Abstract
ABSTRACT The objective of this study was to determine the efficiency of Ringer’s lactate solution (RL) and RL + 1% fetal bovine serum (FBS) and compare them with the efficiency of Dulbecco’s phosphate-buffered saline (D-PBS). Twenty-two Wagyu female cattle were subjected to superovulation and were randomly distributed to form three groups: group 1 – uterine flushing with RL (n = 8), group 2 – uterine flushing with RL + 1% FBS (n = 7), and group 3 – uterine flushing with D-PBS (n = 7, control group). Cows received a CIDR® device containing 1.9 g of progesterone at random stages of the estrous cycle (day 0). Progesterone withdrawal occurred on day 8 in the morning. For heifers, 160 mg of porcine follicle-stimulating hormone (FSH-P) was used and for cows, 200 mg. Prostaglandin F2α was also injected on the eighth day of FSH-P administration. On day 9, in the morning, hCG was administered. Females were superovulated and inseminated twice in a fixed time for embryo transfer. On the 16th day, females were subjected to uterine flushing for embryo collection. We collected 76 embryos from 22 females subjected to superovulation, of which 52 were transferable and 24 had degenerated. The total of embryos collected was 23, 16, and 23 for groups 1, 2, and 3, respectively. The embryo recovery rates per group were 13.86±4.23, 15.39±4.61 and 27.16±13.33%, in groups 1, 2, and 3, respectively. The means for the total structures collected per female were 2.88±0.85, 3.00±1.23, and 4.57±1.72 in groups flushed with RL, RL + 1% FBS, and D-PBS, respectively. We conclude that Ringer’s lactate solution and Ringer’s lactate solution + 1% of FBS and Dulbecco’s phosphate-buffered saline showed no significant differences in terms of embryo quality or quantity, suggesting that Ringer’s lactate solution is an alternative for collecting embryos in cattle.
Highlights
Embryo transfer is a reproductive procedure that permits exploitation of females with high genetic value (McCue, 2011) so as to optimize animal breeding (Bülbül et al, 2010)
Twenty-two Wagyu female cattle were subjected to superovulation and were randomly distributed to form three groups: group 1 – uterine flushing with Ringer’s lactate solution (RL) (n = 8), group 2 – uterine flushing with RL + 1% fetal bovine serum (FBS) (n = 7), and group 3 – uterine flushing with Dulbecco’s phosphate-buffered saline (D-PBS) (n = 7, control group)
The numbers of total embryos collected per group were as follows: 23 in the group with uterine flushing with RL, 21 in the group with uterine flushing with RL + 1% FBS, and 32 embryos in the group with uterine flushing with D-PBS
Summary
Embryo transfer is a reproductive procedure that permits exploitation of females with high genetic value (McCue, 2011) so as to optimize animal breeding (Bülbül et al, 2010). One of the stages of embryo collection is the flushing procedure, consisting of washing the uterus seven days after the first artificial insemination (Troxel, 2013) This phase involves costs related to the solution used in embryo collection (Caiado et al, 2009). In Brown Swiss cows, for example, Bülbül et al (2010) used RL ($ 1.30/liter) for embryo collection and achieved 69.5% embryo recovery and mean of 6.3 collected embryos and 4.6 viable embryos per female, without evaluating traditional solution (D-PBS: $ 13.44/liter) Against this background, the objective of this study was to determine the efficacy of RL with or without 1% fetal bovine serum (FBS) for uterine flushing of female beef cattle to recover embryos, to evaluate the quality and quantity of the recovered embryos, and to compare the recovery efficacy with that of D-PBS
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