Embryo production after superovulation of bovine donors with a reduced number of FSH applications and an increased eCG dose.

This study evaluated embryo production after superovulation (SO) with a reduced number of FSH applications and increased eCG dose in 26 Bos taurus × Bos indicus donors. On Day 0, donors received an intravaginal device (CIDR) with 1.9 g of progesterone plus 2.5 mg of estradiol benzoate and 50 mg of progesterone via IM. On Day 4, donors were randomly allotted to one of three SO treatments: 1) 455 IU of Folltropin +400 IU of eCG (n = 9), 2) 350 IU of Folltropin +600 IU of eCG (n = 9), and 3) 500 IU of Pluset + 600 IU of eCG (n = 8). In treatment 455 IU of Folltropin +400 IU of eCG, donors received eight IM Folltropin injections in decreasing dose 12 h apart from Day 4 to Day 7. On Day 6, at the same time as the Folltropin, donors received via IM 25 mg of dinoprost tromethamine (PGF2a). On Day 7, the CIDR was removed, and together with the Folltropin, donors received 200 IU of eCG via IM. In treatment 350 IU of Folltropin +600 IU of eCG, donors received four IM Folltropin injections in decreasing dose 12 h apart on Days 4 and 5. On Day 6, donors received via IM 600 IU of eCG in the morning and two doses of 25 mg of PGF2a 12 h apart. On Day 7, the CIDR was removed. Donors from treatment 500 IU of Pluset +600 IU of eCG received four IM Pluset injections in decreasing dose 12 h apart on Days 4 and 5. On Day 6, donors received via IM 600 IU of eCG in the morning and two doses of 25 mg of PGF2a 12 h apart. On Day 7, the CIDR was removed. In the morning of Day 8, donors from the three treatments received 0.25 mg of GnRH via IM. Artificial insemination was performed on Day 8 (pm) and Day 9 (am). Embryos were collected on Day 15. Variables evaluated were number of CL before embryo collection, number of structures recovered, transferable embryos, degenerate embryos and unfertilized oocytes, recovery rate, and viability rate. There was no difference in any variable among treatments (P > 0.05). In conclusion, replacement of four Folltropin or Pluset injections from a conventional eight FSH-injection SO protocol, by a single injection of 600 IU of eCG, is a good alternative to reduce donor handling without decreasing yield of transferable embryos.

Embryo production in middle-aged and mature Bos taurus × Bos indicus cows induced to multiple ovulation in a tropical environment.

The objective of the study was to evaluate embryo production in middle-aged and mature Bos taurus × Bos indicus cows induced to multiple ovulation (MO) in a tropical environment. Twenty-eight cows were assigned into two groups: (1) middle-aged cows = 4-6 years old (n = 13), and (2) mature cows = 8-12 years old (n = 15). All donors received the same MO protocol with follicle-stimulating hormone in decreasing dose during 4 days and two artificial insemination services. Total numbers of corpora lutea at embryo collection, structures collected, and viable embryos obtained, as well as recovery rate, were higher in middle-aged cows compared with mature cows (P < 0.05). A total number of degenerate embryos and unfertilized oocytes, as well as viability rate, were similar in both groups (P > 0.05). In conclusion, the mature cows responded to the MO treatment, but the average of viable embryos recovered per donor was lower than in middle-aged cows. Therefore, the inclusion of cows ≥ 8 years old as donors in MO programs in tropical environments should be avoided.