasingly used to screen for fetal chromosomal aneuploidy by analyzing cell-free DNA (cfDNA) in peripheral maternal blood. The method provides an opportunity for early detection of large genetic abnormalities without an increased risk of miscarriage due to invasive procedures. Commercial applications for use at clinical laboratories often take advantage of DNA sequencing technologies and include the bioinformatic workup of the sequence data. The interpretation of the test results and the clinical report writing, however, remains the responsibility of the diagnostic laboratory. In order to facilitate this step, we developed NIPTviewer, a web-based application to visualize and guide the interpretation of NIPT data results. Results: NIPTviewer has a database functionality to store the NIPT results and a web interface for user interaction and visualization. The application has been implemented as part of a novel analysis pipeline for NIPT in a diagnostic laboratory at Uppsala University Hospital. The validation data set included 84 previously analyzed plasma samples with known results regarding chromosomes 13, 18, 21, X and Y. They were sequenced in six different experiments, uploaded to NIPTviewer and assigned to a clinical laboratory geneticist for interpretation. The results of all previously analyzed samples were replicated. Conclusion: NIPTviewer facilitates NIPT results interpretation and has been implemented as part of a NIPT analysis routine that was accredited by the national accreditation body for Sweden (Swedac). [ABSTRACT FROM AUTHOR]

Published

2025

18. Accelerated enzyme engineering by machine-learning guided cell-free expression.

Author

Landwehr, Grant M., Bogart, Jonathan W., Magalhaes, Carol, Hammarlund, Eric G., Karim, Ashty S., and Jewett, Michael C.

Subjects

MACHINE learning, LIFE sciences, CHEMICAL reactions, CELL-free DNA, SMALL molecules

Abstract

Enzyme engineering is limited by the challenge of rapidly generating and using large datasets of sequence-function relationships for predictive design. To address this challenge, we develop a machine learning (ML)-guided platform that integrates cell-free DNA assembly, cell-free gene expression, and functional assays to rapidly map fitness landscapes across protein sequence space and optimize enzymes for multiple, distinct chemical reactions. We apply this platform to engineer amide synthetases by evaluating substrate preference for 1217 enzyme variants in 10,953 unique reactions. We use these data to build augmented ridge regression ML models for predicting amide synthetase variants capable of making 9 small molecule pharmaceuticals. Over these nine compounds, ML-predicted enzyme variants demonstrate 1.6- to 42-fold improved activity relative to the parent. Our ML-guided, cell-free framework promises to accelerate enzyme engineering by enabling iterative exploration of protein sequence space to build specialized biocatalysts in parallel. While machine learning shows promise in expanding protein engineering efforts, its potential is limited by the challenge of gathering large datasets of sequence-function relationships. Here, authors introduce a platform that integrates cell-free DNA assembly and gene expression to accelerate enzyme engineering. [ABSTRACT FROM AUTHOR]

Published

2025

19. Targeted detection of sequence variants in cell-free DNA from cerebrospinal fluid in pediatric central nervous system tumors.

Author

O'Halloran, Katrina, Crotty, Erin E., Christodoulou, Eirini, Leary, Sarah E., Miller, Alexandra, Paulson, Vera A., Lockwood, Christina M., Margol, Ashley S., and Biegel, Jaclyn A.

Subjects

CENTRAL nervous system tumors, WHOLE genome sequencing, CENTRAL nervous system, CELL-free DNA, CEREBROSPINAL fluid

Abstract

The emergence of liquid biopsy technologies holds great promise in the cancer setting, including in pediatric central nervous system (CNS) tumors. In contrast to broad lower-depth sequencing, commonly referred to as low pass whole genome sequencing (WGS), targeted platforms with a higher depth of coverage have also been established. Here, we review targeted liquid biopsy techniques with applicability to pediatric CNS tumors. These include polymerase chain reaction (PCR), both droplet digital PCR and reverse transcription-based PCR, Sanger sequencing, and next-generation sequencing approaches that incorporate amplicon- and hybrid capture-based methods. The goal of this paper is to facilitate an understanding of these targeted techniques and provide a context for clinical relevance within disease categories, as well as a discussion on optimizing real-world implementation for pediatric CNS tumors. [ABSTRACT FROM AUTHOR]

Published

2025

20. High-throughput methylation sequencing reveals novel biomarkers for the early detection of renal cell carcinoma.

Author

Guo, Wenhao, Chen, Weiwu, Zhang, Jie, Li, Mingzhe, Huang, Hongyuan, Wang, Qian, Fei, Xiaoyi, Huang, Jian, Zheng, Tongning, Fan, Haobo, Wang, Yunfei, Gu, Hongcang, Ding, Guoqing, and Chen, Yicheng

Subjects

*RENAL cell carcinoma, *CELL-free DNA, *DNA methylation, *PROGNOSTIC models, *RANDOM forest algorithms

Abstract

Purpose: Renal cell carcinoma (RCC) is a common malignancy, with patients frequently diagnosed at an advanced stage due to the absence of sufficiently sensitive detection technologies, significantly compromising patient survival and quality of life. Advances in cell-free DNA (cfDNA) methylation profiling using liquid biopsies offer a promising non-invasive diagnostic option, but robust biomarkers for early detection are current not available. This study aimed to identify methylation biomarkers for RCC and establish a DNA methylation signature-based prognostic model for this disease. Methods: High-throughput methylation sequencing was performed on peripheral blood samples obtained from 49 primarily Stage I RCC patients and 44 healthy controls. Comparative analysis and Least Absolute Shrinkage and Selection Operator (LASSO) regression methods were employed to identify RCC methylation signatures.Subsequently, methylation markers-based diagnostic and prognostic models for RCC were independently trained and validated using random forest and Cox regression methodologies, respectively. Results: Comparative analysis revealed 864 differentially methylated CpG islands (DMCGIs), 96.3% of which were hypermethylated. Using a training set from The Cancer Genome Atlas (TCGA) dataset of 443 early-stage RCC tumors and matched normal tissues, we applied LASSO regression and identified 23 methylation signatures. We then constructed a random forest-based diagnostic model for early-stage RCC and validated the model using two independent datasets: a TCGA set of 460 RCC tumors and controls, and a blood sample set from our study of 15 RCC cases and 29 healthy controls. For Stage I RCC tissue, the model showed excellent discrimination (AUC-ROC: 0.999, sensitivity: 98.5%, specificity: 100%). Blood sample validation also yielded commendable results (AUC-ROC: 0.852, sensitivity: 73.9%, specificity: 89.7%). Further analysis using Cox regression identified 7 of the 23 DMCGIs as prognostic markers for RCC, allowing the development of a prognostic model with strong predictive power for 1-, 3-, and 5-year survival (AUC-ROC > 0.7). Conclusions: Our findings highlight the critical role of hypermethylation in RCC etiology and progression, and present these identified biomarkers as promising candidates for diagnostic and prognostic applications. [ABSTRACT FROM AUTHOR]

Published

2025

21. Evaluation of a biomarker for amyotrophic lateral sclerosis derived from a hypomethylated DNA signature of human motor neurons.

Author

Harvey, Calum, Nowak, Alicja, Zhang, Sai, Moll, Tobias, Weimer, Annika K, Barcons, Aina Mogas, Souza, Cleide Dos Santos, Ferraiuolo, Laura, Kenna, Kevin, Zaitlen, Noah, Caggiano, Christa, Shaw, Pamela J, Snyder, Michael P, Mill, Jonathan, Hannon, Eilis, and Cooper-Knock, Johnathan

Subjects

*AMYOTROPHIC lateral sclerosis, *CELL-free DNA, *WHOLE genome sequencing, *LIFE sciences, *MOTOR neurons

Abstract

Amyotrophic lateral sclerosis (ALS) lacks a specific biomarker, but is defined by relatively selective toxicity to motor neurons (MN). As others have highlighted, this offers an opportunity to develop a sensitive and specific biomarker based on detection of DNA released from dying MN within accessible biofluids. Here we have performed whole genome bisulfite sequencing (WGBS) of iPSC-derived MN from neurologically normal individuals. By comparing MN methylation with an atlas of tissue methylation we have derived a MN-specific signature of hypomethylated genomic regions, which accords with genes important for MN function. Through simulation we have optimised the selection of regions for biomarker detection in plasma and CSF cell-free DNA (cfDNA). However, we show that MN-derived DNA is not detectable via WGBS in plasma cfDNA. In support of our experimental finding, we show theoretically that the relative sparsity of lower MN sets a limit on the proportion of plasma cfDNA derived from MN which is below the threshold for detection via WGBS. Our findings are important for the ongoing development of ALS biomarkers. The MN-specific hypomethylated genomic regions we have derived could be usefully combined with more sensitive detection methods and perhaps with study of CSF instead of plasma. Indeed we demonstrate that neuronal-derived DNA is detectable in CSF. Our work is relevant for all diseases featuring death of rare cell-types. [ABSTRACT FROM AUTHOR]

Published

2025

22. Methylome profiling of cell-free DNA during the early life course in (un)complicated pregnancies using MeD-seq: Protocol for a cohort study embedded in the prospective Rotterdam periconception cohort.

Author

van Vliet, Marjolein M., Schoenmakers, Sam, Boers, Ruben G., van der Meeren, Lotte E., Gribnau, Joost, and Steegers-Theunissen, Régine P. M.

Subjects

*FETAL growth retardation, *PREGNANCY complications, *CELL-free DNA, *DNA methylation, *DNA sequencing, *PREECLAMPSIA

Abstract

Introduction: Placental DNA methylation differences have been associated with timing in gestation and pregnancy complications. Maternal cell-free DNA (cfDNA) partly originates from the placenta and could enable the minimally invasive study of placental DNA methylation dynamics. We will for the first time longitudinally investigate cfDNA methylation during pregnancy by using Methylated DNA Sequencing (MeD-seq), which is compatible with low cfDNA levels and has an extensive genome-wide coverage. We aim to investigate DNA methylation in placental tissues and cfDNA during different trimesters in uncomplicated pregnancies, and in pregnancies with placental-related complications, including preeclampsia and fetal growth restriction. Identified gestational-age and disease-specific differentially methylated regions (DMRs) could lead to numerous applications including biomarker development. Methods and analysis: Our study design involves three sub-studies. Sub-study 1 is a single-centre prospective, observational subcohort embedded within the Rotterdam Periconception cohort (Predict study). We will longitudinally collect maternal plasma in each trimester and during delivery, and sample postpartum placentas (n = 300). In sub-study 2, we will prospectively collect first and second trimester placental tissues (n = 10 per trimester). In sub-study 3 we will retrospectively collect plasma after non-invasive prenatal testing (NIPT) in an independent validation case-control cohort (n = 30–60). A methylation-dependent restriction enzyme (LpnPI) will be used to generate DNA fragments followed by sequencing on the Illumina NextSeq2000 platform. DMRs will be identified in placental tissues and cell types, and in cfDNA related to gestational-age or placental-related complications. (Paired) placental methylation profiles will be correlated to DMRs in cfDNA to aid tissue-of-origin analysis. We will establish a methylation score to predict associated diseases. Discussion: This study will provide insights in placental DNA methylation dynamics in health and disease, and could lead to clinical relevant biomarkers. [ABSTRACT FROM AUTHOR]

Published

2025

23. Detection rate for ESR1 mutations is higher in circulating‐tumor‐cell‐derived genomic DNA than in paired plasma cell‐free DNA samples as revealed by ddPCR.

Author

Smilkou, Stavroula, Ntzifa, Aliki, Tserpeli, Victoria, Balgkouranidou, Ioanna, Papatheodoridi, Alkistis, Razis, Evangelia, Linardou, Helena, Papadimitriou, Christos, Psyrri, Amanda, Zagouri, Flora, Kakolyris, Stylianos, and Lianidou, Evi

Subjects

*CIRCULATING tumor DNA, *METASTATIC breast cancer, *CELL-free DNA, *ESTROGEN receptors, *MOLECULAR dynamics

Abstract

Plasma cell‐free DNA (cfDNA) analysis to track estrogen receptor 1 (ESR1) mutations is highly beneficial for the identification of tumor molecular dynamics and the improvement of personalized treatments for patients with metastatic breast cancer (MBC). Plasma‐cfDNA is, up to now, the most frequent liquid biopsy analyte used to evaluate ESR1 mutational status. Circulating tumor cell (CTC) enumeration and molecular characterization analysis provides important clinical information in patients with MBC. In this study, we investigated whether analysis of CTCs and circulating tumor DNA (ctDNA) provide similar or complementary information for the analysis of ESR1 mutations. We analyzed both plasma‐cfDNA (n = 90) and paired CTC‐derived genomic DNA (gDNA; n = 42) from 90 MBC patients for seven ESR1 mutations. Eight out of 90 (8.9%) plasma‐cfDNA samples tested using the ddPLEX Mutation Detection Assay (Bio‐Rad, Hercules, CA, USA), were found positive for one ESR1 mutation, whereas 11/42 (26.2%) CTC‐derived gDNA samples were found positive for at least one ESR1 mutation. Direct comparison of paired samples (n = 42) revealed that the ESR1 mutation rate was higher in CTC‐derived gDNA (11/42, 26.2%) than in plasma‐cfDNA (6/42, 14.3%) samples. Our results, using this highly sensitive ddPLEX assay, reveal a higher percentage of mutations in CTC‐derived gDNAs than in paired ctDNA in patients with MBC. CTC‐derived gDNA analysis should be further evaluated as an important and complementary tool to ctDNA for identifying patients with ESR1 mutations and for guiding individualized therapy. [ABSTRACT FROM AUTHOR]

Published

2025

24. Clinical Utility of Serial Circulating Tumor DNA Analysis as a Minimally Invasive Biomarker in Advanced Urothelial Cancer.

Author

Sakatani, Toru, Sumiyoshi, Takayuki, Kita, Yuki, Takada, Hideaki, Nakamura, Kenji, Hamada, Akihiro, Murakami, Kaoru, Sano, Takeshi, Goto, Takayuki, Sawada, Atsuro, Akamatsu, Shusuke, Saito, Ryoichi, and Kobayashi, Takashi

Subjects

*CIRCULATING tumor DNA, *SOMATIC mutation, *CELL-free DNA, *DNA analysis, *TRANSITIONAL cell carcinoma

Abstract

PURPOSE: Circulating tumor DNA (ctDNA) analysis is an alternative to tissue biopsy for genotyping in various cancers. We aimed to establish a plasma ctDNA sequencing assay, then evaluate its clinical utility in advanced urothelial cancer (UC). MATERIALS AND METHODS: This study included 82 patients with muscle-invasive or metastatic UC. A total of 158 blood samples and 73 tumor tissue samples were sequenced using our designed panel covering 53 UC-relevant genes and TERT promoter. We investigated the association between the proportion of ctDNA in total cell-free DNA (ctDNA fraction) and response to pembrolizumab treatment. ctDNA dynamics were explored during systemic therapy. RESULTS: In paired tissue-ctDNA samples with estimated tumor fraction, half (50.2%) of the somatic mutations were shared between both sources, while some (17.6%) mutations were found only in ctDNA. In the metastatic setting, on-treatment increase in ctDNA fraction during pembrolizumab treatment was significantly associated with a poor response rate (18.7% v 76.1%; P =.001) and progression-free survival (median 2.8 v 9.8 months; P <.001). A comparison of cancer cell fraction, the fraction of tumor cells carrying somatic mutations, between pembrolizumab initiation and on-treatment showed a strong correlation among patients where ctDNA fraction increased during treatment (r = 0.73). By contrast, no correlation was observed in patients without ctDNA fraction increase (r = 0.09). Most mutations newly detected at pembrolizumab resistance have already been identified in tumor tissues at earlier stages. CONCLUSION: Our newly established assay is suitable for assessing the genomic profile of ctDNA in patients with advanced UC. Our data may support future analyses of prognostic or predictive biomarkers for UC. [ABSTRACT FROM AUTHOR]

Published

2025

25. LAMP‐MS for Locus‐Specific Visual Quantification of DNA 5 mC and RNA m6A Using Ultra‐Low Input.

Author

Xie, Runyu, Yang, Xiaotong, He, Weizhi, Luo, Zhongguang, Li, Wenshuai, Xu, Chu, Cui, Xiaolong, Zhang, Wei, Wei, Ning, Wang, Xiaolan, Shi, Yixiang, He, Chuan, Liu, Jie, and Hu, Lulu

Subjects

*RNA modification & restriction, *CELL-free DNA, *MEDICAL screening, *DNA probes, *TECHNOLOGICAL innovations

Abstract

Enhancing the effectiveness of utilizing circulating cell‐free DNA (cfDNA) for disease screening remains a challenge, necessitating improved sensitivity, specificity, cost‐efficiency, and patient adherence. We present here LAMP‐MS, an innovative technology that integrates linear amplification with single‐base quantitative nucleic acid mass spectrometry on silicon chips. This approach overcomes several limitations in utilizing cfDNA 5‐methylcytosine (5 mC) status for colorectal cancer (CRC) screening. LAMP‐MS enables unbiased amplification of as little as 1 ng of cfDNA, site‐specifically quantify methylation levels of multiple 5 mC sites, thereby facilitating cost‐effective, high‐resolution quantitative detection of cfDNA methylation markers. We have validated the accuracy of DNA methylation determination using DNA probes and cfDNA from patient plasma samples, confirmed by mass spectrometric peak areas. Additionally, we have further shown this Mass Array technology could be expanded to also quantify RNA m6A modification sites. Combining the ability to work with ultra‐low input materials and a visually interpretable output, LAMP‐MS stands out as a promising method for real‐world applications in clinics and laboratories for nucleic acid methylation detection and quantification. [ABSTRACT FROM AUTHOR]

Published

2025

26. Can a Liquid Biopsy Detect Circulating Tumor DNA With Low-passage Whole-genome Sequencing in Patients With a Sarcoma? A Pilot Evaluation.

Author

Anderson, Colin J., Yang, HsihTe, Parsons, Judy, Ahrens, Will A., Jagosky, Megan H., Hsu, Johann H., Patt, Joshua C., Kneisl, Jeffrey S., and Steuerwald, Nury M.

Subjects

*CIRCULATING tumor DNA, *EPIDERMAL growth factor receptors, *WHOLE genome sequencing, *CELL-free DNA, *DNA fingerprinting

Abstract

Background: A liquid biopsy is a test that evaluates the status of a disease by analyzing a sample of bodily fluid, most commonly blood. In recent years, there has been progress in the development and clinical application of liquid biopsy methods to identify blood-based, tumor-specific biomarkers for many cancer types. However, the implementation of these technologies to aid in the treatment of patients who have a sarcoma remains behind other fields of cancer medicine. For this study, we chose to evaluate a sarcoma liquid biopsy based on circulating tumor DNA (ctDNA). All human beings have normal cell-free DNA (cfDNA) circulating in the blood. In contrast with cfDNA, ctDNA is genetic material present in the blood stream that is derived from a tumor. ctDNA carries the unique genomic fingerprint of the tumor with changes that are not present in normal circulating cfDNA. A successful ctDNA liquid biopsy must be able to target these tumor-specific genetic alterations. For instance, epidermal growth factor receptor (EGFR) mutations are common in lung cancers, and ctDNA liquid biopsies are currently in clinical use to evaluate the status of disease in patients who have a lung cancer by detecting EGFR mutations in the blood. As opposed to many carcinomas, sarcomas do not have common recurrent mutations that could serve as the foundation to a ctDNA liquid biopsy. However, many sarcomas have structural changes to their chromosomes, including gains and losses of portions or entire chromosomes, known as copy number alterations (CNAs), that could serve as a target for a ctDNA liquid biopsy. Murine double minute 2 (MDM2) amplification in select lipomatous tumors or parosteal osteosarcoma is an example of a CNA due to the presence of extra copies of a segment of the long arm of chromosome 12. Since a majority of sarcomas demonstrate a complex karyotype with numerous CNAs, a blood-based liquid biopsy strategy that searches for these CNAs may be able to detect the presence of sarcoma ctDNA. Whole-genome sequencing (WGS) is a next-generation sequencing technique that evaluates the entire genome. The depth of coverage of WGS refers to how detailed the sequencing is, like higher versus lower power on a microscope. WGS can be performed with high-depth sequencing (that is, > 60×), which can detect individual point mutations, or low-depth sequencing (that is, 0.1× to 5×), referred to as low-passage whole-genome sequencing (LP-WGS), which may not detect individual mutations but can detect structural chromosomal changes including gains and losses (that is, CNAs). While similar strategies have shown favorable early results for specific sarcoma subtypes, LP-WGS has not been evaluated for applicability to the broader population of patients who have a sarcoma. Questions/purposes: Does an LP-WGS liquid biopsy evaluating for CNAs detect ctDNA in plasma samples from patients who have sarcomas representing a variety of histologic subtypes? Methods: This was a retrospective study conducted at a community-based, tertiary referral center. Nine paired (plasma and formalin-fixed paraffin-embedded [FFPE] tissue) and four unpaired (plasma) specimens from patients who had a sarcoma were obtained from a commercial biospecimen bank. Three control specimens from individuals who did not have cancer were also obtained. The paired and unpaired specimens from patients who had a sarcoma represented a variety of sarcoma histologic subtypes. cfDNA was extracted, amplified, and quantified. Libraries were prepared, and LP-WGS was performed using a NextSeq 500 next-generation sequencing machine at a low depth of sequencing coverage (∼1×). The ichorCNA bioinformatics algorithm, which was designed to detect CNAs from low-depth genomic sequencing data, was used to analyze the data. In contrast with the gold standard for diagnosis in the form of histopathologic analysis of a tissue sample, this test does not discriminate between sarcoma subtypes but detects the presence of tumor-derived CNAs within the ctDNA in the blood that should not be present in a patient who does not have cancer. The liquid biopsy was positive for the detection of cancer if the ichorCNA algorithm detected the presence of ctDNA. The algorithm was also used to quantitatively estimate the percent ctDNA within the cfDNA. The concentration of ctDNA was then calculated from the percent ctDNA relative to the total concentration of cfDNA. The CNAs of the paired FFPE tissue and plasma samples were graphically visualized using aCNViewer software. Results: This LP-WGS liquid biopsy detected ctDNA in 9 of 13 of the plasma specimens from patients with a sarcoma. The other four samples from patients with a sarcoma and all serum specimens from patients without cancer had no detectable ctDNA. Of those 9 patients with positive liquid biopsy results, the percent ctDNA ranged from 6% to 11%, and calculated ctDNA quantities were 0.04 to 5.6 ng/mL, which are levels to be expected when ctDNA is detectable. Conclusion: In this small pilot study, we were able to detect sarcoma ctDNA with an LP-WGS liquid biopsy searching for CNAs in the plasma of most patients who had a sarcoma representing a variety of histologic subtypes. Clinical Relevance: These results suggest that an LP-WGS liquid biopsy evaluating for CNAs to identify ctDNA may be more broadly applicable to the population of patients who have a sarcoma than previously reported in studies focusing on specific subtypes. Large prospective clinical trials that gather samples at multiple time points during the process of diagnosis, treatment, and surveillance will be needed to further assess whether this technique can be clinically useful. At our institution, we are in the process of developing a large prospective clinical trial for this purpose. [ABSTRACT FROM AUTHOR]

Published

2025

27. Accuracy of cell‐free fetal DNA in detecting chromosomal anomalies in women experiencing miscarriage: systematic review and meta‐analysis.

Author

Della Valle, L., Piergianni, M., Khalil, A., Rizzo, G., Mappa, I., Matarrelli, B., Lucidi, A., Manzoli, L., Flacco, M. E., Stuppia, L., and D'Antonio, F.

Subjects

*MISCARRIAGE, *CELL-free DNA, *TRISOMY 13 syndrome, *FETAL abnormalities, *TRISOMY 18 syndrome

Abstract

Objective: To report the diagnostic accuracy of cell‐free fetal DNA (cfDNA) in detecting fetal chromosomal anomalies in women experiencing miscarriage. Methods: PubMed, MEDLINE, EMBASE and Cochrane databases were searched from inception to June 2024. The inclusion criteria were women experiencing miscarriage (defined as pregnancy loss before 20 weeks of gestation) who underwent cfDNA screening for trisomies 21, 18 and 13, other autosomal aneuploidies, sex‐chromosome aneuploidies and/or copy‐number variants (CNVs). The index test was cfDNA screening for each of the chromosomal anomalies listed. The reference standard was cytogenetic analysis of pregnancy tissue. The quality of the studies was assessed using the revised tool for the quality assessment of diagnostic accuracy studies. Summary estimates of sensitivity, specificity, positive and negative likelihood ratios, and diagnostic odds ratio were computed using the hierarchical summary receiver‐operating‐characteristics model. Results: Seven studies (887 women) were included in the systematic review and meta‐analysis. cfDNA had a sensitivity and specificity of 100% (95% CI, 81.5–100%) and 100% (95% CI, 99.1–100%), respectively, for trisomy 21, 100% (95% CI, 54.1–100%) and 100% (95% CI, 99.0–100%), respectively, for trisomy 18, and 88.9% (95% CI, 51.8–99.7%) and 100% (95% CI, 99.1–100%), respectively, for trisomy 13. The respective values for other autosomal trisomies were 75.8% (95% CI, 65.7–84.2%) and 99.4% (95% CI, 97.9–99.9%), while those for CNVs were 60.0% (95% CI, 14.7–94.7%) and 100% (95% CI, 97.4–100%). Failure of cfDNA testing was reported in 7.3% (95% CI, 5.7–9.2%) of cases. Conclusion: cfDNA has high diagnostic accuracy in detecting fetal trisomies 21, 18 and 13 in women experiencing miscarriage, while its accuracy for other autosomal aneuploidies and CNVs is only moderate. © 2024 International Society of Ultrasound in Obstetrics and Gynecology. [ABSTRACT FROM AUTHOR]

Published

2025

28. The Effect of Self-Reported Race on Noninvasive Prenatal Screening Test Characteristics.

Author

Mitra, Anjali N., Dingel, Aleksei, Kolarova, Teodora, MacKinnon, Hayley J., Katz, Ronit, Lockwood, Christina M., and Shree, Raj

Subjects

*SELF-evaluation, *RISK assessment, *RESEARCH funding, *BODY mass index, *PRENATAL diagnosis, *RETROSPECTIVE studies, *DESCRIPTIVE statistics, *RACE, *LONGITUDINAL method, *PSYCHOLOGY of Black people, *PSYCHOLOGY of mothers, *NUCLEIC acids, *MEDICAL records, *ACQUISITION of data, *GESTATIONAL age, *EXTRACELLULAR space, *REGRESSION analysis

Abstract

Objective Low fetal fraction (FF) on cell-free DNA (cfDNA)-based noninvasive prenatal screening (NIPS) is a common etiology for indeterminate results. As maternal Black race is implicated as a risk factor for low FF and more indeterminate results, we sought to evaluate this association. Study Design This was a single-institution, retrospective cohort study of cfDNA-based NIPS performed between May 2017 and May 2022 with complete clinical data abstraction. We compared FF, indeterminate rates, and total cfDNA concentration among self-reported Black, White, and Other groups from NIPS results from 2017 to 2022 with full clinical data abstraction. Using linear regression and interaction testing, we evaluated associations between self-reported race, FF, indeterminate rate, and total cfDNA concentration. Results In total, 1,591 participants met the inclusion criteria; 70.8% (n = 1,126) self-identified as White, 6.9% (n = 110) as Black, and 22.3% (n = 355) self-identified with another race. Mean FF was not different between the White, Black, or Other groups (11.8 vs. 11.2 vs. 11.7%, respectively, p = 0.52). This remained true after adjusting for body mass index (BMI), gestational age (GA) at draw, and fetal sex (all p > 0.17). Interaction testing for FF and total cfDNA by race with BMI, GA at draw, and fetal sex demonstrated no effect modification. Conclusion In our population, maternal self-identified race, particularly Black race, does not affect FF. Biological plausibility for race-based differences on clinical tests requires ongoing thoughtful consideration. Key Points NIPS is widely used to screen for fetal aneuploidy. FF is an important test metric, and low FF is associated with adverse outcomes, like aneuploidy. In existing studies, Black race is implicated as a risk factor for lower FF. Our study found no differences in FF between groups by self-reported race. Biological plausibility for race-based differences on clinical tests requires ongoing consideration. [ABSTRACT FROM AUTHOR]

Published

2025

29. An ultrasensitive DNA-enhanced amplification method for detecting cfDNA drug-resistant mutations in non-small cell lung cancer with selective FEN-assisted degradation of dominant somatic fragments.

Author

Zhang, Junhua, Li, Yifei, Huang, Wei, Sun, Gaoyuan, Ren, Hongjun, and Tang, Min

Subjects

*EPIDERMAL growth factor receptors, *NON-small-cell lung carcinoma, *HAIRPIN (Genetics), *CELL-free DNA, *GENE frequency, *CIRCULATING tumor DNA

Abstract

Blood cell-free DNA (cfDNA) can be a new reliable tool for detecting epidermal growth factor receptor (EGFR) mutations in non-small cell lung cancer (NSCLC) patients. However, the currently reported cfDNA assays have a limited role in detecting drug-resistant mutations due to their deficiencies in sensitivity, stability, or mutation detection rate. We developed an Archaeoglobus fulgidus-derived flap endonuclease (Afu FEN)-based DNA-enhanced amplification system of mutated cfDNA by designing a pair of hairpin probes to anneal with wild-type cfDNA to form two 5′-flaps, allowing for the specific cleavage of wild-type cfDNA by Afu FEN. When the dominant wild-type somatic cfDNA fragments were cleaved by structure-recognition-specific Afu FEN, the proportion of mutated cfDNA in the reaction system was greatly enriched. As the amount of mutated cfDNA in the system was further increased by PCR amplification, the mutation status could be easily detected through first-generation sequencing. In a mixture of synthetic wild-type and T790M EGFR DNA fragments, our new assay still could detect T790M mutation at the fg level with remarkably high sensitivity. We also tested its performance in detecting low variant allele frequency (VAF) mutations in clinical samples from NSCLC patients. The plasma cfDNA samples with low VAF (0.1 and 0.5 %) could be easily detected by DNA-enhanced amplification. This system with enhanced amplification of mutated cfDNA is an effective tool used for the early screening and individualized targeted therapy of NSCLC by providing a rapid, sensitive, and economical way for the detection of drug-resistant mutations in tumors. [ABSTRACT FROM AUTHOR]

Published

2025

30. KRAS Mutations in Cholangiocarcinoma: Prevalence, Prognostic Value, and KRAS G12/G13 Detection in Cell-Free DNA.

Author

THONGYOO, PITCHASAK, CHINDAPRASIRT, JARIN, APHIVATANASIRI, CHAIWAT, INTARAWICHIAN, PIYAPHAROM, KUNPROM, WARITTA, KONGPETCH, SARINYA, TECHASEN, ANCHALEE, LOILOME, WATCHARIN, NAMWAT, NISANA, TITAPUN, ATTAPOL, and JUSAKUL, APINYA

Subjects

CIRCULATING tumor DNA, CELL-free DNA, RAS oncogenes, OVERALL survival, SURVIVAL rate

Abstract

Background/Aim: Cholangiocarcinoma (CCA) is an aggressive hepatobiliary malignancy characterized by genomic heterogeneity. KRAS mutations play a significant role in influencing patient prognosis and guiding therapeutic decision-making. This study aimed to determine the prevalence and prognostic significance of KRAS mutations in CCA, asses the detection of KRAS G12/G13 mutations in plasma cell-free DNA (cfDNA), and evaluate the prognostic value of KRAS G12/G13 mutant allele frequency (MAF) in cfDNA in relation to clinicopathological data and patient survival. Materials and Methods: A retrospective analysis of 937 CCA patients was performed using data from cBioPortal to examine KRAS mutation profiles and their association with survival. Plasma from 101 CCA patients was analyzed for KRAS G12/G13 mutations in the cfDNA using droplet digital PCR, and the results were compared with tissuebased sequencing from 78 matched samples. Results: KRAS driver mutations were found in 15.6% of patients, with common variants being G12D (37.0%), G12V (24.0%) and Q61H (8.2%). Patients harboring KRAS mutations exhibited decreased overall and recurrence-free survival. KRAS G12/G13 mutations were detected in 14.9% of cfDNA samples, showing moderate concordance with tissue sequencing, and achieving 80% sensitivity and 93% specificity. Elevated KRAS G12/G13 MAF in cfDNA, combined with high CA19-9 levels, correlated with poorer survival outcomes. Conclusion: The presence of KRAS mutations was associated with poor survival in CCA, underscoring the importance of KRAS mutations as prognostic markers. The detection of KRAS mutations in cfDNA demonstrated potential as a promising non-invasive alternative for mutation detection and, when combined with CA19-9 levels, may improve prognostic efficacy in CCA. [ABSTRACT FROM AUTHOR]

Published

2025

31. Potential of plasma biomarkers for heart failure prediction, management, and prognosis: A multiomics perspective.

Author

Zou, Erhou, Xu, Xinjie, and Chen, Liang

Subjects

HEART transplantation, CELL-free DNA, GRAFT rejection, MEDICAL sciences, NON-coding RNA

Abstract

Heart failure (HF) remains a major global health challenge, and more effective and comprehensive plasma biomarkers are needed to effectively treat HF patients. Multiomics studies have shown that DNA fragments, noncoding RNAs, proteins, and metabolites may be potential plasma biomarkers for HF. However, comprehensive reviews that focus on research on plasma biomarkers for HF from an omics perspective are lacking. This review summarizes the applications of various omics approaches in the exploration of biomarkers related to the risk assessment, diagnosis, subtype classification, medical management, and prognosis prediction of HF. Moreover, as heart transplantation and left ventricular assistant device (LVAD) implantation are terminal therapies for end-stage HF patients, this review also discusses the role of cell-free DNA as a biomarker for cardiac transplant rejection and omics studies of plasma biomarkers in patients who respond to LVAD therapy. Our findings suggest that future omics research on HF biomarkers should employ integrated multiomics methods and expand the sample size to increase the robustness of the results and that the identified biomarkers should be further validated in large cohorts. [ABSTRACT FROM AUTHOR]

Published

2025

32. An appropriate DNA input for bisulfite conversion reveals LINE-1 and Alu hypermethylation in tissues and circulating cell-free DNA from cancers.

Author

Tran, Trang Thi Quynh, Pham, Tung The, Nguyen, Than Thi, Hien Do, Trang, Luu, Phuong Thi Thu, Nguyen, Uyen Quynh, Vuong, Linh Dieu, Nguyen, Quang Ngoc, Ho, Son Van, Dao, Hang Viet, Hoang, Tong Van, and Vo, Lan Thi Thuong

Subjects

*CELL-free DNA, *DNA methylation, *HUMAN genome, *COLON cancer, *LUNG cancer, *BREAST, *CIRCULATING tumor DNA

Abstract

The autonomous and active Long-Interspersed Element-1 (LINE-1, L1) and the non-autonomous Alu retrotransposon elements, contributing to 30% of the human genome, are the most abundant repeated sequences. With more than 90% of their sequences being methylated in normal cells, these elements undeniably contribute to the global DNA methylation level and constitute a major part of circulating-cell-free DNA (cfDNA). So far, the hypomethylation status of LINE-1 and Alu in cellular and extracellular DNA has long been considered a prevailing hallmark of ageing-related diseases and cancer. This study demonstrated that errors in LINE-1 and Alu methylation level measurements were caused by an excessive input quantity of genomic DNA used for bisulfite conversion. Using the minuscule DNA amount of 0.5 ng, much less than what has been used and recommended so far (500 ng-2 μg) or 1 μL of cfDNA extracted from 1 mL of blood, we revealed hypermethylation of LINE-1 and Alu in 407 tumour samples of primary breast, colon and lung cancers when compared with the corresponding pair-matched adjacent normal tissue samples (P < 0.05–0.001), and in cfDNA from 296 samples of lung cancers as compared with 477 samples from healthy controls (P < 0.0001). More importantly, LINE-1 hypermethylation in cfDNA is associated with healthy ageing. Our results have not only contributed to the standardized bisulfite-based protocols for DNA methylation assays, particularly in applications on repeated sequences but also provided another perspective for other repetitive sequences whose epigenetic properties may have crucial impacts on genome architecture and human health. [ABSTRACT FROM AUTHOR]

Published

2024

33. Evaluation of a Decentralized Donor-Derived Cell-Free DNA Assay for Kidney Allograft Rejection Monitoring.

Author

Loupy, Alexandre, Certain, Anaïs, Tangprasertchai, Narin S., Racapé, Maud, Ursule-Dufait, Cindy, Benbadi, Kawthar, Raynaud, Marc, Vaskova, Evgeniya, Marchis, Corina, Casas, Sílvia, Hague, Tim, Bestard, Oriol, Kervella, Delphine, Lefaucheur, Carmen, Viard, Thierry, and Aubert, Olivier

Subjects

*GRAFT rejection, *CELL-free DNA, *LOGISTIC regression analysis, *KIDNEY transplantation, *RENAL biopsy

Abstract

Donor-derived cell-free DNA (dd-cfDNA) is an emerging non-invasive biomarker for allograft injury detection. This study aimed to evaluate a new, decentralized dd-cfDNA testing kit against a centralized dd-cfDNA testing service broadly utilized in the United States. Kidney transplant recipients with decentralized and centralized dd-cfDNA measurements and concomitant kidney allograft biopsies were included in the study. 580 kidney allograft recipients from 3 referral centers were included for 603 total evaluations. Correlation between assays was evaluated using r-squared (r 2) and Spearman's rank correlation test, and associations with rejection using logistic regression analyses and discrimination using area under the curve. Mean dd-cfDNA levels from decentralized and centralized tests were 0.51% ± 0.81% and 0.43% ± 0.78%, respectively. The assays were highly correlated, with r 2 = 0.95 and Spearman's rank correlation 0.88 (p < 0.0001). Both tests showed significant association with allograft rejection (p < 0.0001) and good and similar discriminations to predict rejection (AUC: 0.758 for the decentralized and AUC: 0.760 for the centralized dd-cfDNA; p = 0.8466). Consistency between the assays was also confirmed across clinical scenarios including post-transplant timepoint, allograft stability, and allograft rejection subcategories. This decentralized dd-cfDNA assessment demonstrates high accuracy and value to non-invasively monitor kidney recipients. [ABSTRACT FROM AUTHOR]

Published

2024

34. Therapy response monitoring in blood plasma from esophageal adenocarcinoma patients using cell-free DNA methylation profiling.

Author

Schoofs, Kathleen, Ferro Dos Santos, Maísa R., De Wilde, Jilke, Roelandt, Sofie, Van de Velde, Sofie, Decruyenaere, Philippe, Meuris, Leander, Thas, Olivier, Philippron, Annouck, Depypere, Lieven, Nafteux, Philippe, Vanommeslaeghe, Hanne, Van Daele, Elke, Pattyn, Piet, Vandesompele, Jo, and De Preter, Katleen

Subjects

*MEDICAL sciences, *CELL-free DNA, *CARCINOEMBRYONIC antigen, *DNA methylation, *POSITRON emission tomography computed tomography, *BLOOD plasma

Abstract

Esophageal adenocarcinoma (EAC) is an aggressive cancer characterized by a high risk of relapse post-surgery. Current follow-up methods (serum carcinoembryonic antigen detection and PET-CT) lack sensitivity and reliability, necessitating a novel approach. Analyzing cell-free DNA (cfDNA) from blood plasma emerges as a promising avenue. This study aims to evaluate the cost-effective and genome-wide cell-free reduced representation bisulfite sequencing (cfRRBS) method combined with computational deconvolution for effective disease monitoring in EAC patients. cfDNA methylation profiling with cfRRBS was performed on 162 blood plasma samples from 33 EAC cancer patients and 28 blood plasma samples from 20 healthy donors. The estimated tumor fraction for EAC patients at the time of diagnosis was significantly different from the healthy donor plasma samples (one-sided Wilcoxon rank-sum test: p-value = 0.032). Tumor fractions above 15% and focal gains/amplifications in MYC (chr8), KRAS (chr12), EGFR (chr7) and NOTCH2 (chr1) were observed in four samples of distinct patients at the time metastatic disease was detected. This study showed feasibility to estimate tumor fractions in blood plasma of EAC patients based on cfDNA methylation using cfRRBS and computational deconvolution. Nevertheless, in this study only cancer patients with evidence of metastatic disease show high tumor fractions and copy number alterations. [ABSTRACT FROM AUTHOR]

Published

2024

35. Potential role of circulating tumor cells and cell-free DNA as biomarkers in oral squamous cell carcinoma: A prospective single-center study.

Author

Eboshida, Natsuki, Hamada, Atsuko, Higaki, Mirai, Obayashi, Fumitaka, Ito, Nanako, Yamasaki, Sachiko, Tani, Ryouji, Shintani, Tomoaki, Koizumi, Koichi, and Yanamoto, Souichi

Subjects

*CELL-free DNA, *SQUAMOUS cell carcinoma, *COLORECTAL cancer, *PROGNOSTIC models, *GENETIC mutation

Abstract

Metastasis in patients with oral squamous cell carcinoma has been associated with a poor prognosis. However, sensitive and reliable tests for monitoring their occurrence are unavailable, with the exception of PET-CT. Circulating tumor cells and cell-free DNA have emerged as promising biomarkers for determining treatment efficacy and as prognostic predictors in solid tumors such as breast cancer and colorectal cancer. Hence, this study aimed to determine the potential role of liquid biopsy, circulating tumor cells, and cell-free DNA as biomarkers of oral squamous cell carcinoma. Thirteen patients with primary oral squamous cell carcinoma who visited our hospital between 2022 and 2023 were recruited, and plasma samples were collected from each patient preoperatively and postoperatively. We examined the relationship between the prognosis, the number of circulating tumor cells per four milliliters of peripheral blood, and the amount of cell-free DNA per milliliter of serum or the gene mutation in cell-free DNA. We observed no correlation between the number of preoperative circulating tumor cells and metastatic events. However, the number of circulating tumor cell clusters or the amount of preoperative cell-free DNA in metastatic cases was higher than that in non-metastatic cases. In oral squamous cell carcinoma, circulating tumor cell clusters or cell-free DNA levels may help inform management decisions regarding metastasis. However, further studies are required to provide a possible window for therapeutic interventions. [ABSTRACT FROM AUTHOR]

Published

2024

36. Performance of cell free DNA as a screening tool based on the results of first trimester screening.

Author

Motevasselian, Mahtab, Omrani, Mohammad Amin, Saleh Gargari, Soraya, Younesi, Sarang, Taheri Amin, Mohammad Mahdi, Saadati, Pourandokht, Jamali, Soudabeh, Modarresi, Mohammad-Hossein, Savad, Shahram, Rahmani, Majid, Amidi, Saloomeh, Delshad, Saeed, Navidpour, Fariba, Chagheri, Samira, Mohammadi, Yalda, Khalilian, Sheyda, Eslami, Solat, and Ghafouri-Fard, Soudeh

Subjects

*SEX chromosome abnormalities, *CELL-free DNA, *INVASIVE diagnosis, *MEDICAL screening, *FETAL abnormalities

Abstract

The advent of non-invasive prenatal testing (NIPT) in the screening of fetal abnormalities has optimized prenatal care and decreased the rate of invasive diagnostic tests. In this retrospective descriptive study, we began with 1874 singleton pregnancies. After exclusion of some cases, the study cohort ended up with 1674 cases. We analyzed the performance of NIPT based on the results of first trimester screening (FTS) using serum screening combined with NT. The cases were also compared to diagnostic testing/pregnancy outcomes. Notably, in the subgroup with FTS risk < 1000, NIPT was reported to be normal in all cases with no false negative results. In the risk group of 1/300-1/1000, NIPT could detect all trisomy 21 cases with one false positive result. Moreover, in the risk group of 1/11 − 1/300, NIPT could detect all cases of trisomy 21, 13 and 18 with low false positive rate. However, the false positive rate for sex chromosomal abnormalities was high. Taken together, the current study confirms the applicability of NIPT as a tool for detection of fetal trisomies with high sensitivity and specificity. Yet, the high rate of false positive results for sex chromosome abnormalities should be considered in the interpretation of the results. [ABSTRACT FROM AUTHOR]

Published

2024

37. Non-invasive diagnosis of esophageal cancer by a simplified circulating cell-free DNA methylation assay targeting OTOP2 and KCNA3: a double-blinded, multicenter, prospective study.

Author

Bian, Yan, Gao, Ye, Lin, Han, Sun, Chang, Wang, Wei, Sun, Siyu, Li, Xiuling, Feng, Zhijie, Ren, Jianlin, Chen, Hezhong, Lu, Chaojing, Xu, Jinfang, Zhou, Jun, Wan, Kangkang, Xin, Lei, Li, Zhaoshen, and Wang, Luowei

Subjects

*RECEIVER operating characteristic curves, *ESOPHAGEAL cancer, *CELL-free DNA, *DNA methylation, *DNA analysis

Abstract

Background: Esophageal cancer (EC) is a highly lethal disease lacking early detection approaches. We previously identified that OTOP2 and KCNA3 were specifically hypermethylated in circulating cell-free DNA from patients with EC. We then developed a blood-based methylation assay targeting OTOP2 and KCNA3 (named "IEsohunter") for esophageal cancer noninvasive detection. This double-blinded, multicenter, prospective study aimed to comprehensively evaluate its clinical diagnostic performance. Methods: Participants with EC, high-grade intraepithelial neoplasia (HGIN), other malignancies, benign gastrointestinal lesions, or no abnormalities were prospectively enrolled from 5 tertiary referral centers across China. Peripheral blood samples were collected, followed by plasma cell-free DNA methylation analysis using the IEsohunter test based on multiplex quantitative polymerase chain reaction adopting an algorithm-free interpretation strategy. The primary outcome was the diagnostic accuracy of IEsohunter test for EC. Results: We prospectively enrolled 1116 participants, including 334 patients with EC, 71 with HGIN, and 711 controls. The areas under the receiver operating characteristic curves of the IEsohunter test for detecting EC and HGIN were 0.903 (95% CI 0.880–0.927) and 0.727 (95% CI 0.653–0.801), respectively. IEsohunter test showed sensitivities of 78.5% (95% CI 69.1–85.6), 87.3% (95% CI 79.4–92.4), 92.5% (95% CI 85.9–96.2), and 96.9% (95% CI 84.3–99.8) for stage I-IV EC, respectively, with an overall sensitivity of 87.4% (95% CI 83.4–90.6) and specificity of 93.3% (95% CI 91.2–94.9) for EC detection. The IEsohunter test status turned negative (100.0%, 47/47) after surgical resection of EC. Conclusions: The IEsohunter test showed high diagnostic accuracy for EC detection, indicating that it could potentially serve as a tool for noninvasive early detection and surveillance of EC. [ABSTRACT FROM AUTHOR]

Published

2024

38. A large-scale proteomics resource of circulating extracellular vesicles for biomarker discovery in pancreatic cancer.

Author

Bockorny, Bruno, Muthuswamy, Lakshmi, Ling Huang, Hadisurya, Marco, Lim, Christine Maria, Tsai, Leo L., Gill, Ritu R., Wei, Jesse L., Bullock, Andrea J., Grossman, Joseph E., Besaw, Robert J., Narasimhan, Supraja, Tao, Weiguo Andy, Perea, Sofia, Sawhney, Mandeep S., Freedman, Steven D., Hildago, Manuel, Iliuk, Anton, and Muthuswamy, Senthil K.

Subjects

*CELL-free DNA, *AUTOMATIC gain control, *UNFOLDED protein response, *CLINICAL chemistry, *RECEIVER operating characteristic curves, *FEATURE selection, *PROTEOMICS

Abstract

The eLife article from December 18, 2024, details a proteomics study on circulating extracellular vesicles for biomarker discovery in pancreatic cancer. Researchers analyzed plasma samples from 124 individuals with various pancreatic diseases and controls, identifying a seven-protein signature that accurately diagnosed pancreatic cancer with an 89% prediction accuracy. The study underscores the significance of early detection in improving patient outcomes and offers valuable insights into potential biomarkers for pancreatic cancer diagnosis and prognosis. Conducted ethically with the approval of the Harvard Cancer Center Institutional Review Board, the research highlights the potential of extracellular vesicle proteins as biomarkers for pancreatic cancer. [Extracted from the article]

Published

2024

39. cfDNA fragmentation patterns correlate with tumor burden measured via PSMA PET/CT volumetric parameters in patients with biochemical recurrence of prostate cancer.

Author

Amseian, Gary, Figueras, Marcel, Mases, Joel, Mengual, Lourdes, Ribal, Maria-Jose, Quintero, Katherine, Pages, Rita, Ingelmo-Torres, Mercedes, Roldan, Fiorella-Lizzeth, Caratini, Rocío, Fuster, David, Alcaraz, Antonio, Izquierdo, Laura, Paredes, Pilar, Campos, Francisco, Casanueva-Eliceiry, Sebastián, Cobo, Amparo, Moragas, Mercè, Muxí, África, and Niñerola, Aida

Subjects

*PROSTATE cancer patients, *MEDICAL sciences, *COMPUTED tomography, *CANCER relapse, *CELL-free DNA, *POSITRON emission tomography, *ENDORECTAL ultrasonography

Abstract

Background: Prostate cancer recurrence following primary treatment poses a significant clinical challenge, particularly when detected through biochemical recurrence at low PSA levels. Conventional imaging modalities often fail to localize the disease at this early stage. PSMA PET has demonstrated superior sensitivity in detecting recurrent lesions, even in patients with low PSA. Concurrently, liquid biopsy, through analysis of cell-free DNA (cfDNA), offers a minimally invasive approach for monitoring disease. There is scarce evidence about the association between liquid biopsy and PSMA PET/CT findings. This study aimed to assess the correlation between liquid biopsy and tumor burden assessed by PSMA PET/CT in early recurring prostate cancer patients. Results: PSMA PET/CT and liquid biopsies of 32 patients in biochemical recurrence were analyzed. 12 patients (37.5%) had no PSMA PET-measurable disease. Four patients (12.5%) presented local recurrence, seven (21.9%) had recurrence in pelvic lymph nodes, one of whom also had local recurrence. Nine patients (28.1%) presented metastatic recurrence, with or without local or nodal recurrence. PSA levels correlated with molecular imaging data (p < 0.05), including whole body PSMA-TV, whole body PSMA-TL, whole body SUVmean and whole body SUVmax. The mean cfDNA fragment size fraction was inversely correlated with tumour burden measured with whole body PSMA-TV, with a Spearman correlation coefficient of -0.451 and a p-value of 0.009. No correlation was found between cfDNA concentration and PET-PSMA data. Conclusion: This prospective study demonstrated a statistically significant negative correlation between cfDNA fragmentation patterns and PSMA PET/CT volumetric parameters in patients with presumed localized prostate cancer with early biochemical recurrence. These findings underscore the potential of liquid biopsy as a biomarker and a complementary tool to PSMA PET/CT to assess disease progression during the follow-up of these patients. [ABSTRACT FROM AUTHOR]

Published

2024

40. Advancing diagnosis and early risk assessment of preeclampsia through noninvasive cell-free DNA methylation profiling.

Author

Baetens, Machteld, Van Gaever, Bram, Deblaere, Stephanie, De Koker, Andries, Meuris, Leander, Callewaert, Nico, Janssens, Sandra, Roelens, Kristien, Roets, Ellen, Van Dorpe, Jo, Dehaene, Isabelle, and Menten, Björn

Subjects

*PREGNANT women, *HIGH-risk pregnancy, *EMBRYO implantation, *PREGNANCY complications, *PRENATAL care, *PREECLAMPSIA

Abstract

Background: Aberrant embryo implantation and suboptimal placentation can lead to (severe) complications such as preeclampsia and fetal growth restriction later in pregnancy. Current identification of high-risk pregnancies relies on a combination of risk factors, biomarkers, and ultrasound examinations, a relatively inaccurate approach. Previously, aberrant DNA methylation due to placental hypoxia has been identified as a potential marker of placental insufficiency and, hence, potential (future) pregnancy complications. The goal of the Early Prediction of prEgnancy Complications Testing, or the ExPECT study, is to validate a genome-wide, cell-free DNA (cfDNA) methylation strategy to diagnose preeclampsia accurately. More importantly, the predictive potential of this strategy is also explored to reliably identify high-risk pregnancies early in gestation. Furthermore, a longitudinal study was conducted, including sequential blood samples from pregnant individuals experiencing both uneventful and complicated gestations, to assess the methylation dynamics of cfDNA throughout these pregnancies. A significant strength of this study is its enzymatic digest, which enriches CpG-rich regions across the genome without the need for proprietary reagents or prior selection of regions of interest. This makes it useful for the cost-effective discovery of novel markers. Results: Investigation of methylation patterns throughout pregnancy showed different methylation trends between unaffected and affected pregnancies. We detected differentially methylated regions (DMRs) in pregnancies complicated with preeclampsia as early as 12 weeks of gestation, with distinct differences in the methylation profile between early and late pregnancy. Two classification models were developed to diagnose and predict preeclampsia, demonstrating promising results on a small set of validation samples. Conclusions: This study offers valuable insights into methylation changes at specific genomic regions throughout pregnancy, revealing critical differences between normal and complicated pregnancies. The power of noninvasive cfDNA methylation profiling was successfully proven, suggesting the potential to integrate this noninvasive approach into routine prenatal care. [ABSTRACT FROM AUTHOR]

Published

2024

41. Application of Circulating Tumor DNA in the Auxiliary Diagnosis and Prognosis Prediction of Glioma.

Author

Lu, Ying, Wang, Zhouyu, Zhang, Danmeng, Luo, Ningning, Yang, Hui, Chen, Dongsheng, and Huang, Haixin

Subjects

*CIRCULATING tumor DNA, *CELL-free DNA, *MEDICAL sciences, *BRAIN tumors, *NUCLEOTIDE sequencing

Abstract

Glioma is the most common primary malignant brain tumor. Despite significant advances in the past decade in understanding the molecular pathogenesis of this tumor and exploring therapeutic strategies, the prognosis of patients with glioma remains poor. Accurate diagnosis of glioma is very important for the treatment and prognosis. Although the gold-standard method for the diagnosis and prognosis prediction of patients with glioma is tissue biopsy, it still has many limitations. Liquid biopsy can provide information on the auxiliary diagnosis and prognosis of gliomas. In this review, we summarized the application of cell-free DNA (cfDNA) and circulating tumor DNA (ctDNA) in the auxiliary diagnosis and prognosis of glioma. The common methods used to detect ctDNA in gliomas using samples including blood and cerebrospinal fluid (CSF) and the detection techniques for ctDNA, including droplet digital PCR (ddPCR) and next-generation sequencing (NGS), were discussed. Detection of ctDNA from plasma of patients with brain tumors remains challenging because of the blood–brain barrier (BBB). CSF has been proposed as a medium for ctDNA analysis in brain tumors, and mutation detection using plasma ctDNA was less sensitive than CSF ctDNA sequencing. Moreover, ongoing relevant clinical studies were summarized. Finally, we discussed the challenges, and future directions for the studies on ctDNA in glioma. [ABSTRACT FROM AUTHOR]

Published

2024

42. Plasma mutation profile of precursor lesions and colorectal cancer using the Oncomine Colon cfDNA Assay.

Author

dos Reis, Mariana Bisarro, dos Santos, Wellington, de Carvalho, Ana Carolina, Lima, Adhara Brandão, Reis, Monise Tadin, Santos, Florinda, Reis, Rui Manuel, and Guimarães, Denise Peixoto

Subjects

*MEDICAL sciences, *GENETIC variation, *RAS oncogenes, *CIRCULATING tumor DNA, *CELL-free DNA, *TUMOR markers

Abstract

Background: Colorectal cancer (CRC) is the second leading cause of cancer death worldwide. Early detection of precursor lesions or early-stage cancer could hamper cancer development or improve survival rates. Liquid biopsy, which detects tumor biomarkers, such as mutations, in blood, is a promising avenue for cancer screening. Aim: To assess the presence of genetic variants in plasma cell-free tumor DNA from patients with precursor lesions and colorectal cancer using the commercial Oncomine Colon cfDNA Assay. Material and methods: Cell-free DNA (cfDNA) samples from the plasma of 52 Brazilian patients were analyzed. Eight patients did not have any significant lesions (five normal colonoscopies and three hyperplastic polyps), 24 exhibited precursor lesions (13 nonadvanced adenomas, 10 advanced adenomas, and one sessile serrated lesion), and 20 patients with cancer (CRC). The mutation profile of 14 CRC-associated genes were determined by next-generation sequencing (NGS) using the Oncomine Colon cfDNA Assay in the Ion Torrent PGM/S5 sequencer. Results: Thirty-three variants were detected in eight genes (TP53, PIK3CA, FBXW7, APC, BRAF, GNAS, KRAS, and SMAD4). No variants were detected in the AKT1, CTNNB1, EGFR, ERBB2, MAP2K1 and NRAS genes. All variants were considered pathogenic and classified as missense or truncating. The TP53 gene harbored the most variants (48.48%), followed by the KRAS gene (15.15%) and the APC gene (9.09%). It was possible to detect the presence of at least one pathogenic variant in cfDNA in 60% of CRC patients (12/20) and 25% of precursor lesions (6/24), which included variants in three patients with nonadvanced adenoma (3/13 – 23.08%) and three with advanced adenomas (3/10 – 30%). No variants were detected in the eight patients with normal findings during colonoscopy. The detection of mutations showed a sensitivity of 60% and a specificity of 100% for detecting CRC and a sensitivity of 50% and a specificity of 100% for detecting advanced lesions. Conclusion: The detection of plasma NGS-identified mutations could assist in early screening and diagnostic of CRC in a noninvasive manner. [ABSTRACT FROM AUTHOR]

Published

2024

43. Direct comparison of an ultrasensitive real-time PCR assay with droplet digital PCR for the detection of PIK3CA hotspot mutations in primary tumors, plasma cell-free DNA and paired CTC-derived gDNAs.

Author

Smilkou, Stavroula, Kaklamanis, Loukas, Balgouranidou, Ioanna, Linardou, Helena, Papatheodoridi, Alkistis Maria, Zagouri, Flora, Razis, Evangelia, Kakolyris, Stylianos, Psyrri, Amanda, Papadimitriou, Christos, Markou, Athina, and Lianidou, Evi

Subjects

DNA denaturation, METASTATIC breast cancer, DIGITAL instrumentation, CELL-free DNA, BREAST cancer

Abstract

Introduction: Detection of PIK3CA mutations in primary tumors and liquid biopsy samples is of increasing importance for treatment decisions and therapy resistance in many types of cancer. The aim of the present study was to directly compare the efficacy of a relatively inexpensive ultrasensitive real-time PCR with the well-established and highly sensitive technology of ddPCR for the detection of the three most common hotspot mutations of PIK3CA , in exons 9 and 20, that are all of clinical importance in various types of cancer. Patients and methods: We analyzed 42 gDNAs from primary tumors (FFPEs), 29 plasma-cfDNA samples, and 29 paired CTC-derived gDNAs, all from patients with ER+ metastatic breast cancer, and plasma from 10 healthy donors. The same blood draws were used for CTC isolation using EpCAM beads for positive immunomagnetic enrichment. All FFPEs and plasma-cfDNA samples were analyzed in parallel for PIK3CA mutations by ultrasensitive real-time PCR assay and droplet digital PCR. Results: In gDNAs from FFPEs, using ultrasensitive real-time PCR, the p.E545K mutation was detected in 22/42(52.4%), and the p.E542K and p.H1047R mutations were detected in 14/42(33.3%) and 16/42(38.1%), respectively. Using ddPCR, the p.E545K mutation was detected in 22/42(52.4%), p.E542K in 17/42(40.5%), and p.H1047R in 19/42(45.2%) samples, revealing a concordance between the two methodologies of 81%, 78.6% and 78.6% for each mutation respectively. In plasma-cfDNA, using ultrasensitive real-time PCR, the p.E545K mutation was detected in 11/29(38%) and both p.E542K and p.H1047R mutations in 2/29(6.9%).In the same plasma-cfDNA samples using ddPCR, p.E545K was detected in 1/29(3.5%), p.E542K in 2/29(6.9%), and p.H1047R in 3/29(10.5%) samples, revealing a concordance of 65.5%,100% and 93.1% for each mutation respectively. In paired CTC-derived gDNAs p.E545K was detected in 11/29(38%), p.E542K in 3/29(10.3%), and p.H1047R in 7/29(24.1%) samples. Conclusions: This low-cost, high-throughput and ultrasensitive real-time PCR assay provides accurate and specific detection of PIK3CA hotspot mutations in liquid biopsy samples and gives similar results to ddPCR. This assay can be performed in labs where digital PCR instrumentation is not available. In CTC-derived gDNA and paired plasma-cfDNA, PIK3CA mutations detected were not identical, revealing that CTC and plasma-cfDNA give complementary information. [ABSTRACT FROM AUTHOR]

Published

2024

44. Transcorneal electrical stimulation restores DNA methylation changes in retinal degeneration.

Author

Tew, Ben Yi, Gooden, Gerald C., Lo, Pei-An, Pollalis, Dimitrios, Ebright, Brandon, Kalfa, Alex J., Gonzalez-Calle, Alejandra, Thomas, Biju, Buckley, David N., Simon, Thomas, Yang, Zeyi, Iseri, Ege, Dunton, Cody L., Backman, Vadim, Louie, Stan, Lazzi, Gianluca, Humayun, Mark S., and Salhia, Bodour

Subjects

GENE expression, DNA methylation, RETINAL degeneration, TREATMENT effectiveness, CELL-free DNA, RETINA, SUPERIOR colliculus

Abstract

Background: Retinal degeneration is a major cause of irreversible blindness. Stimulation with controlled low-level electrical fields, such as transcorneal electrical stimulation (TES), has recently been postulated as a therapeutic strategy. With promising results, there is a need for detailed molecular characterization of the therapeutic effects of TES. Methods: Controlled, non-invasive TES was delivered using a custom contact lens electrode to the retinas of Royal College of Surgeons (RCS) rats, a model of retinal degeneration. DNA methylation in the retina, brain and cell-free DNA in plasma was assessed by reduced representation bisulfite sequencing (RRBS) and gene expression by RNA sequencing. Results: TES induced DNA methylation and gene expression changes implicated in neuroprotection in the retina of RCS rats. We devised an epigenomic-based retinal health score, derived from DNA methylation changes observed with disease progression in RCS rats, and showed that TES improved the epigenomic health of the retina. TES also induced DNA methylation changes in the superior colliculus: the brain which is involved in integrating visual signaling. Lastly, we demonstrated that TES-induced retinal DNA methylation changes were detectable in cell-free DNA derived from plasma. Conclusion: TES induced DNA methylation changes with therapeutic effects, which can be measured in circulation. Based on these changes, we were able to devise a liquid biopsy biomarker for retinal health. These findings shed light on the therapeutic potential and molecular underpinnings of TES, and provide a foundation for the further development of TES to improve the retinal health of patients with degenerative eye diseases. [ABSTRACT FROM AUTHOR]

Published

2024

45. Melanoma's New Frontier: Exploring the Latest Advances in Blood-Based Biomarkers for Melanoma.

Author

Prkačin, Ivana, Mokos, Mislav, Ferara, Nikola, and Šitum, Mirna

Subjects

*MELANOMA, *SKIN tumors, *CALCIUM-binding proteins, *EARLY detection of cancer, *IMMUNOTHERAPY, *CANCER cell culture, *LACTATE dehydrogenase, *METASTASIS, *BLOOD platelets, *NUCLEIC acids, *PROTEOMICS, *INDIVIDUALIZED medicine, *EXTRACELLULAR space, *BIOMARKERS, *DISEASE risk factors, BODY fluid examination

Abstract

Simple Summary: This review provides a comprehensive overview of advancements in melanoma biomarkers, emphasizing the potential of serologic biomarkers for early diagnosis, prognosis, and personalized treatment of melanoma. Notable markers include S100B and lactate dehydrogenase (LDH), already partially integrated into clinical practice, and new candidates like melanoma-inhibiting activity (MIA), osteopontin, and tumor-associated antigen 90 immune complex (TA90-IC), which offer predictive capabilities for treatment outcomes. New biomarkers, including genetic, proteomic, and cellular markers, are emerging as crucial tools. These biomarkers, such as circulating tumor DNA (ctDNA) and RNA, can offer real-time insights into tumor dynamics, enabling non-invasive monitoring through liquid biopsies. Additionally, tumor-educated platelets and circulating immune cells show promise in understanding melanoma's aggressive behavior. Lastly, the review discusses the integration of these biomarkers into clinical protocols and the need for continued research to establish these tools' accuracy, improving patient-specific treatment strategies. Melanoma is one of the most malignant cancers, and the global incidence of cutaneous melanoma is increasing. While melanomas are highly prone to metastasize if diagnosed late, early detection and treatment significantly reduce the risk of mortality. Identifying patients at higher risk of metastasis, who might benefit from early adjuvant therapies, is particularly important, especially with the advent of new melanoma treatments. Therefore, there is a pressing need to develop additional prognostic biomarkers for melanoma to improve early stratification of patients and accurately identify high-risk subgroups, ultimately enabling more effective personalized treatments. Recent advances in melanoma therapy, including targeted treatments and immunotherapy, have underscored the importance of biomarkers in determining prognosis and predicting treatment response. The clinical application of these markers holds the potential for significant advancements in melanoma management. Various tumor-derived genetic, proteomic, and cellular components are continuously released into the bloodstream of cancer patients. These molecules, including circulating tumor DNA and RNA, proteins, tumor cells, and immune cells, are emerging as practical and precise liquid biomarkers for cancer. In the current era of effective molecular-targeted therapies and immunotherapies, there is an urgent need to integrate these circulating biomarkers into clinical practice to facilitate personalized treatment. This review highlights recent discoveries in circulating melanoma biomarkers, explores the challenges and potentials of emerging technologies for liquid biomarker discovery, and discusses future directions in melanoma biomarker research. [ABSTRACT FROM AUTHOR]

Published

2024

46. Analysis of the clinical features and outcomes of relapsed intravascular large B-cell lymphoma: a single center study.

Author

Narita, Kentaro, Okamoto, Akinao, Iba, Sachiko, Tabata, Rikako, Ikeda, Daisuke, Oura, Mitsuaki, Uehara, Atsushi, Takeuchi, Masami, Takeuchi, Kengo, Tomita, Akihiro, and Matsue, Kosei

Subjects

*DIFFUSE large B-cell lymphomas, *DISEASE relapse, *MAGNETIC resonance imaging, *TREATMENT effectiveness, *CELL-free DNA, *ALCOHOLISM relapse

Abstract

The document analyzes the clinical features and outcomes of relapsed intravascular large B-cell lymphoma (IVLBCL) based on a single-center study conducted in Japan. The study highlights the challenges in diagnosing IVLBCL due to nonspecific symptoms and the importance of early detection through advanced diagnostic techniques. It also explores the recurrence patterns of IVLBCL, the impact of CNS prophylaxis on relapse rates, and the association between imaging findings and molecular features at relapse. The study suggests that IVLBCL often relapses in extranodal sites, particularly in the CNS, and calls for further research on optimal prophylactic regimens for better patient outcomes. [Extracted from the article]

Published

2024

47. Probing the diagnostic values of plasma cf-nDNA and cf-mtDNA for Parkinson's disease and multiple system atrophy.

Author

Ying, Chao, Li, Yuan, Zhang, Hui, Pang, Shimin, Hao, Shuwen, Hu, Songnian, and Zhao, Lifang

Subjects

CELL-free DNA, MULTIPLE system atrophy, MONTREAL Cognitive Assessment, PARKINSON'S disease, MITOCHONDRIAL DNA

Abstract

Background: Cell loss and mitochondrial dysfunction are key pathological features of idiopathic Parkinson's disease (PD) and multiple system atrophy (MSA). It remains unclear whether disease-specific changes in plasma circulating cell-free nuclear DNA (cf-nDNA) and mitochondrial DNA (cf-mtDNA) occur in patients with PD and MSA. In this study, we investigated whether plasma cf-nDNA, cf-mtDNA levels, as well as cf-mtDNA integrity, are altered in patients with PD and MSA. Methods: TaqMan probe-based quantitative PCR was employed to measure plasma cf-nDNA levels, cf-mtDNA copy numbers, and cf-mtDNA deletion levels in 171 participants, including 76 normal controls (NC), 62 PD patients, and 33 MSA patients. A generalized linear model was constructed to analyze differences in circulating cell-free DNA (cfDNA) biomarkers across clinical groups, while a logistic regression model was applied to assess the predictive values of these biomarkers for developing PD or MSA. Spearman correlations were used to explore associations between the three cfDNA biomarkers, demographic data, and clinical scales. Results: No significant differences in plasma cf-nDNA levels, cf-mtDNA copy numbers, or cf-mtDNA deletion levels were observed among the PD, MSA, and NC groups (all P > 0.05). Additionally, these measures were not associated with the risk of developing PD or MSA. In PD patients, cf-nDNA levels were positively correlated with Hamilton Anxiety Rating Scale scores (Rho = 0.382, FDR adjusted P = 0.027). In MSA patients, cf-nDNA levels were positively correlated with International Cooperative Ataxia Rating Scale scores (Rho = 0.588, FDR adjusted P = 0.011) and negatively correlated with Montreal Cognitive Assessment scores (Rho = −0.484, FDR adjusted P = 0.044). Subgroup analysis showed that PD patients with constipation had significantly lower plasma cf-mtDNA copy numbers than those without constipation (P = 0.049). MSA patients with cognitive impairment had significantly higher cf-nDNA levels compared to those without (P = 0.008). Conclusion: Plasma cf-nDNA level, cf-mtDNA copy number, and cf-mtDNA deletion level have limited roles as diagnostic biomarkers for PD and MSA. However, their correlations with clinical symptoms support the hypothesis that cell loss and mitochondrial dysfunction are involved in PD and MSA development. [ABSTRACT FROM AUTHOR]

Published

2024

48. OCRClassifier: integrating statistical control chart into machine learning framework for better detecting open chromatin regions.

Author

Lai, Xin, Liu, Min, Liu, Yuqian, Zhu, Xiaoyan, and Wang, Jiayin

Subjects

QUALITY control charts, GENETIC regulation, CELL-free DNA, GENETIC transcription regulation, CHROMATIN

Abstract

Open chromatin regions (OCRs) play a crucial role in transcriptional regulation and gene expression. In recent years, there has been a growing interest in using plasma cell-free DNA (cfDNA) sequencing data to detect OCRs. By analyzing the characteristics of cfDNA fragments and their sequencing coverage, researchers can differentiate OCRs from non-OCRs. However, the presence of noise and variability in cfDNA-seq data poses challenges for the training data used in the noise-tolerance learning-based OCR estimation approach, as it contains numerous noisy labels that may impact the accuracy of the results. For current methods of detecting OCRs, they rely on statistical features derived from typical open and closed chromatin regions to determine whether a region is OCR or non-OCR. However, there are some atypical regions that exhibit statistical features that fall between the two categories, making it difficult to classify them definitively as either open or closed chromatin regions (CCRs). These regions should be considered as partially open chromatin regions (pOCRs). In this paper, we present OCRClassifier, a novel framework that combines control charts and machine learning to address the impact of high-proportion noisy labels in the training set and classify the chromatin open states into three classes accurately. Our method comprises two control charts. We first design a robust Hotelling T2 control chart and create new run rules to accurately identify reliable OCRs and CCRs within the initial training set. Then, we exclusively utilize the pure training set consisting of OCRs and CCRs to create and train a sensitized T2 control chart. This sensitized T2 control chart is specifically designed to accurately differentiate between the three categories of chromatin states: open, partially open, and closed. Experimental results demonstrate that under this framework, the model exhibits not only excellent performance in terms of three-class classification, but also higher accuracy and sensitivity in binary classification compared to the state-of-the-art models currently available. [ABSTRACT FROM AUTHOR]

Published

2024

49. Chimeric antigen receptor copies in cell‐free DNA predict relapse in aggressive B‐cell lymphoma patients treated with CAR T‐cell therapy.

Author

Iglesia‐San Sebastián, Ismael, López‐Esteban, Miguel, Bastos‐Oreiro, Mariana, Fernández de Córdoba‐Oñate, Sara, Gutierrez, Maravillas, Carbonell, Diego, Bailén, Rebeca, Gómez‐Centurión, Ignacio, Fernández‐Caldas, Paula, Castilla, Lucía, Anguita, Javier, Kwon, Mi, García‐Sanz, Ramón, Buño, Ismael, and Martínez‐Laperche, Carolina

Subjects

*CHIMERIC antigen receptors, *CELL-free DNA, *DISEASE relapse, *SURVIVAL rate, *BIOMARKERS

Abstract

Summary Chimeric antigen receptor (CAR) T‐cell therapy has emerged as a transformative treatment for aggressive B‐cell lymphomas (ABCL), However, about half of patients relapse, most of them early. This study investigates the detection of CAR copies in circulating cell‐free DNA (cfDNA) as a potential predictive biomarker of early relapse (<6 months) to improve patient management. In this research, we have consecutively selected 73 ABCL patients treated with anti‐CD19 CAR T‐cells, analysing CAR levels in peripheral blood and other clinical variables. Our results indicate that no correlation is present between genomic DNA and cfDNA; moreover, higher levels of CAR‐cfDNA on day +14 after infusion (0.44 vs. 0.07; p = 0.019) are associated with improved 6‐month progression‐free survival rates (74.2% vs. 26%. p < 0.01), suggesting that CAR‐cfDNA could be a strong predictor of CAR T‐cell therapy short‐term outcomes. These findings underscore the potential of integrating CAR‐cfDNA analysis into routine clinical practice to enhance the prognostic accuracy and therapeutic strategies for ABCL patients undergoing CAR T‐cell therapy. [ABSTRACT FROM AUTHOR]

Published

2024

50. AR alterations inform circulating tumor DNA detection in metastatic castration resistant prostate cancer patients.

Author

Knutson, Todd P., Luo, Bin, Kobilka, Anna, Lyman, Jacqueline, Guo, Siyuan, Munro, Sarah A., Li, Yingming, Heer, Rakesh, Gaughan, Luke, Morris, Michael J., Beltran, Himisha, Ryan, Charles J., Antonarakis, Emmanuel S., Armstrong, Andrew J., Halabi, Susan, and Dehm, Scott M.

Subjects

CELL-free DNA, CASTRATION-resistant prostate cancer, ANDROGEN receptors, CLINICAL trials, PLASMA cells, CIRCULATING tumor DNA

Abstract

Circulating tumor DNA (ctDNA) in plasma cell free DNA (cfDNA) of cancer patients is associated with poor prognosis, but is challenging to detect from low plasma volumes. In metastatic castration-resistant prostate cancer (mCRPC), ctDNA assays are needed to prognosticate outcomes of patients treated with androgen receptor (AR) inhibitors. We develop a custom targeted cfDNA sequencing assay, named AR-ctDETECT, to detect ctDNA in limiting plasma cfDNA available from mCRPC patients in the Alliance A031201 randomized phase 3 trial of enzalutamide with or without abiraterone. Of 776 patients, 59% are ctDNA-positive, with 26% having high ctDNA aneuploidy and 33% having low ctDNA aneuploidy but displaying AR gain or structural rearrangement, MYC/MYCN gain, or a pathogenic mutation. ctDNA-positive patients have significantly worse median overall survival than ctDNA-negative patients (29.0 months vs. 47.4 months, respectively). Here, we show that mCRPC patients identified as ctDNA-positive using the AR-ctDETECT assay have poor survival despite treatment with potent AR inhibitors in a phase 3 trial. Liquid biopsy assays are important to prognosticate outcomes of metastatic castration-resistant prostate cancer (mCRPC) patients treated with androgen receptor (AR) inhibitors. Here this group reports detecting circulating tumor DNA in limiting plasma cell-free DNA of mCRPC patients as prognostic marker of poor survival after AR treatment. [ABSTRACT FROM AUTHOR]

Published

2024