Cryopreservation of Day 8 equine embryos after blastocyst micromanipulation and vitrification.
Abstract: Pregnancy rates after cryopreservation of large equine blastocyst stage embryos have remained lower than other domesticated livestock species. It is generally accepted that the embryonic capsule is the primary barrier to cryoprotectant entry into the embryo proper and techniques need to be developed to circumvent this obstacle. Therefore, the objective of this study was to develop an efficient Day 8 equine embryo cryopreservation protocol through blastocyst micromanipulation and vitrification. Grade 1 and 2 embryos recovered from mares (n = 15) 8 days after ovulation were used in these experiments. In experiment 1, the effect of either one- or two-puncture treatments before aspiration of blastocoel fluid and exposure to vitrification solutions was evaluated. No difference was detected in mean embryo volume across treatment groups after exposure to vitrification solutions or after 1, 24, 48, and 72 hours of culture. Percent of embryos re-expanding at 24 hours and percent of embryos showing diameter increase at 48 and 72 hours during in vitro culture were 100%, 83%, and 75% compared with 93%, 67%, and 50% for one- and two-puncture treatment groups, respectively. Capsule loss was 25% for one-puncture and 50% for two-puncture treatment groups. In experiment 2, no difference was detected in mean embryo volume for indirect introduction (aspiration of blastocoel fluid + equilibration) and direct introduction (injection of cryoprotectant into blastocoel cavity) treatment groups, after exposure to dilution solution or to culture medium. There was no difference in mean embryo volume for the indirect and direct introduction treatment groups after 1, 24, 48, and 72 hours of culture. Percent of embryos re-expanding at 24 hours and percent of embryos showing diameter increases at 48 and 72 hours during in vitro culture were 100%, 76.9%, and 69.2%, respectively, for both treatment groups. Those embryos subjected to the direct introduction treatment had a higher (P = 0.05) percent capsule loss (70%) compared with the indirect introduction treatment group (31%). The pregnancy rate after transfer of vitrified expanded Grade 1 blastocysts using the indirect introduction method was 83% (5/6). Three pregnancies were allowed to continue to term and resulted in the birth of three healthy foals. The vitrification protocol used in this study has the potential to become a key tool for the successful cryopreservation of equine expanded blastocysts.
Copyright © 2016 Elsevier Inc. All rights reserved.
Publication Date: 2015-11-06 PubMed ID: 26639642DOI: 10.1016/j.theriogenology.2015.10.039Google Scholar: Lookup
The Equine Research Bank provides access to a large database of publicly available scientific literature. Inclusion in the Research Bank does not imply endorsement of study methods or findings by Mad Barn.
- Controlled Clinical Trial
- Journal Article
- Research Support
- Non-U.S. Gov't
Summary
This research summary has been generated with artificial intelligence and may contain errors and omissions. Refer to the original study to confirm details provided. Submit correction.
This research focuses on improving the success rate of cryopreservation in equine embryos. The study develops an effective cryopreservation protocol for Day 8 equine embryos using micromanipulation and vitrification techniques. The experiment results indicate that this newly developed protocol could become a key tool in equine embryo cryopreservation.
About the Study
- The research aimed to develop an effective Day 8 equine embryo cryopreservation protocol. The team intuited that the embryonic capsule could be the main obstacle preventing successful cryopreservation in equine blastocysts.
- To achieve this goal, two experiments were carried out using Grade 1 and 2 embryos collected from 15 different mares, 8 days post-ovulation.
- The first experiment involved a one- or two-puncture treatment on the blastocoel fluid before exposure to vitrification solutions. The two puncture treatment showed a slightly higher capsule loss, while the one puncture method had a slightly better performance in terms of embryo re-expansion.
- The second experiment compared two different cryoprotection introduction methods: aspirating the blastocoel fluid while equilibrating (indirect introduction) and injecting the cryoprotectant straight into the blastocoel cavity (direct introduction).
Results of the Study
- There was no notable difference in embryo volume for both treatment groups, across all time of culture (1, 24, 48, and 72 hours). The rate of embryo expansion at 24 hours was the same for both direct and indirect introduction methods, and so was the diameter increase rate at 48 and 72 hours.
- However, the direct introduction method experienced a significantly higher rate of capsule loss at 70%, whereas the indirect introduction method reported 31% capsule loss.
- Lastly, the study also revealed that transferring vitrified expanded Grade 1 blastocysts using the indirect introduction method yielded an 83% pregnancy rate (5/6). Of these, three pregnancies were allowed to proceed to term, each resulting in the birth of a healthy foal.
Conclusion
- The study concludes that the vitrification protocol developed in this study holds significant potential to become an integral tool for successfully cryopreserving equine expanded blastocysts.
- The research suggests a preference for the one-puncture method and the indirect introduction method due to their comparatively higher success rate and the lower chance of capsule loss.
Cite This Article
APA
Diaz F, Bondiolli K, Paccamonti D, Gentry GT.
(2015).
Cryopreservation of Day 8 equine embryos after blastocyst micromanipulation and vitrification.
Theriogenology, 85(5), 894-903.
https://doi.org/10.1016/j.theriogenology.2015.10.039 Publication
Researcher Affiliations
- School of Animal Sciences, Louisiana State University Agricultural Center, Baton Rouge, Louisiana, USA.
- School of Animal Sciences, Louisiana State University Agricultural Center, Baton Rouge, Louisiana, USA.
- Department of Veterinary Clinical Sciences, Louisiana State University School of Veterinary Medicine, Baton Rouge, Louisiana, USA.
- Bob R. Jones-Idlewild Research Station, Louisiana State University Agricultural Center, Clinton, Louisiana, USA. Electronic address: ggentry@agcenter.lsu.edu.
MeSH Terms
- Animals
- Blastocyst / cytology
- Blastocyst / physiology
- Cell Size
- Cell Survival
- Cells, Cultured
- Cryopreservation
- Embryo Culture Techniques / veterinary
- Embryonic Development / physiology
- Female
- Horses / embryology
- Horses / physiology
- Micromanipulation / methods
- Micromanipulation / veterinary
- Pregnancy
- Pregnancy Rate
- Vitrification
Citations
This article has been cited 3 times.- de Oliveira Fernandes G, de Faria OAC, Sifuentes DN, Franco MM, Dode MAN. Electrospray mass spectrometry analysis of blastocoel fluid as a potential tool for bovine embryo selection.. J Assist Reprod Genet 2021 Aug;38(8):2209-2217.
- Gutierrez-Castillo E, Ming H, Foster B, Gatenby L, Mak CK, Pinto C, Bondioli K, Jiang Z. Effect of vitrification on global gene expression dynamics of bovine elongating embryos.. Reprod Fertil Dev 2021 Mar;33(5):338-348.
- Lutz JC, Johnson SL, Duprey KJ, Taylor PJ, Vivanco-Mackie HW, Ponce-Salazar D, Miguel-Gonzales M, Youngs CR. Birth of a Live Cria After Transfer of a Vitrified-Warmed Alpaca (Vicugna pacos) Preimplantation Embryo.. Front Vet Sci 2020;7:581877.
Use Nutrition Calculator
Check if your horse's diet meets their nutrition requirements with our easy-to-use tool Check your horse's diet with our easy-to-use tool
Talk to a Nutritionist
Discuss your horse's feeding plan with our experts over a free phone consultation Discuss your horse's diet over a phone consultation
Submit Diet Evaluation
Get a customized feeding plan for your horse formulated by our equine nutritionists Get a custom feeding plan formulated by our nutritionists
