Effects of crocin supplementation during in vitro culture of intact and half-destroyed four-cell mouse embryos.

OBJECTIVE: We evaluated the effects of crocin supplementation during culture of intact and half-destroyed four-cell mouse embryos. Outcomes measured included rate of cleavage arrest, blastocyst formation, and blastocyst cell number. METHODS: We used laser to create two zonal holes without blastomere destruction in Groups 1 (n=100) and 2 (n=100), and to destroy two of the four blastomeres in Groups 3 (n=150) and 4 (n=150). Embryos were cultured in groups of ten in drops of medium without (Groups 1 and 3) or with 20 µg/ml of crocin supplementation (Groups 2 and 4). RESULTS: Embryos in Groups 1 and 2 had no difference in the rate of cleavage arrest (6.0% vs. 7.0%, respectively; p=0.774) or blastocyst formation (89.0% vs. 86.0%, respectively; p=0.521). Neither was there a difference in the number of cells in the blastocysts (99.6±23.5 vs. 95.6± 8.2, respectively, p=0.83). Half-destroyed embryos cultured in crocin-supplemented medium (Group 4) had a lower rate of cleavage arrest (14.7% vs. 30.0%, p=0.001), and a higher rate of blastocyst formation (51.3% vs. 37.3%, p=0.015), than those in non-supplemented medium (Group 3). In blastocysts derived from half-destroyed embryos, there was no difference in the number of cells in ICM (14.5±3.9 vs. 13.7±2.9, p=0.285), TE (45.2±12.3 vs. 46.0±13.3, p=0.764), or total cells (59.7±12.2 vs. 59.7±14.8, respectively, p=0.990) among the two groups. CONCLUSIONS: Crocin supplementation during in vitro development of impaired embryos improved their development, but had no effect on intact embryos.

Is there a better evolutionary outcome in a 4-cell tetrahedron embryo?

With the growing understanding of in vitro fertilization and reproductive technology, the magnitude of studies related to embryonic evolution has also increased. The optimization of embryo selection is crucial to minimize the risk of multiple pregnancies and to guarantee successful implantation and pregnancy. On the second day of culture, the four-cell embryo can be shaped into different arrangements, such as tetrahedral and planar. Previous studies have shown that mammalian embryos have a tetrahedral shape and that any deviation from this ideal configuration can negatively affect blastocyst development. A few studies have also found that planar embryos would be linked to negative predictors of success for reaching the blastocyst stage and its good quality. Therefore, it seems that tetrahedral should be preferred over planar-shaped embryos for embryonic transfers, but there is still little understanding and evidence about this subject. Thus, the objective of the present paper was to review the available literature on study tendencies to compare tetrahedral and planar-shaped embryos considering their effect on implantation and pregnancy results.