Successful embryo culture is influenced by culture methods and conditions, which have an impact on cytoplasmic factors and the ability of embryo development. This study aims to compare the effectiveness of two culture mediums, M16 and CZB, in supporting the development of DDY strain mice embryos in vitro. The research method used was an experimental study consisting of animal husbandry, medium culture preparation, superovulation, collection, and in vitro embryo culture. Data analysis in this study used descriptive statistical tests to measure embryo development in each culture medium, M16 and CZB, in observations for 96 hours with a 24-hour interval using an inverted microscope. The results showed that embryos in the CZB medium experienced 50% development of the expanded blastocyte stage after 96 hours of culture with 50% degenerative. In the M16 culture medium, 0% of embryos experienced embryonic stage development after 96 hours of culture and 100% were degenerative. This study has concluded that the development of embryos in vitro in the M16 culture medium was not better than CZB, this was evidenced by the percentage at the expanded blastocyte development stage.

In Vitro Embryo culture; Culture medium; M16; CZB

Ferré, L. B., Kjelland, M. E., Strøbech, L. B., Hyttel, P., Mermillod, P., & Ross, P. J. (2020). Review: Recent advances in bovine in vitro embryo production: reproductive biotechnology history and methods. Animal, 14(5), 991–1004. doi:10.1017/S1751731119002775

Chansel-Debordeaux, L., Carles, M., Moreau, J., Depuydt, C., Gallo, S., Genvrin, E., Léandri, R., Gatimel, N. (2023). How and when to measure pH in IVF culture media: validation of a portable blood gas analyzer in two IVF culture dishes for time lapse and conventional incubators. J Assist Reprod Genet., 40(7), 1677-1687. doi: 10.1007/s10815-023-02828-6. Epub 2023 Jun 14. PMID: 37314570; PMCID: PMC10352227.

Dubey, A. K., Lavanya, L., Sadananda, D., Gouthami, K., Elfansu, K., Singh, A., Singh, A. and Singh, A. K. (2021). Inferences of Carbon Dioxide in Present-Day Cell Culture Systems: An Unacknowledged Problem and Perspectives. Austin Therapeutics, 6(1), 1033. DOI:10.26420/AUSTINTHERAPEUTICS.2021.1033

Gualtieri, R., De Gregorio, V., Candela, A., Travaglione, A., Genovese, V., Barbato, V., Talevi, R. (2024). In Vitro Culture of Mammalian Embryos: Is There Room for Improvement? Cells. 13(12), 996. https://doi.org/10.3390/cells13120996

Li, M., Han, J., Yang, N., Li, X. and Wu, X. (2024). Transcriptome profiling reveals superovulation with the gonadotropin-releasing hormone agonist trigger impaired embryo implantation in mice. Front. Endocrinol, 15, 1354435. doi: 10.3389/fendo.2024.1354435

Mafruchati, M., Makuwia, J. (2023). Analysis of mice (Mus musculus L.) and hamster embryo development using culture and vitrification medium: Systematic review. Open Vet J., 13(2), 143-149. doi: 10.5455/OVJ.2023.v13.i2.2. Epub 2023 Feb 4. PMID: 37073251; PMCID: PMC10105789.

Mastromonaco, A. F. (2024). A quarter century of CANDES: The state of embryo technologies in companion animals, non-domestic and endangered species. Theriogenology Wild, Volume 4, 100069. ISSN 2773-093X, https://doi.org/10.1016/j.therwi.2023.100069.

Moustakli, E., Zikopoulos, A., Skentou, C., Bouba, I., Dafopoulos, K., Georgiou, I. (2024). Evolution of Minimally Invasive and Non-Invasive Preimplantation Genetic Testing: An Overview. Journal of Clinical Medicine, 13(8): 2160. https://doi.org/10.3390/jcm13082160

Sciorio, R. & Rinaudo, P. (2023). Culture conditions in the IVF laboratory: state of the ART and possible new directions. Journal of Assisted Reproduction and Genetics. 40. 1-17. Doi: 10.1007/s10815-023-02934-5.

Shahbazi, M. N. (2020). Mechanisms of human embryo development: from cell fate to tissue shape and back. Development, 147(14), dev190629. doi: 10.1242/dev.190629. PMID: 32680920; PMCID: PMC7375473.

Simopoulou, M., Sfakianoudis, K., Rapani, A., Giannelou, P., Anifandis, G., Bolaris, S., Pantou, A., Lambropoulou, M., Pappas, A., Deligeoroglou, E., Pantos, K., Koutsilieris, M. (2018). Considerations Regarding Embryo Culture Conditions: From Media to Epigenetics. In Vivo, 32(3), 451-460. doi: 10.21873/invivo.11261. PMID: 29695546; PMCID: PMC6000787.

Xie, H. L., Wang, Y. B., Jiao, G. Z., Kong, D. L., Li, Q., Li, H., Zheng, L. L., and Tan, J. H. (2016). Effects of glucose metabolism during in vitro maturation on cytoplasmic maturation of mouse oocytes. Sci Rep, 6, 20764. https://doi.org/10.1038/srep20764

Yagmur, E., Melek, B., Aydin, A., Murat, B. (2022). The Assessment of Purity Level of CO2 Used in Horizontal Incubators and The Effect of Additional In-Line Filters on Embryo Development. Am J Biomed Sci & Res., 7(2), 126-131. AJBSR.MS.ID.002323, DOI: 10.34297/AJBSR.2022.17.002323.

Yao, T. and Asayama, Y. (2016). Human Preimplantation Embryo Culture Media: Past, Present, and Future. Journal of Mammalian Ova Research, 33(1), 17-34. https://doi.org/10.1274/jmor.33.17

Zheng, T., Li, Q., Chen, N., Du, P., Ye, H. (2023). Analysis of the clinical outcomes of microbial contamination caused by environmental contamination of the embryology laboratory during IVF-ET treatment cycles. BMC Pregnancy Childbirth, 23(1): 190. doi: 10.1186/s12884-023-05516-6. PMID: 36934251; PMCID: PMC10024385.