Synchronization of follicle wave emergence before ovarian superstimulation with FSH and ovum pick-up improves in vitro embryo production in pregnant heifers.

The objective of the present study was to evaluate effects of synchronization of timing of follicle wave emergence, before ovarian superstimulation and ovum pick-up (OPU), on ovarian response and embryo production in pregnant heifers. Pregnant (47-69 days of gestation) Holstein heifers (n = 64), 19.0 ± 0.3 months of age, were assigned in a completely randomized design to one of two groups: synchronization of follicular wave emergence using follicle ablation (Synchronized) or untreated control (Non-synchronized). Superstimulatory treatments consisting of 160 mg (280 IU) of porcine follicle stimulating hormone (p-FSH), administered in four decreasing dose treatments 12 h apart, were initiated 36 h after follicle ablation or at random stages of the follicular wave in heifers of the Synchronized and Non-synchronized group, respectively. Ovum pick-up was performed in all heifers 40 h after the last p-FSH administration and retrieved cumulus oocyte complexes (COCs) were subjected to in vitro embryo production (IVEP) procedures. Ultrasonography was performed immediately before OPU to determine number and size of ovarian follicles. Differences in treatment responses between groups were evaluated using generalized linear mixed models. Total number of follicles at the time of OPU was not different between treatment groups (P = 0.61), however, the number of small follicles (<6 mm) was greater (P = 0.05) in heifers of the Non-synchronized group, whereas number of medium size follicles (6-10 mm) tended (P = 0.09) to be greater in heifers of the Synchronized group. Heifers in the Synchronized group had a greater (P = 0.01) percentage of medium sized follicles and a lesser (P = 0.01) percentage of smaller sized follicles than heifers in the Non-synchronized group. There were no differences (P > 0.15) in total number of recovered COCs, or number of viable COCs between groups. Cleavage percentage (84.5% and 72.8%) and blastocyst percentage (48.2% and 33.4%) were greater (P < 0.01) in heifers of the Synchronized than Non-synchronized group, respectively. As a result, mean number of blastocysts per OPU/heifer was greater (P = 0.006) in the heifers of the Synchronized (8.9 ± 1.0) than the Non-synchronized (5.5 ± 0.9) group. In conclusion, synchronizing the time of follicle wave emergence in pregnant heifers, prior to ovarian superstimulation with FSH and OPU results in a greater superstimulatory response and oocyte competence leading to greater embryo production.

Uterine and systemic inflammation influences ovarian follicular function in postpartum dairy cows.

The objective of this study was to determine the effects of uterine and systemic inflammatory responses to uterine bacterial contamination at calving in dairy cows on the growth and ovulatory outcomes of the first dominant follicle postpartum. Ovulatory capability of the first dominant follicle postpartum was predicted in 53 multiparous cows by using a combination of follicle growth characteristics and circulating estradiol concentrations. Endotoxin levels were assayed in follicular fluid samples that were aspirated the day after ovulatory outcome prediction. Plasma levels of haptoglobin, a proinflammatory acute phase protein, and paraoxonase, a negative acute phase protein were determined. Uterine bacteria and inflammation were evaluated in three uterine fluid samples from each cow collected on the day of calving, the day after follicle aspiration, and at 35 days postpartum. Cows that had a strong initial uterine inflammatory response (robust recruitment of polymorphonuclear leukocytes of ≥ 35% and cows with uterine pH < 8.5 on the day of calving) were more likely to have an ovulatory first dominant follicle. Follicular fluid endotoxin levels were higher in non-ovulatory cows compared with ovulatory cows. Endotoxin levels in circulation were not different between ovulatory groups but were higher prepartum than on day 7 and 14 postpartum. Systemic inflammation characterized by elevated haptoglobin concentrations was higher in non-ovulatory cows despite similar bacterial contamination and circulating endotoxin levels. Paraoxonase activity in follicular fluid was significantly associated with the paraoxonase activity in plasma, however, plasma paraoxonase concentrations were not different between non-ovulatory and ovulatory cows. Cows with a higher uterine bacterial load on the day of calving had slower ovarian follicle growth. In summary, a robust uterine inflammatory response on the day of calving was positively associated with ovarian function while elevated systemic inflammation during the early postpartum period was negatively associated with the ovulatory status of the first dominant follicle postpartum.

Metabolic and Endocrine Differences Between Dairy Cows That Do or Do Not Ovulate First Postpartum Dominant Follicles.

Most dairy cows develop the first dominant follicle postpartum within 2 wk after calving, but only about 40% of these follicles produce sufficient estradiol to stimulate ovulation despite having normal ultrasound appearance and growth. This study aimed to characterize metabolic, endocrine, and follicular fluid profiles of cows in which the first dominant follicle postpartum will become ovulatory and those with nonovulatory follicles. Luteinizing hormone pulse frequency, follicular fluid androstenedione, and follicular fluid estradiol concentrations were lower in nonovulatory cows suggesting that the function of theca cells is impaired. In addition, nonovulatory cows had more severe negative energy balance and greater insulin resistance postpartum. This study describes for the first time the steroid hormone profile of early postpartum follicles and shows that a steroidogenic defect most likely occurs in theca cells limiting the amount of androgen precursor available for estradiol production that impairs their ovulatory outcome.