Your search keyword '"Maria Giulia Minasi"' showing total 2 results

1. Cross-Validation of Next-Generation Sequencing Technologies for Diagnosis of Chromosomal Mosaicism and Segmental Aneuploidies in Preimplantation Embryos Model

Author

Anil Biricik, Ettore Cotroneo, Maria Giulia Minasi, Pier Francesco Greco, Sara Bono, Matteo Surdo, Federica Lecciso, Mariateresa Sessa, Francesco Fiorentino, Francesca Spinella, and Ermanno Greco

Subjects

next generation sequencing, preimplantation genetic testing, chromosomal mosaicism, mosaic embryos, segmental aneuploidies, Science

Abstract

Detection of mosaic embryos is crucial to offer more possibilities of success to women undergoing in vitro fertilization (IVF) treatment. Next Generation Sequencing (NGS)-based preimplantation genetic testing are increasingly used for this purpose since their higher capability to detect chromosomal mosaicism in human embryos. In the recent years, new NGS systems were released, however their performance for chromosomal mosaicism are variable. We performed a cross-validation analysis of two different NGS platforms in order to assess the feasibility of these techniques and provide standard parameters for the detection of such aneuploidies. The study evaluated the performance of MiseqTM Veriseq (Illumina, San Diego, CA, USA) and Ion Torrent Personal Genome Machine PGMTM ReproSeq (Thermo Fisher, Waltham, MA, USA) for the detection of whole and segmental mosaic aneuploidies. Reconstructed samples with known percentage of mosaicism were analyzed with both platforms and sensitivity and specificity were determined. Both platforms had high level of specificity and sensitivity with a Limit Of Detection (LOD) at ≥30% of mosaicism and a showed a ≥5.0 Mb resolution for segmental abnormalities. Our findings demonstrated that NGS methodologies are capable of accurately detecting chromosomal mosaicism and segmental aneuploidies. The knowledge of LOD for each NGS platform has the potential to reduce false-negative and false-positive diagnoses when applied to detect chromosomal mosaicism in a clinical setting.

Published

2021

2. Cross-Validation of Next-Generation Sequencing Technologies for Diagnosis of Chromosomal Mosaicism and Segmental Aneuploidies in Preimplantation Embryos Model

Author

Matteo Surdo, Pier Francesco Greco, Francesca Spinella, Sara Bono, Federica Lecciso, Ettore Cotroneo, Francesco Fiorentino, Anil Biricik, Ermanno Greco, Maria Giulia Minasi, and Mariateresa Sessa

Subjects

0301 basic medicine, chromosomal mosaicism, Preimplantation Embryos, Computational biology, Biology, segmental aneuploidies, General Biochemistry, Genetics and Molecular Biology, Cross-validation, DNA sequencing, Article, 03 medical and health sciences, 0302 clinical medicine, medicine, lcsh:Science, Ecology, Evolution, Behavior and Systematics, Genetic testing, next generation sequencing, 030219 obstetrics & reproductive medicine, medicine.diagnostic_test, Paleontology, mosaic embryos, Ion semiconductor sequencing, 030104 developmental biology, Space and Planetary Science, lcsh:Q, preimplantation genetic testing, Personal genomics

Abstract

Detection of mosaic embryos is crucial to offer more possibilities of success to women undergoing in vitro fertilization (IVF) treatment. Next Generation Sequencing (NGS)-based preimplantation genetic testing are increasingly used for this purpose since their higher capability to detect chromosomal mosaicism in human embryos. In the recent years, new NGS systems were released, however their performance for chromosomal mosaicism are variable. We performed a cross-validation analysis of two different NGS platforms in order to assess the feasibility of these techniques and provide standard parameters for the detection of such aneuploidies. The study evaluated the performance of MiseqTM Veriseq (Illumina, San Diego, CA, USA) and Ion Torrent Personal Genome Machine PGMTM ReproSeq (Thermo Fisher, Waltham, MA, USA) for the detection of whole and segmental mosaic aneuploidies. Reconstructed samples with known percentage of mosaicism were analyzed with both platforms and sensitivity and specificity were determined. Both platforms had high level of specificity and sensitivity with a Limit Of Detection (LOD) at ≥30% of mosaicism and a showed a ≥5.0 Mb resolution for segmental abnormalities. Our findings demonstrated that NGS methodologies are capable of accurately detecting chromosomal mosaicism and segmental aneuploidies. The knowledge of LOD for each NGS platform has the potential to reduce false-negative and false-positive diagnoses when applied to detect chromosomal mosaicism in a clinical setting.

Published

2021