Your search keyword '"Scarpelli, I."' showing total 10 results

1. Anatomical and biochemical studies of Spartium junceum infected by Xylella fastidiosa subsp. multiplex ST 87

Author

Falsini, S., Tani, C., Sambuco, G., Papini, A., Faraoni, P., Campigli, S., Ghelardini, L., Bleve, G., Rizzo, D., Ricciolini, M., Scarpelli, I., Drosera, L., Gnerucci, A., Hand, F. Peduto, Marchi, G., and Schiff, S.

Published

2022

2. Genomic arrays identify high-risk chronic lymphocytic leukemia with genomic complexity: a multi-center study

Author

Leeksma, A.C., Baliakas, P., Moysiadis, T., Puiggros, A., Plevova, K., Kevie-Kersemaekers, A.M. van der, Posthuma, H., Rodriguez-Vicente, A.E., Tran, A.N., Barbany, G., Mansouri, L., Gunnarsson, R., Parker, H., Berg, Eva van den, Bellido, M., Davis, Z., Wall, M., Scarpelli, I., Österborg, A., Hansson, L., Jarosova, M., Ghia, P., Poddighe, P., Espinet, B., Pospisilova, S., Tam, C., Ysebaert, L., Nguyen-Khac, F., Oscier, D., Haferlach, C., Schoumans, J., Stevens-Kroef, M.J.P.L., Eldering, E., Stamatopoulos, K., Rosenquist, R., Strefford, J.C., Mellink, C., Kater, A.P., Leeksma, A.C., Baliakas, P., Moysiadis, T., Puiggros, A., Plevova, K., Kevie-Kersemaekers, A.M. van der, Posthuma, H., Rodriguez-Vicente, A.E., Tran, A.N., Barbany, G., Mansouri, L., Gunnarsson, R., Parker, H., Berg, Eva van den, Bellido, M., Davis, Z., Wall, M., Scarpelli, I., Österborg, A., Hansson, L., Jarosova, M., Ghia, P., Poddighe, P., Espinet, B., Pospisilova, S., Tam, C., Ysebaert, L., Nguyen-Khac, F., Oscier, D., Haferlach, C., Schoumans, J., Stevens-Kroef, M.J.P.L., Eldering, E., Stamatopoulos, K., Rosenquist, R., Strefford, J.C., Mellink, C., and Kater, A.P.

Abstract

Contains fulltext : 229392.pdf (publisher's version ) (Open Access)

Published

2021

3. Genomic arrays identify high-risk chronic lymphocytic leukemia with genomic complexity: a multicenter study

Author

Leeksma, AC, Baliakas, P, Moysiadis, T, Puiggros, A, Plevova, K, van der Kevie-Kersemaekers, A-M, Posthuma, H, Rodriguez-Vicente, AE, Tran, AN, Barbany, G, Mansouri, L, Gunnarsson, R, Parker, H, van den Berg, E, Bellido, M, Davis, Z, Wall, M, Scarpelli, I, Osterborg, A, Hansson, L, Jarosova, M, Ghia, P, Poddighe, P, Espinet, B, Pospisilova, S, Tam, C, Ysebaert, L, Nguyen-Khac, F, Oscier, D, Haferlach, C, Schoumans, J, Stevens-Kroef, M, Eldering, E, Stamatopoulos, K, Rosenquist, R, Strefford, JC, Mellink, C, Kater, AP, Leeksma, AC, Baliakas, P, Moysiadis, T, Puiggros, A, Plevova, K, van der Kevie-Kersemaekers, A-M, Posthuma, H, Rodriguez-Vicente, AE, Tran, AN, Barbany, G, Mansouri, L, Gunnarsson, R, Parker, H, van den Berg, E, Bellido, M, Davis, Z, Wall, M, Scarpelli, I, Osterborg, A, Hansson, L, Jarosova, M, Ghia, P, Poddighe, P, Espinet, B, Pospisilova, S, Tam, C, Ysebaert, L, Nguyen-Khac, F, Oscier, D, Haferlach, C, Schoumans, J, Stevens-Kroef, M, Eldering, E, Stamatopoulos, K, Rosenquist, R, Strefford, JC, Mellink, C, and Kater, AP

Abstract

Complex karyotype (CK) identified by chromosome-banding analysis (CBA) has shown prognostic value in chronic lymphocytic leukemia (CLL). Genomic arrays offer high-resolution genome-wide detection of copy-number alterations (CNAs) and could therefore be well equipped to detect the presence of a CK. Current knowledge on genomic arrays in CLL is based on outcomes of single center studies, in which different cutoffs for CNA calling were used. To further determine the clinical utility of genomic arrays for CNA assessment in CLL diagnostics, we retrospectively analyzed 2293 arrays from 13 diagnostic laboratories according to established standards. CNAs were found outside regions captured by CLL FISH probes in 34% of patients, and several of them including gains of 8q, deletions of 9p and 18p (p<0.01) were linked to poor outcome after correction for multiple testing. Patients (n=972) could be divided in three distinct prognostic subgroups based on the number of CNAs. Only high genomic complexity (high-GC), defined as ≥5 CNAs emerged as an independent adverse prognosticator on multivariable analysis for time to first treatment (Hazard ratio: 2.15, 95% CI: 1.36-3.41; p=0.001) and overall survival (Hazard ratio: 2.54, 95% CI: 1.54-4.17; p<0.001; n=528). Lowering the size cutoff to 1 Mb in 647 patients did not significantly improve risk assessment. Genomic arrays detected more chromosomal abnormalities and performed at least as well in terms of risk stratification compared to simultaneous chromosome banding analysis as determined in 122 patients. Our findings highlight genomic array as an accurate tool for CLL risk stratification.

Published

2021

4. Anatomical and biochemical studies of Spartium junceum infected by Xylella fastidiosa subsp. multiplex ST 87

Author

Falsini, S., primary, Tani, C., additional, Sambuco, G., additional, Papini, A., additional, Faraoni, P., additional, Campigli, S., additional, Ghelardini, L., additional, Bleve, G., additional, Rizzo, D., additional, Ricciolini, M., additional, Scarpelli, I., additional, Drosera, L., additional, Gnerucci, A., additional, Hand, F. Peduto, additional, Marchi, G., additional, and Schiff, S., additional

Published

2021

5. Genomic arrays identify high-risk chronic lymphocytic leukemia with genomic complexity: a multi-center study

Author

Clemens Mellink, Šárka Pospíšilová, Paolo Ghia, Constantine S. Tam, Mar Bellido, Marie Jarošová, Richard Rosenquist, Eva van den Berg, Jacqueline Schoumans, Claudia Haferlach, Lotta Hansson, Zadie Davis, Blanca Espinet, Anna Puiggros, David Oscier, Eric Eldering, Marian Stevens-Kroef, Jonathan C. Strefford, Panagiotis Baliakas, Karla Plevová, Ana E. Rodríguez-Vicente, Alexander C. Leeksma, Kostas Stamatopoulos, Rebeqa Gunnarsson, Pino J Poddighe, Anne Marie van der Kevie-Kersemaekers, Arnon P. Kater, Meaghan Wall, Florence Nguyen-Khac, Theodoros Moysiadis, Anders Österborg, Anh Nhi Tran, Larry Mansouri, Ilaria Scarpelli, Hidde Posthuma, Gisela Barbany, Loic Ysebaert, Helen Parker, Gilead Sciences, Kay Kendall Leukaemia Fund, Cancer Research UK, Wessex Medical Research, Swedish Research Council, Knut and Alice Wallenberg Foundation, Karolinska Institute, Graduate School, AII - Cancer immunology, CCA - Cancer biology and immunology, Human Genetics, Experimental Immunology, Clinical Haematology, Amsterdam Reproduction & Development (AR&D), Leeksma, A. C., Baliakas, P., Moysiadis, T., Puiggros, A., Plevova, K., van der Kevie-Kersemaekers, A. -M., Posthuma, H., Rodriguez-Vicente, A. E., Tran, A. N., Barbany, G., Mansouri, L., Gunnarsson, R., Parker, H., van den Berg, E., Bellido, M., Davis, Z., Wall, M., Scarpelli, I., Osterborg, A., Hansson, L., Jarosova, M., Ghia, P., Poddighe, P., Espinet, B., Pospisilova, S., Tam, C., Ysebaert, L., Nguyen-Khac, F., Oscier, D., Haferlach, C., Schoumans, J., Stevens-Kroef, M., Eldering, E., Stamatopoulos, K., Rosenquist, R., Strefford, J. C., Mellink, C., Kater, A. P., CCA - Cancer Treatment and quality of life, and Human genetics

Subjects

0301 basic medicine, Oncology, medicine.medical_specialty, GENES, Genomic complexity, Chronic lymphocytic leukemia, Cancer development and immune defence Radboud Institute for Molecular Life Sciences [Radboudumc 2], FEATURES, ABERRATIONS, Article, 03 medical and health sciences, 0302 clinical medicine, Internal medicine, hemic and lymphatic diseases, medicine, Humans, Chronic Lymphocytic Leukemia, Hematologi, Cytogenetics and Molecular Genetics, Lymphoproliferative Disorders, Chromosome Aberrations, Hematology, business.industry, Hazard ratio, Cytogenetics, Cancer, KARYOTYPE, Genomics, CHEMOTHERAPY, medicine.disease, Leukemia, Lymphocytic, Chronic, B-Cell, CYTOGENETICS, 3. Good health, Leukemia, 030104 developmental biology, 030220 oncology & carcinogenesis, Multiple comparisons problem, SURVIVAL, Medical genetics, business, CLL, HYBRIDIZATION, RESISTANCE

Abstract

Complex karyotype (CK) identified by chromosome-banding analysis (CBA) has shown prognostic value in chronic lymphocytic leukemia (CLL). Genomic arrays offer high-resolution genome-wide detection of copy-number alterations (CNAs) and could therefore be well equipped to detect the presence of a CK. Current knowledge on genomic arrays in CLL is based on outcomes of single center studies, in which different cutoffs for CNA calling were used. To further determine the clinical utility of genomic arrays for CNA assessment in CLL diagnostics, we retrospectively analyzed 2293 arrays from 13 diagnostic laboratories according to established standards. CNAs were found outside regions captured by CLL FISH probes in 34% of patients, and several of them including gains of 8q, deletions of 9p and 18p (p, This study was partly funded by an unrestricted contribution from Janssen Pharmaceuticals and from GILEAD Sciences SA. A.C.L. is supported by the Peters van der Laan foundation. J.C.S. was funded by Bloodwise (11052, 12036), the Kay Kendall Leukaemia Fund (873), Cancer Research UK (C34999/A18087, ECMC C24563/A15581), Wessex Medical Research and the Bournemouth Leukaemia Fund. K.P., M.J., and S.P. are supported by the project MHCR DRO no. 65269705, the research infrastructures NCMG LM2015091, and EATRIS-CZ LM2015064, and the project CEITEC2020 LQ1601, funded by MEYS CR. R.R. is supported by Swedish Cancer Society, the Swedish Research Council, the Knut and Alice Wallenberg Foundation, Karolinska Institutet, Karolinska University Hospital, and Radiumhemmets Forskningsfonder, Stockholm.

Published

2020

6. Refined cytogenetic IPSS-R evaluation by the use of SNP array in a cohort of 290 MDS patients.

Author

Scarpelli I, Stalder VB, Tsilimidos G, Rapakko K, Costanza M, Blum S, and Schoumans J

Subjects

Humans, Chromosome Banding, Chromosome Aberrations, Myelodysplastic Syndromes diagnosis, Myelodysplastic Syndromes genetics, Myelodysplastic Syndromes therapy

Abstract

Genetic testing plays a central role in myelodysplastic neoplasms (MDS) diagnosis, prognosis, and therapeutic decisions. The widely applied cytogenetic revised international prognostic scoring system (IPSS-R) was based on chromosome banding analysis (CBA). However, subsequently developed genetic methodologies, such as single nucleotide polymorphism (SNP) array, demonstrated to be a valid alternative test for MDS. SNP array is, in fact, able to detect the majority of MDS-associated cytogenetic aberrations, by providing further genomic information due to its higher resolution. In this study, 290 samples from individuals with a confirmed or suspected diagnosis of MDS were tested by both CBA and SNP array, in order to evaluate and compare their cytogenetic IPSS-R score in the largest MDS cohort reported so far. A concordant or better refined cytogenetic IPSS-R array-based score was obtained for 95% of cases (277). Therefore, this study confirms the effective applicability of SNP array toward the cytogenetic IPSS-R evaluation and consequently, toward the molecular international prognostic scoring system for MDS (IPSS-M) assessment, which ensures an improved MDS risk stratification refinement. Considering the advent of additional genetic technologies interrogating the whole genome with increased resolutions, counting cytogenetic abnormalities based on their size may result in a simplistic approach. On the contrary, assessing overall genomic complexity may provide additional crucial information. Independently of the technology used, genetic results should indeed aim at ensuring a highly refined stratification for MDS patients., (© 2023 The Authors. Genes, Chromosomes and Cancer published by Wiley Periodicals LLC.)

Published

2023

7. Description of an Institutional Cohort of Myeloid Neoplasms Carrying ETV6-Locus Deletions or ETV6 Rearrangements.

Author

Papadopoulou V, Schoumans J, Scarpelli I, and Blum S

Subjects

Humans, In Situ Hybridization, Fluorescence, Proto-Oncogene Proteins c-ets genetics, Translocation, Genetic, Myeloproliferative Disorders diagnosis, Myeloproliferative Disorders genetics, Leukemia, Myeloid, Acute genetics, Leukemia, Myeloid, Acute pathology, Hematologic Neoplasms genetics

Abstract

The gene encoding for transcription factor ETV6 presents recurrent lesions in hematologic neoplasms, most notably the ETV6-RUNX1 rearrangement in childhood B-ALL. The role of ETV6 for normal hematopoiesis is unknown, but loss of its function probably participates in oncogenic procedures. In myeloid neoplasms, ETV6-locus (12p13) deletions are rare but recurrent; ETV6 translocations are even rarer, but those reported seem to have phenotype-defining consequences. We herein describe the genetic and hematologic profile of myeloid neoplasms with ETV6 deletions (10 cases), or translocations (4 cases) diagnosed in the last 10 years in our institution. We find complex caryotype to be the most prevalent cytogenetics among patients with 12p13 deletion (8/10 patients), with most frequent coexisting anomalies being monosomy 7 or deletion 7q32 (5/10), monosomy 5 or del5q14-15 (5/10), and deletion/inversion of chromosome 20 (5/10), and most frequent point mutation being TP53 mutation (6/10 patients). Mechanisms of synergy of these lesions are unknown. We describe the entire genetic profile and hematologic phenotype of cases with extremely rare ETV6 translocations, confirming the biphenotypic T/myeloid nature of acute leukemia associated to ETV6-NCOA2 rearrangement, the association of t (1;12) (p36; p13) and of the CHIC2-ETV6 fusion with MDS/AML, and the association of the ETV6-ACSL6 rearrangement with myeloproliferative neoplasm with eosinophilia. Mutation of the intact ETV6 allele was present in two cases and seems to be subclonal to the chromosomal lesions. Decoding the mechanisms of disease related to ETV6 haploinsufficiency or rearrangements is important for the understanding of pathogenesis of myeloid neoplasms and fundamental research must be guided by observational cues., (© 2023 The Author(s). Published by S. Karger AG, Basel.)

Published

2023

8. Genomic arrays identify high-risk chronic lymphocytic leukemia with genomic complexity: a multi-center study.

Author

Leeksma AC, Baliakas P, Moysiadis T, Puiggros A, Plevova K, Van der Kevie-Kersemaekers AM, Posthuma H, Rodriguez-Vicente AE, Tran AN, Barbany G, Mansouri L, Gunnarsson R, Parker H, Van den Berg E, Bellido M, Davis Z, Wall M, Scarpelli I, Österborg A, Hansson L, Jarosova M, Ghia P, Poddighe P, Espinet B, Pospisilova S, Tam C, Ysebaert L, Nguyen-Khac F, Oscier D, Haferlach C, Schoumans J, Stevens-Kroef M, Eldering E, Stamatopoulos K, Rosenquist R, Strefford JC, Mellink C, and Kater AP

Subjects

Chromosome Aberrations, Genome, Human, Genomics, Humans, Retrospective Studies, Leukemia, Lymphocytic, Chronic, B-Cell diagnosis, Leukemia, Lymphocytic, Chronic, B-Cell genetics

Abstract

Complex karyotype (CK) identified by chromosome-banding analysis (CBA) has shown prognostic value in chronic lymphocytic leukemia (CLL). Genomic arrays offer high-resolution genome-wide detection of copy-number alterations (CNAs) and could therefore be well equipped to detect the presence of a CK. Current knowledge on genomic arrays in CLL is based on outcomes of single center studies, in which different cutoffs for CNA calling were used. To further determine the clinical utility of genomic arrays for CNA assessment in CLL diagnostics, we retrospectively analyzed 2293 arrays from 13 diagnostic laboratories according to established standards. CNAs were found outside regions captured by CLL FISH probes in 34% of patients, and several of them including gains of 8q, deletions of 9p and 18p (p<0.01) were linked to poor outcome after correction for multiple testing. Patients (n=972) could be divided in three distinct prognostic subgroups based on the number of CNAs. Only high genomic complexity (high-GC), defined as ≥5 CNAs emerged as an independent adverse prognosticator on multivariable analysis for time to first treatment (Hazard ratio: 2.15, 95% CI: 1.36-3.41; p=0.001) and overall survival (Hazard ratio: 2.54, 95% CI: 1.54-4.17; p<0.001; n=528). Lowering the size cutoff to 1 Mb in 647 patients did not significantly improve risk assessment. Genomic arrays detected more chromosomal abnormalities and performed at least as well in terms of risk stratification compared to simultaneous chromosome banding analysis as determined in 122 patients. Our findings highlight genomic array as an accurate tool for CLL risk stratification.

Published

2021

9. Characterization of myelodysplastic syndromes progressing to acute lymphoblastic leukemia.

Author

Martins F, Kruszewski M, Scarpelli I, Schoumans J, Spertini O, Lübbert M, and Blum S

Subjects

Aged, 80 and over, Female, Humans, Male, Middle Aged, Myelodysplastic Syndromes genetics, Precursor Cell Lymphoblastic Leukemia-Lymphoma genetics, Disease Progression, Myelodysplastic Syndromes blood, Myelodysplastic Syndromes diagnosis, Precursor Cell Lymphoblastic Leukemia-Lymphoma blood, Precursor Cell Lymphoblastic Leukemia-Lymphoma diagnosis

Abstract

Myelodysplastic syndromes (MDS) are a heterogeneous group of diseases, with a variable probability of transformation into acute leukemia, which is, in the vast majority of cases, of myeloid lineage. Nevertheless, rare cases of acute lymphoblastic leukemia in patients with previously diagnosed MDS have been reported. We describe a series of 3 cases of MDS/CMML marked with evolution to acute lymphoblastic leukemia (ALL) and provide a comprehensive review of the 49 cases documented in the literature so far. These sporadic events have only been published as single-case reports or small series to date. Such atypical cases emphasize the possibility of major phenotypic switches arising at the leukemic stem cell (LSC) and/or early progenitor levels, as a consequence of epigenetic and genomic events driving these changes in the bone marrow niche.

Published

2021

10. Detection of rare reciprocal RUNX1 rearrangements by next-generation sequencing in acute myeloid leukemia.

Author

Flach J, Shumilov E, Joncourt R, Porret N, Tchinda J, Legros M, Scarpelli I, Hewer E, Novak U, Schoumans J, Bacher U, and Pabst T

Subjects

Aged, Biomarkers, Tumor, Cell Line, Tumor, Chromosomes, Human, Pair 16, Chromosomes, Human, Pair 21, Genetic Association Studies, High-Throughput Nucleotide Sequencing, Humans, In Situ Hybridization, Fluorescence, Male, Oncogene Proteins, Fusion genetics, Repressor Proteins genetics, Core Binding Factor Alpha 2 Subunit genetics, Gene Rearrangement, Leukemia, Myeloid, Acute diagnosis, Leukemia, Myeloid, Acute genetics, Translocation, Genetic

Abstract

Reciprocal RUNX1 fusions are traditionally found in up to 10% of acute myeloid leukemia (AML) patients, usually associated with a translocation (8;21)(q22;q22) corresponding to the RUNX1-RUNX1T1 fusion gene. So far, alternative RUNX1 rearrangements have been reported only rarely in AML, and the few reports so far have focused on results based on cytogenetics, fluorescence in situ hybridization, and polymerase chain reaction. Acknowledging the inherent limitations of these diagnostic techniques, the true incidence of rare RUNX1 rearrangements may be underestimated. In this report, we present two cases of adult AML, in which we detected rare RUNX1 rearrangements not by conventional cytogenetics but rather by next-generation panel sequencing. These include t(16;21)(q24;q22)/RUNX1-CBFA2T3 and t(7;21)(p22;q22)/RUNX1-USP42, respectively. In both patients the AML was therapy-related and associated with additional structural and numerical alterations thereby conferring bad prognosis. This is in line with previous reports on rare RUNX1 fusions in AML and emphasizes the clinical importance of their detection. In summary, our report not only confirms the clinical utility of NGS for diagnostics of rare reciprocal rearrangements in AML in a real-life scenario but also sheds light on the variety and complexity within AML. It further emphasizes the need for collection of additional cases for deepening insights on their clinical meaning as well as their frequency., (© 2019 Wiley Periodicals, Inc.)

Published

2020