A Casanovas scite author profile

Objective: To analyze the effect of single-and double-stranded sperm DNA fragmentation (ssSDF and dsSDF) on human embryo kinetics monitored under a time-lapse system. Design: Observational, double blind, prospective cohort study. Setting: University spin-off and private center. Patient(s): One hundred ninety-six embryos from 43 infertile couples were included prospectively. Intervention(s): None. Main Outcome Measure(s): SsSDF and dsSDF were analyzed in the same semen sample used for intracytoplasmic sperm injection. Embryo kinetics was then monitored using time-lapse technology, and the timing of each embryo division was obtained. Result(s): When comparing embryos obtained from semen samples with low dsSDF and high dsSDF, splitting data using a statistically significant delay in high dsSDF was observed in second polar body extrusion, T4, T8, morula, and starting blastocyst and embryo implantation rates were impaired. Embryo kinetics and implantation rates are not significantly affected when high values of ssSDF are present. Different patterns of delay in embryo kinetics were observed for these different types of DNA damage: dsSDF caused a delay along all stages of embryo development; however, its major effect was observed at the second polar body extrusion and morula stages, coinciding with embryo DNA damage checkpoint activation as described before; ssSDF had its major effect at the pronucleus stage, but embryo kinetics was then restored at all following stages. The results show that dsSDF could be the main type of DNA damage that affects embryo development in intracytoplasmic sperm injection cycles, probably due to motility-based sperm selection in this assisted reproduction procedure. Conclusion(s): Double-stranded sperm DNA damage caused a delay in embryo development and impaired implantation, while singlestranded DNA damage did not significantly affect embryo kinetics and implantation. (Fertil Steril Ò 2019;111:699-707. Ó2018 by American Society for Reproductive Medicine.) El resumen está disponible en Español al final del artículo.

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Processing of semen can result in increased sperm DNA fragmentation

Toro¹,

Fernández²,

Colomar³

et al. 2009

Fertility and Sterility

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Cytogenetic analyses of human oocytes provide new data on non-disjunction mechanisms and the origin of trisomy 16

et al. 2009

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In the present study, we report the finding of a considerable frequency of aneuploidy in oocytes from young donors, with the frequency of PSSC being higher than the frequency of whole-chromosome non-disjunction. In addition, we report vulnerable patterns of meiotic recombination in chromosome 16 that may be at risk of leading to a non-disjunction event. This gives new data on the susceptibility of the control population to conceive a trisomic 16 embryo.

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Effect of follicle diameter on oocyte apoptosis, embryo development and chromosomal ploidy in prepubertal goats

et al. 2010

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Results of the study of aneuploidy rate in oocytes from an egg donor programme by first and second polar body FISH analysis

Velilla¹,

Colomar²,

Fernández³

et al. 2009

Reproductive BioMedicine Online

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A Casanovas

Double-stranded sperm DNA damage is a cause of delay in embryo development and can impair implantation rates

Processing of semen can result in increased sperm DNA fragmentation

Cytogenetic analyses of human oocytes provide new data on non-disjunction mechanisms and the origin of trisomy 16

Effect of follicle diameter on oocyte apoptosis, embryo development and chromosomal ploidy in prepubertal goats

Results of the study of aneuploidy rate in oocytes from an egg donor programme by first and second polar body FISH analysis

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