Time-lapse KIDScoreD5 for prediction of embryo pregnancy potential in fresh and vitrified-warmed single-embryo transfers.

Research Question: Can KIDScoreD5 predict which blastocysts have the highest potential for achieving pregnancy?

Design: A retrospective cohort study of 670 single fresh or frozen (FET) embryo transfer cycles was conducted between May 2019 and June 2021 at the Ottawa Fertility Centre, Canada. Blastocysts obtained from stimulated eligible cycles and cultured in a time-lapse incubator were selected for transfer or cryopreservation based on Gardner morphological scoring. Implantation and viable pregnancy rates were analysed retrospectively using KIDScoreD5 and Gardner scores associated with the transferred embryos.

Can peri-ovulatory putrescine supplementation improve egg quality in older infertile women?

The aging-related decline in fertility is an increasingly pressing medical and economic issue in modern society where women are delaying family building. Increasingly sophisticated, costly, and often increasingly invasive, assisted reproductive clinical protocols and laboratory technologies (ART) have helped many older women achieve their reproductive goals. Current ART procedures have not been able to address the fundamental problem of oocyte aging, the increased rate of egg aneuploidy, and the decline of developmental potential of the eggs.

Mouse Oocytes Acquire Mechanisms That Permit Independent Cell Volume Regulation at the End of Oogenesis.

Mouse embryos employ a unique mechanism of cell volume regulation in which glycine is imported via the GLYT1 transporter to regulate intracellular osmotic pressure. Independent cell volume regulation normally becomes active in the oocyte after ovulation is triggered. This involves two steps: the first is the release of the strong adhesion between the oocyte and zona pellucida (ZP) while the second is the activation of GLYT1.

Cell volume regulation in oocytes and early embryos: connecting physiology to successful culture media.

Background: Preimplantation embryos are particularly susceptible to in vitro developmental blocks. These could be alleviated by lowering culture medium osmolarity. Because mammalian cells regulate their volumes by adjusting intracellular osmotic pressure, cell volume regulation could be critical to early embryos.

Cell volume regulation is initiated in mouse oocytes after ovulation.

Fertilized mouse eggs regulate their size principally by accumulating glycine as an intracellular osmolyte using the GLYT1 (SLC6A9) transporter, a mechanism of cell volume homeostasis apparently unique to early embryos before the morula stage. However, nothing was known of cell volume regulation in oocytes before fertilization. We show here that GLYT1 is quiescent in mouse germinal-vesicle-stage oocytes but becomes fully activated within hours after ovulation is triggered.

Mechanisms regulating intracellular pH are activated during growth of the mouse oocyte coincident with acquisition of meiotic competence.

Oocytes grow within ovarian follicles, and only gain the ability to complete meiosis when they are nearly fully grown. We have found that both of the major types of intracellular pH regulatory mechanisms in the mammal-the Na+/H+ and HCO3-/Cl- exchangers-were essentially inactive in mouse oocytes over most of the course of their growth. However, as oocytes approached full size, Na+/H+ and HCO3-/Cl- exchangers became simultaneously active, and, at the same time, the intracellular pH of isolated oocytes increased sharply by about 0.