Abstract

The present study was designed to test the hypothesis that an increase in the length of exposure of ovulatory follicles to progesterone and FSH during ovarian superstimulation will increase the number of ovulations and viable embryos in cattle. Twenty-four beef cows were initially subjected to follicle ablation at random stages of the oestrous cycle to determine the number of follicles at wave emergence; cows with comparable numbers of follicles were randomly allocated to groups by replicate. A single dose of prostaglandin F2α (PGF; Estroplan, Vétoquinol, QC, Canada) was given IM 7 to 9 days after follicle ablation and daily ultrasound examinations were performed to detect ovulation. Follicular ablation of all follicles ≥5 mm was done 5 to 8 days after ovulation and a progesterone-releasing intravaginal device (PRID, Vétoquinol) was inserted. The Control group (n = 12) was treated with 4 days of FSH and cows in the Long group (n = 12) were given 7 days of FSH treatment. The FSH treatments were initiated 1.5 days after ablation (Day 0) with a total dose of 400 mg of NIH-FSH-P1 (Folltropin-V; Bioniche Animal Health, Belleville ON, Canada). The total dose of FSH was distributed equally over 8 (Control) or 14 (Long) IM injections at 12-h intervals. Prostaglandin F2α was administered twice (at 12-h intervals) on Day 2 (Control) or Day 5 (Long) and PRID were removed 12 h after the last PGF. Both groups received 25 mg of porcine LH (pLH) IM (Lutropin-V; Bioniche Animal Health) 24 h after PRID removal and AI with frozen–thawed semen of proven fertility was done 12 and 24 h later. A third AI was done 12 h later in cows with 2 or more follicles ≥9 mm (12/12 and 9/12 in Control and Long groups, respectively; P = 0.22). All animals were subjected to transrectal ultrasonography every other day and at the time of ova or embryo collection. Ova or embryos were collected nonsurgically 7 days after the pLH injection and evaluated following IETS guidelines. Embryos were defined as transferable (Grades 1, 2 and 3) and freezable (Grades 1 and 2). Procedure Genmod was used to compare variables between treatments and results are presented as means ± SEM (Table 1). There was no significant difference in the total numbers of ova/embryos recovered, but there were more ovulations, corpora lutea (CL), fertilized ova and transferable and freezable embryos in the Long group (P < 0.05). Collection efficiency (number of ova/embryos over the number of CL) was lower in the Long group (P < 0.05). In summary, lengthening of the superstimulatory treatment resulted in an increased number of ovulations without a decrease in oocyte or embryo competence. Data suggest that the traditional 4-day superstimulatory treatment protocol provides inadequate time to maximize ovulatory response. Table 1.Superovulatory response (mean ± SEM) of cows subjected to a conventional 4-day (Control) or a 7-day (Long) treatment protocol

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