A 3D-Printed Large Holding Capacity Device for Minimum Volume Cooling Vitrification of Embryos in Prolific Livestock Species

Abstract: Although many devices have been developed to reduce sample volume, with an explosion of methods appearing in the literature over the last decade, commercially available devices with simultaneous vitrification of a larger number of embryos are scarce, with the apparent gap for their use in prolific livestock species. In this study, we investigated the effectiveness of a new three-dimensional (3D)-printed device that combines minimum volume cooling vitrification with simultaneous vitrification of a larger number… Show more

“…Such a finding can be explained by the fact that the viability of murine oocytes that had been subjected to vitrification under the conditions of a very slow cooling rate and high warming rate increased to a large extent, as compared to the viability of oocytes undergoing vitrification characterized by a combination of highly rapid kinetics of cooling and subsequent slow kinetics of warming [86,87,100,101]. Nevertheless, such a negative correlation has not been confirmed in the investigations aimed at the vitrification of oocytes and embryos in selected livestock species (rabbits, pigs and cattle), which exhibit a particular oversensitivity to cooling rates related to cryopreservation procedures [92,99,101,102].…”

Creating Ex Situ Protected Bioreservoirs as a Powerful Strategy for the Reproductive Biotechnology-Mediated Rescue of Threatened Polish Livestock Breeds

“…Such a finding can be explained by the fact that the viability of murine oocytes that had been subjected to vitrification under the conditions of a very slow cooling rate and high warming rate increased to a large extent, as compared to the viability of oocytes undergoing vitrification characterized by a combination of highly rapid kinetics of cooling and subsequent slow kinetics of warming [86,87,100,101]. Nevertheless, such a negative correlation has not been confirmed in the investigations aimed at the vitrification of oocytes and embryos in selected livestock species (rabbits, pigs and cattle), which exhibit a particular oversensitivity to cooling rates related to cryopreservation procedures [92,99,101,102].…”

Creating Ex Situ Protected Bioreservoirs as a Powerful Strategy for the Reproductive Biotechnology-Mediated Rescue of Threatened Polish Livestock Breeds