Your search keyword '"María, Serrano Albal"' showing total 4 results

1. Preimplantation Genetic Testing for Aneuploidy Improves Live Birth Rates with In Vitro Produced Bovine Embryos: A Blind Retrospective Study

Author

Giuseppe Silvestri, Carla Canedo-Ribeiro, María Serrano-Albal, Remi Labrecque, Patrick Blondin, Steven G. Larmer, Gabriele Marras, Desmond A.R. Tutt, Alan H. Handyside, Marta Farré, Kevin D. Sinclair, and Darren K. Griffin

Subjects

cattle, breeding, single nucleotide polymorphism (SNP), mosaicism, Cytology, QH573-671

Abstract

Approximately one million in vitro produced (IVP) cattle embryos are transferred worldwide each year as a way to improve the rates of genetic gain. The most advanced programmes also apply genomic selection at the embryonic stage by SNP genotyping and the calculation of genomic estimated breeding values (GEBVs). However, a high proportion of cattle embryos fail to establish a pregnancy. Here, we demonstrate that further interrogation of the SNP data collected for GEBVs can effectively remove aneuploid embryos from the pool, improving live births per embryo transfer (ET). Using three preimplantation genetic testing for aneuploidy (PGT-A) approaches, we assessed 1713 cattle blastocysts in a blind, retrospective analysis. Our findings indicate aneuploid embryos have a 5.8% chance of establishing a pregnancy and a 5.0% chance of given rise to a live birth. This compares to 59.6% and 46.7% for euploid embryos (p < 0.0001). PGT-A improved overall pregnancy and live birth rates by 7.5% and 5.8%, respectively (p < 0.0001). More detailed analyses revealed donor, chromosome, stage, grade, and sex-specific rates of error. Notably, we discovered a significantly higher incidence of aneuploidy in XY embryos and, as in humans, detected a preponderance of maternal meiosis I errors. Our data strongly support the use of PGT-A in cattle IVP programmes.

Published

2021

2. Supplementation of porcine

Author

María, Serrano Albal, Giuseppe, Silvestri, Lucas G, Kiazim, Lucy M, Vining, Louisa J, Zak, Grant A, Walling, Alexandra M, Haigh, Simon C, Harvey, Katie E, Harvey, and Darren K, Griffin

Subjects

Swine, Sus scrofa, Dietary Supplements, Oocytes, Animals, Female, Fibroblast Growth Factor 2, Fertilization in Vitro, Insulin-Like Growth Factor I, Leukemia Inhibitory Factor, In Vitro Oocyte Maturation Techniques

Abstract

In porcine

Published

2022

3. Analysis of bovine blastocysts indicates ovarian stimulation does not induce chromosome errors, nor discordance between inner-cell mass and trophectoderm lineages

Author

Giuseppe Silvestri, R.J. Simmons, G. Guven-Ates, Carla Canedo-Ribeiro, Rémi Labrecque, Alan H. Handyside, Patrick Blondin, Darren K. Griffin, Wing Yee Kwong, Kevin D. Sinclair, Desmond A. R. Tutt, and María Serrano-Albal

Subjects

medicine.medical_specialty, Biopsy, Theriogenology, Cattle Diseases, Aneuploidy, Aneuploidy, Cattle, Ovarian stimulation, In vitro culture, Blastocyst, Biopsy, Biology, Chromosomes, Article, In vitro culture, Andrology, 03 medical and health sciences, 0302 clinical medicine, Ovulation Induction, Food Animals, Meiosis, Pregnancy, Follicular phase, medicine, Animals, Inner cell mass, Blastocyst, Small Animals, Preimplantation Diagnosis, 030219 obstetrics & reproductive medicine, Equine, 0402 animal and dairy science, Embryo, 04 agricultural and veterinary sciences, Abortion, Veterinary, medicine.disease, Oocyte, 040201 dairy & animal science, medicine.anatomical_structure, embryonic structures, Cattle, Female, Animal Science and Zoology, Ovarian stimulation

Abstract

Contemporary systems for oocyte retrieval and culture of both cattle and human embryos are suboptimal with respect to pregnancy outcomes following transfer. In humans, chromosome abnormalities are the leading cause of early pregnancy loss in assisted reproduction. Consequently, pre-implantation genetic testing for aneuploidy (PGT-A) is widespread and there is considerable interest in its application to identify suitable cattle IVP embryos for transfer. Here we report on the nature and extent of chromosomal abnormalities following transvaginal follicular aspiration (OPU) and IVP in cattle. Nine sexually mature Holstein heifers underwent nine sequential cycles of OPU-IVP (six non-stimulated and three stimulated cycles), generating 459 blastocysts from 783 oocytes. We adopted a SNP-array approach normally employed in genomic evaluations but reanalysed (Turner et al., 2019; Theriogenology125: 249) to detect levels of meiotic aneuploidy. Specifically, we asked whether ovarian stimulation increased the level of aneuploidy in either trophectoderm (TE) or inner-cell mass (ICM) lineages of blastocysts generated from OPU-IVP cycles. The proportion of Day 8 blastocysts of inseminated was greater (P, Highlights • In vitro oocyte maturation rather than ovarian stimulation contributes to aneuploidy. • Trophectoderm biopsies accurately represent the ploidy status of the overall embryo. • SNP-array analyses facilitate simultaneous genomic evaluation and aneuploidy screening. • Incidence of aneuploidy declines in developmentally more advanced embryos. • High degree of variability in the incidence of aneuploidy exists between donors.

Published

2021

4. Preimplantation Genetic Testing for Aneuploidy Improves Live Birth Rates with In Vitro Produced Bovine Embryos: A Blind Retrospective Study

Author

Desmond A. R. Tutt, Darren K. Griffin, Steven G. Larmer, Marta Farré, María Serrano-Albal, Carla Canedo-Ribeiro, Rémi Labrecque, Kevin D. Sinclair, Giuseppe Silvestri, Alan H. Handyside, Patrick Blondin, and Gabriele Marras

Subjects

QH301-705.5, Aneuploidy, Fertilization in Vitro, Biology, Article, Andrology, QH301, single nucleotide polymorphism (SNP), Pregnancy, medicine, Animals, Genetic Testing, Biology (General), Birth Rate, QH426, Preimplantation Diagnosis, Genetic testing, Retrospective Studies, medicine.diagnostic_test, Embryo, General Medicine, medicine.disease, Embryo transfer, SNP genotyping, Blastocyst, mosaicism, Genetic gain, cattle, breeding, embryonic structures, Female, Live birth, Live Birth

Abstract

Approximately one million in vitro produced (IVP) cattle embryos are transferred worldwide each year as a way to improve the rates of genetic gain. The most advanced programmes also apply genomic selection at the embryonic stage by SNP genotyping and the calculation of genomic estimated breeding values (GEBVs). However, a high proportion of cattle embryos fail to establish a pregnancy. Here, we demonstrate that further interrogation of the SNP data collected for GEBVs can effectively remove aneuploid embryos from the pool, improving live births per embryo transfer (ET). Using three preimplantation genetic testing for aneuploidy (PGT-A) approaches, we assessed 1713 cattle blastocysts in a blind, retrospective analysis. Our findings indicate aneuploid embryos have a 5.8% chance of establishing a pregnancy and a 5.0% chance of given rise to a live birth. This compares to 59.6% and 46.7% for euploid embryos (p &lt, 0.0001). PGT-A improved overall pregnancy and live birth rates by 7.5% and 5.8%, respectively (p &lt, 0.0001). More detailed analyses revealed donor, chromosome, stage, grade, and sex-specific rates of error. Notably, we discovered a significantly higher incidence of aneuploidy in XY embryos and, as in humans, detected a preponderance of maternal meiosis I errors. Our data strongly support the use of PGT-A in cattle IVP programmes.

Published

2021