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

Abstract

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. 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). 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. Crocin supplementation during in vitro development of impaired embryos improved their development, but had no effect on intact embryos.