Francesco Vannucci scite author profile

The objectives of this study were to determine the interval from ovulation to deviation and the diameter of the dominant (DF) and largest subordinate (SF) follicles at deviation in buffalo (Bubalus bubalis) heifers. Two methods of evaluation (observed vs. calculated) were used. FSH and LH profiles encompassing follicle deviation (Experiment 1), and the follicular diameter when the DF acquired ovulatory capacity (Experiment 2) were also determined. The time of deviation and the diameter of the DF and the largest SF at deviation did not differ between observed and calculated methods. Overall, follicle deviation occurred 2.6 ± 0.2d (mean ± SEM) after ovulation, and the diameters of the DF and SF at deviation were 7.2 ± 0.2 and 6.4 ± 0.2mm, respectively. No changes in plasma levels of FSH or LH were observed (P=0.32 and P=0.96, respectively). Experiment 2 was conducted in two phases according to the diameter of the DF during the first wave of follicular development at the time of LH challenge (25mg of pLH). In the first phase, follicles ranging from 5.0 to 6.0mm (n=7), 6.1 to 7.0mm (n=11), or 7.1 to 8.0mm (n=9) were used, and in the second phase, follicles ranging from 7.0 to 8.4mm (n=10), 8.5 to 10.0mm (n=10), or 10.1 to 12.0mm (n=9) of diameter were used. After the pLH treatment, the DF was monitored by ultrasonography every 12h for 48h. No ovulations occurred in heifers in the first phase. However, in the second phase, an effect of follicular diameter was observed on ovulation rate [7.0-8.4mm (0.0%, 0/10), 8.5-10.0mm (50.0%, 5/10), and 10.0-12.0mm (55.6%, 5/9)]. In summary, follicle deviation occurred 2.6d after ovulation in buffalo (B. bubalis) heifers, when the diameters of the DF and SF were 7.2 and 6.4mm, respectively. No significant changes in plasma concentrations of FSH or LH were detected. Finally, the acquisition of ovulatory capacity occurred when the DF reached 8.5mm in diameter.

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Ovulation and conception rates according intravaginal progesterone device and hCG or GnRH to induce ovulation in buffalo during the off breeding season

Carvalho

Nagasaku

Vannucci

et al. 2007

Italian Journal of Animal Science

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The objective of this study was to evaluate the effect of intravaginal progesterone device (P4; first or second use) of different ovulatory inductors on ovulation and conception rates in buffaloes during the off breeding season. Two hundred and forty two buffaloes were allocated in four groups and received P4 device of first or second use plus estradiol benzoate on Day 0 (D0). The P4 device was removed and a dose of PGF2α and eCG was administered on D9. On D11, buffaloes received hCG or GnRH and 16hs after the animals were inseminated. The ultrasound examination was performed on D0 to verify the ovarian status, from D9 to D14 to establish the moment of ovulation and on D40 for pregnancy diagnosis. Data were analyzed by ANOVA and Chi-square test. There was no effect of interaction. The ovulation and conception rate were similar for P4 device of first and second use, for hCG and GnRH. Results indicate that the use of P4 device for two times and the use of GnRH instead of hCG provide satisfactory ovulation and conception rate in buffalo during the off breeding season and might reduce the cost of the protocol for artificial insemination

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Follicle selection by ultrasonography and plasmatic characteristics and ovulatory capacity in buffaloes

Gimenes

Carvalho²,

Filho

et al. 2007

Italian Journal of Animal Science

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The objectives of the present work were to determine follicle deviation assessed by ultrasonography and profile of plasmatic gonadotrophins, and ovulatory capacity in buffalo species, since these information are not available in the literature. The knowledge of follicular development and gonadotrophins profile during deviation and the follicular response to an exogenous ovulation inducer can be useful tools for follicular manipulation of estrous cycle

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