Your search keyword '"Gelineau, Nina U."' showing total 5 results

1. Novel Circulating Hypermethylated RASSF1A ddPCR for Liquid Biopsies in Patients With Pediatric Solid Tumors

Author

van Zogchel, Lieke M. J., Lak, Nathalie S. M., Verhagen, Onno J. H. M., Tissoudali, Ahmed, Gussmalla Nuru, Mohammed, Gelineau, Nina U., Zappeij-Kannengieter, Lily, Javadi, Ahmad, Zijtregtop, Eline A. M., Merks, Johannes H. M., van den Heuvel-Eibrink, Marry, Schouten-van Meeteren, Antoinette Y. N., Stutterheim, Janine, van der Schoot, C. Ellen, and Tytgat, Godelieve A. M.

Published

2021

2. Case series on clinical applications of liquid biopsy in pediatric solid tumors: towards improved diagnostics and disease monitoring.

Author

Gelineau, Nina U., van Barneveld, Astrid, Samim, Atia, Van Zogchel, Lieke, Lak, Nathalie, Tas, Michelle L., Matser, Yvette, Mavinkurve-Groothuis, Annelies M. C., van Grotel, Martine, Zsiros, Jószef, van Eijkelenburg, Natasha K. A., Knops, Rutger R. G., van Ewijk, Roelof, Langenberg, Karin P. S., De Krijger, Ronald, Hiemcke-Jiwa, Laura S., Van Paemel, Ruben, Cornelli, Lotte, De Preter, Katleen, and De Wilde, Bram

Subjects

CLINICAL medicine, BIOPSY, CHILD patients, CELL-free DNA, EWING'S sarcoma

Abstract

Background and aims: Solid tumors account for about 30% of all pediatric cancers. The diagnosis is typically based on histological and molecular analysis of a primary tumor biopsy. Liquid biopsies carry several advantages over conventional tissue biopsy. However, their use for genomic analysis and response monitoring of pediatric solid tumors is still in experimental stages and mostly performed retrospectively without direct impact on patient management. In this case series we discuss six clinical cases of children with a solid tumor for whom a liquid biopsy assay was performed and demonstrate the potential of liquid biopsy for future clinical decision making. Methods: We performed quantitative real-time PCR (RT-qPCR), droplet digital PCR (ddPCR) or reduced representation bisulphite sequencing of cell-free DNA (cfRRBS) on liquid biopsies collected from six pediatric patients with a solid tumor treated between 2017 and 2023 at the Princess Maá xima Center for Pediatric Oncology in the Netherlands. Results were used to aid in clinical decision making by contribution to establish a diagnosis, by prognostication and response to therapy monitoring. Results: In three patients cfRRBS helped to establish the diagnosis of a rhabdomyosarcoma, an Ewing sarcoma and a neuroblastoma (case 1-3). In two patients, liquid biopsies were used for prognostication, by MYCN ddPCR in a patient with neuroblastoma and by RT-qPCR testing rhabdomyosarcomaspecific mRNA in bone marrow of a patient with a rhabdomyosarcoma (case 4 and 5). In case 6, mRNA testing demonstrated disease progression and assisted clinical decision making. Conclusion: This case series illustrates the value of liquid biopsy. We further demonstrate and recommend the use of liquid biopsies to be used in conjunction with conventional methods for the determination of metastatic status, prognostication and monitoring of treatment response in patients with pediatric solid tumors. [ABSTRACT FROM AUTHOR]

Published

2023

3. Targeted locus amplification to develop robust patient-specific assays for liquid biopsies in pediatric solid tumors.

Author

van Zogchel, Lieke M. J., Lak, Nathalie S. M., Gelineau, Nina U., Sergeeva, Irina, Stelloo, Ellen, Swennenhuis, Joost, Feitsma, Harma, van Min, Max, Splinter, Erik, Bleijs, Margit, Koerkamp, Marian Groot, Breunis, Willemijn, Meister, Michael Torsten, Kholossy, Waleed Hassan, Holstege, Frank C. P., Molenaar, Jan J., de Leng, Wendy W. J., Stutterheim, Janine, van der Schoot, C. Ellen, and Tytgat, Godelieve A. M.

Subjects

CELL-free DNA, NEUROBLASTOMA, EWING'S sarcoma, GENE fusion, TUMORS, LIQUIDS

Abstract

Background: Liquid biopsies combine minimally invasive sample collection with sensitive detection of residual disease. Pediatric malignancies harbor tumordriving copy number alterations or fusion genes, rather than recurrent point mutations. These regions contain tumor-specific DNA breakpoint sequences. We investigated the feasibility to use these breakpoints to design patient-specific markers to detect tumor-derived cell-free DNA (cfDNA) in plasma from patients with pediatric solid tumors. Materials and methods: Regions of interest (ROI) were identified through standard clinical diagnostic pipelines, using SNP array for CNAs, and FISH or RT-qPCR for fusion genes. Using targeted locus amplification (TLA) on tumor organoids grown from tumor material or targeted locus capture (TLC) on FFPE material, ROI-specific primers and probes were designed, which were used to design droplet digital PCR (ddPCR) assays. cfDNA from patient plasma at diagnosis and during therapy was analyzed. Results: TLA was performed on material from 2 rhabdomyosarcoma, 1 Ewing sarcoma and 3 neuroblastoma. FFPE-TLC was performed on 8 neuroblastoma tumors. For all patients, at least one patient-specific ddPCR was successfully designed and in all diagnostic plasma samples the patient-specific markers were detected. In the rhabdomyosarcoma and Ewing sarcoma patients, all samples after start of therapy were negative. In neuroblastoma patients, presence of patient-specific markers in cfDNA tracked tumor burden, decreasing during induction therapy, disappearing at complete remission and re-appearing at relapse. Conclusion: We demonstrate the feasibility to determine tumor-specific breakpoints using TLA/TLC in different pediatric solid tumors and use these for analysis of cfDNA from plasma. Considering the high prevalence of CNAs and fusion genes in pediatric solid tumors, this approach holds great promise and deserves further study in a larger cohort with standardized plasma sampling protocols. [ABSTRACT FROM AUTHOR]

Published

2023

4. Cell-Free RNA from Plasma in Patients with Neuroblastoma: Exploring the Technical and Clinical Potential.

Author

Lak, Nathalie S. M., Seijger, Anne, van Zogchel, Lieke M. J., Gelineau, Nina U., Javadi, Ahmad, Zappeij-Kannegieter, Lily, Bongiovanni, Laura, Andriessen, Anneloes, Stutterheim, Janine, van der Schoot, C. Ellen, de Bruin, Alain, and Tytgat, Godelieve A. M.

Subjects

NEUROBLASTOMA, MINIMALLY invasive procedures, BLOOD platelets, METASTASIS, CELL cycle, MESSENGER RNA, EXTRACELLULAR space, TUMOR markers, CHROMATOGRAPHIC analysis, POLYMERASE chain reaction, BODY fluid examination, NUCLEIC acids, EXTRACELLULAR vesicles, BLOOD

Abstract

Simple Summary: Neuroblastoma mostly affects young children and despite intensive treatment, many children die of progressive disease. It remains challenging to identify those patients at risk. Analyzing blood, as liquid biopsies, is not invasive and can help to identify these patients. We studied whether RNA molecules can be detected in these liquid biopsies. In blood plasma, RNA can be free-floating or packed in small particles, 'extracellular vesicles'. We present a workflow to analyze this cell-free RNA from small volumes of blood plasma of children with neuroblastoma. We have used neuroblastoma-specific markers and markers involved in cell proliferation. These latter genes can be upregulated in many different tumor types. We demonstrate that both types of markers have a higher expression in patients with metastatic disease, compared to healthy controls and patients with localized disease. These findings are essential for future studies on cell-free RNA, hopefully leading to improved survival for these patients. Neuroblastoma affects mostly young children, bearing a high morbidity and mortality. Liquid biopsies, e.g., molecular analysis of circulating tumor-derived nucleic acids in blood, offer a minimally invasive diagnostic modality. Cell-free RNA (cfRNA) is released by all cells, especially cancer. It circulates in blood packed in extracellular vesicles (EV) or attached to proteins. We studied the feasibility of analyzing cfRNA and EV, isolated by size exclusion chromatography (SEC), from platelet-poor plasma from healthy controls (n = 40) and neuroblastoma patients with localized (n = 10) and metastatic disease (n = 30). The mRNA content was determined using several multiplex droplet digital PCR (ddPCR) assays for a neuroblastoma-specific gene panel (PHOX2B, TH, CHRNA3) and a cell cycle regulation panel (E2F1, CDC6, ATAD2, H2AFZ, MCM2, DHFR). We applied corrections for the presence of platelets. We demonstrated that neuroblastoma-specific markers were present in plasma from 14/30 patients with metastatic disease and not in healthy controls and patients with localized disease. Most cell cycle markers had a higher expression in patients. The mRNA markers were mostly present in the EV-enriched SEC fractions. In conclusion, cfRNA can be isolated from plasma and EV and analyzed using multiplex ddPCR. cfRNA is an interesting novel liquid biopsy-based target to explore further. [ABSTRACT FROM AUTHOR]

Published

2023

5. Specific and Sensitive Detection of Neuroblastoma mRNA Markers by Multiplex RT-qPCR.

Author

van Zogchel, Lieke M. J., Zappeij-Kannegieter, Lily, Javadi, Ahmad, Lugtigheid, Marjolein, Gelineau, Nina U., Lak, Nathalie S. M., Zwijnenburg, Danny A., Koster, Jan, Stutterheim, Janine, van der Schoot, C. Ellen, and Tytgat, Godelieve A. M.

Subjects

BIOMARKERS, REVERSE transcriptase polymerase chain reaction, PROTEINS, NEUROBLASTOMA, RNA, BLOOD collection, MESSENGER RNA, POLYMERASE chain reaction, BONE marrow

Abstract

Simple Summary: Sensitive detection of minimal residual disease by RT-qPCR in patients with neuroblastoma is shown to be predictive of outcome, but has not yet been introduced into clinical practice. A panel of multiple mRNA markers increases the sensitivity of minimal residual disease detection, since neuroblastoma tumors are heterogeneous tumors. Recent studies have identified two distinct phenotypes, an adrenergic and mesenchymal phenotype, that can be identified by using different mRNA markers. As generally only small volumes of bone marrow or blood are available in young neuroblastoma patients, we have developed a multiplex RT-qPCR to be able to test seven different mRNA markers, while we reduce the sample volume needed. Comparison between the multiplex RT-qPCR and RT-qPCR for the single markers showed a comparable sensitivity. This reduction in required sample volume, while saving time and resources, can assist in the introduction of minimal residual disease detection by RT-qPCR into clinical practice. mRNA RT-qPCR is shown to be a very sensitive technique to detect minimal residual disease (MRD) in patients with neuroblastoma. Multiple mRNA markers are known to detect heterogeneous neuroblastoma cells in bone marrow (BM) or blood from patients. However, the limited volumes of BM and blood available can hamper the detection of multiple markers. To make optimal use of these samples, we developed a multiplex RT-qPCR for the detection of MRD in neuroblastoma. GUSB and PHOX2B were tested as single markers. The adrenergic markers TH, GAP43, CHRNA3 and DBH and mesenchymal markers POSTN, PRRX1 and FMO3 were tested in multiplex. Using control blood and BM, we established new thresholds for positivity. Comparison of multiplex and singleplex RT-qPCR results from 21 blood and 24 BM samples from neuroblastoma patients demonstrated a comparable sensitivity. With this multiplex RT-qPCR, we are able to test seven different neuroblastoma mRNA markers, which overcomes tumor heterogeneity and improves sensitivity of MRD detection, even in those samples of low RNA quantity. With resources and time being saved, reduction in sample volume and consumables can assist in the introduction of MRD by RT-qPCR into clinical practice. [ABSTRACT FROM AUTHOR]

Published

2021