Abreu F M, Geary T W, Coutinho da Silva M A, Cruppe L H, Mussard M L, Madsen C A, Martins T, Bridges G A, Harstine B R, Day M L
Department of Animal Sciences, The Ohio State University, Columbus, OH 43210, United States; Department of Veterinary Clinical Sciences, The Ohio State University, Columbus, OH 43210, United States.
USDA-ARS, Fort Keogh Livestock and Range Research Laboratory, Miles City, MT 59301, United States.
Anim Reprod Sci. 2018 Sep;196:69-76. doi: 10.1016/j.anireprosci.2018.06.011. Epub 2018 Jun 22.
Two experiments were conducted to investigate the role of relatively lesser and greater progesterone (P4) concentrations during early follicular development on ovulatory follicle growth and pregnancy rate in beef cattle. In Experiment 1, time of ovulation was synchronized with the 5 d CO-Synch + CIDR (Controlled Internal Drug Release) program in multiparous cows (n = 241). Six days after the 2 GnRH injection of the pre-synchronization program (d 0), ablation of follicles ≥ 5 mm in the ovaries was performed and cows were assigned to receive either a previously used CIDR and 2x-25 mg PGF2α doses 8 h apart (LoP4), or a new CIDR (HiP4). On d 5, CIDR were removed from all cows, 2x-25 mg PGF2α were administered, and estrous detection tail paint was applied. Timed artificial insemination (TAI) was performed on d 8. On d 5, P4 concentrations were greater (P < 0.01) in the HiP4 (4.9 ± 0.13 ng/mL) than LoP4 (1.0 ± 0.06 ng/mL) treatment group. Conversely, d 5 estradiol (E2) concentrations and follicular diameter were greater (P < 0.01) in the LoP4 (5.0 ± 0.23 pg/mL and 8.9 ± 0.20 mm) than HiP4 (1.5 ± 0.12 pg/mL and 7.4 ± 0.15 mm) treatment group. Follicular diameter at TAI (12.0 ± 0.12 mm, Table 1) and TAI pregnancy rate did not differ (P > 0.10) between treatment groups. In Experiment 2, a new follicular wave was induced with estradiol benzoate on d -7, and cows (n = 275) were assigned on d 0 to receive 25 mg PGF2α and either have the CIDR replaced with a new CIDR (HiP4) or the used CIDR was left in place (LoP4).Furthermore, all cows received GnRH on d 0. The CIDRs were removed from all cows on d 5 and two doses of -25 mg PGF2α were administered. Estrous detection combined with AI 12 h later (Estrus-AI) was performed for 60 h after CIDR removal with TAI coupled with GnRH administration at 72 h if estrus was not detected. The concentrations of P4 on d 5 were greater (P < 0.01) in the HiP4 (2.8 ± 0.10 ng/ml) than LoP4 (1.7 ± 0.05 ng/mL) treatment group. For cows that were detected in estrus after PGF2α administration, estrous response (83.5%) and interval to estrus (55.0 ± 0.5 h) did not differ between treatment groups. Pregnancy rate (combined Estrus-AI and TAI) that resulted from breeding at the time of the synchronized time of estrus was similar between treatment groups (HiP4: 77.1%; LoP4: 82.3%). In conclusion, differences in P4 concentrations during early follicular development do not effect pregnancy rate in beef cows when the cows are inseminated at the time of a synchronized estrus if the cows have similar intervals of proestrus.
进行了两项试验,以研究肉牛卵泡早期发育过程中孕酮(P4)浓度较低和较高时对排卵卵泡生长及妊娠率的影响。在试验1中,经产母牛(n = 241)采用5天CO - Synch + CIDR(控制内部药物释放)程序同步排卵时间。在预同步程序的两次促性腺激素释放激素(GnRH)注射后6天(第0天),对卵巢中直径≥5毫米的卵泡进行消融,然后将母牛分为两组,一组接受先前使用过的阴道孕酮释放装置(CIDR)和间隔8小时的两次25毫克前列腺素F2α(PGF2α)剂量注射(低P4组),另一组接受新的CIDR(高P4组)。在第5天,从所有母牛身上取出CIDR,注射两次25毫克PGF2α,并涂抹发情检测尾漆。在第8天进行定时人工授精(TAI)。在第5天,高P4组(4.9±0.13纳克/毫升)的P4浓度高于低P4组(1.0±0.06纳克/毫升),差异极显著(P < 0.01)。相反,第5天低P4组(5.0±0.23皮克/毫升和8.9±0.20毫米)的雌二醇(E2)浓度和卵泡直径高于高P4组(1.5±0.12皮克/毫升和7.4±0.15毫米),差异极显著(P < 0.01)。TAI时的卵泡直径(12.0±0.12毫米,表1)和TAI妊娠率在两组间无显著差异(P > 0.10)。在试验2中,于第 - 7天用苯甲酸雌二醇诱导新的卵泡波,在第0天,母牛(n = 275)被分为两组,一组接受25毫克PGF2α,同时将CIDR更换为新的CIDR(高P4组),另一组保留使用过的CIDR(低P4组)。此外,所有母牛在第0天接受GnRH。在第5天从所有母牛身上取出CIDR,并注射两次25毫克PGF2α。在取出CIDR后60小时进行发情检测并结合人工授精(发情 - AI),如果未检测到发情,则在72小时进行TAI并同时注射GnRH。第5天高P4组(2.8±0.10纳克/毫升)的P4浓度高于低P4组(1.7±0.05纳克/毫升),差异极显著(P < 0.01)。对于在注射PGF2α后检测到发情的母牛,两组间的发情反应(83.5%)和发情间隔(55.0±0.5小时)无显著差异。在同步发情时配种后的妊娠率(发情 - AI和TAI合并)在两组间相似(高P4组:77.1%;低P4组:82.3%)。总之,如果母牛发情前期间隔相似,在同步发情时进行人工授精,卵泡早期发育过程中P4浓度的差异对肉牛的妊娠率没有影响。
