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Reproduction, Fertility and Development Reproduction, Fertility and Development Society
Vertebrate reproductive science and technology
RESEARCH ARTICLE

51 In silico-designed vitrification protocols based on in vitro-produced bovine embryos’ permeability at different cryoprotectants, temperatures, and lengths of in vitro culture

J. Díaz-Muñoz A , I. Martínez-Rodero A , A. Higgins B , T. Mogas A and T. García-Martínez A
+ Author Affiliations
- Author Affiliations

A Department of Animal Medicine and Surgery, Autonomous University of Barcelona, Cerdanyola del Vallès, Barcelona, Spain

B School of Chemical, Biological and Environmental Engineering, Oregon State University, Corvallis, Oregon, USA

Reproduction, Fertility and Development 35(2) 151-151 https://doi.org/10.1071/RDv35n2Ab51
Published: 5 December 2022

© 2023 The Author(s) (or their employer(s)). Published by CSIRO Publishing on behalf of the IETS

Cryopreservation of in vitro-produced (IVP) embryos has become an important part of the bovine embryo-transfer industry. While vitrification seems more efficient for IVP embryos, there is not yet a standardised protocol that results in pregnancy rates comparable to those obtained when fresh embryos are transferred, especially when blastocysts are vitrified after eight days (D8) of culture instead of seven days (D7). Current vitrification protocols greatly differ in the time and temperature of exposure to the equilibration solution (ES). Moreover, they have rarely considered the osmotic properties of bovine embryos. Knowledge of the permeability parameters of bovine blastocysts to water and cryoprotectants (CPA) will allow using mathematical modelling to optimise vitrification procedures. This study aimed to determine the permeability to water (Lp) and solutes (Ps) of bovine IVP blastocysts in the presence of ethylene glycol (EG) and dimethyl sulfoxide (Me2SO) at different temperatures (25°C; 38.5°C) and different culture lengths (D7; D8). D7 (n = 46) or D8 (n = 41) blastocysts at the expanded stage were placed in a 25-μL drop of holding medium (HM: TCM199-Hepes with 20% (v/v) FBS) in a dish covered with mineral oil and held with a holding pipette on an inverted microscope. After blastocysts collapse with an intracytoplasmic sperm injection pipette, they were covered with a larger inner diameter pipette and introduced in a 25-µL drop of HM with 1.55 M EG or 1.55 M Me2SO at 25°C or 38.5°C (5 replicates). The volumetric response of the blastocysts was recorded every 5 s during 10 min with a time-lapse recorder. The hydraulic conductivity (Lp) and CPA permeability (Ps) of blastocyst cell membranes were determined and then fitted to a two-parameter transport formalism to obtain four in silico predictions of the blastocyst osmotic behaviour when exposed to the ES (7.5% Me2SO and 7.5% EG in HM) at each temperature and in vitro culture length. After checking normality, data were compared by ANOVA. No differences were found when comparing Lp values among groups (P > 0.05). However, Ps values were different when comparing CPAs, being higher (P = 0.03) for EG than for Me2SO; temperatures, being higher (P = 0.01) at 38.5°C than at 25°C; and in vitro culture lengths, being higher (P = 0.04) for D8 than for D7 blastocysts. In silico predictions indicated that D7 blastocysts would need 8 min in ES at 25°C and 3 min 50 s at 38.5°C to recover their initial volume. D8 blastocysts would swell back to their initial volume after 4 min exposure to ES at 25°C, again, slower than at 38.5°C, when they would only need 3 min. These results are promising not only to improve current D7 vitrification protocols but also for D8 embryos to achieve similar results to when D7 embryos are cryopreserved. Future experiments are guaranteed to validate in silico-designed CPA loading steps for the optimisation of vitrification/warming at each temperature and length of culture.

This research was supported by the Spanish Ministry of Science and Innovation (Project PID2020-116531RB-I00).