Progesterone supplementation after ovulation: effects on corpus luteum function and on fertility of dairy cows subjected to AI or ET


Monteiro PL, Nascimento AB, Pontes GC, Fernandes GO, Melo LF, Wiltbank MC, Sartori R

Theriogenology 2015 Oct;84(7):1215-24

PMID: 26255222

Abstract

Three experiments were done to evaluate the effects of progesterone (P4) supplementation starting during metestrus on formation of the CL and on fertility of lactating dairy cows subjected to fixed-time artificial insemination (FTAI) or embryo transfer (ET). In experiment 1, 42 Holstein cows were randomly allocated to untreated (Control) or to receive an intravaginal implant containing 1.9 g of P4 from Day 3 to 20 after FTAI (controlled internal drug release [CIDR]). Blood samples were collected on Days 3, 4, 7, 11, 14, 17, 20, and 21 after FTAI to evaluate the effect of CIDR supplementation on plasma concentration of P4 using radioimmunoassay. Ultrasound scans were performed at Days 4, 7, 11, 14, and 20 to evaluate CL volume. In experiment 2, the effect on CIDR supplementation on fertility was evaluated in 668 Holstein and crossbred dairy cows that were subjected to FTAI and allocated randomly to untreated (AI-Control) or to receive a CIDR from Day 3 to 17 (AI-CIDR) after FTAI. In experiment 3, 360 Holstein cows were treated with PGF and after heat detection (Day 0), they were allocated to untreated (ET-Control) or to receive a CIDR from Day 4 ± 1 to 8 ± 1 (ET-CIDR-4) or a CIDR from 4 ± 1 to 18 ± 1 (ET-CIDR-14). In vitro-produced embryos were transferred on Day 8 ± 1. Pregnancy diagnoses were performed by ultrasound. In experiment 1, there was interaction between treatment and day in relation to plasma P4 on Days 4 and 7 due to CIDR supplementation. Independent of treatment, pregnant cows had higher plasma P4 from Day 14 to 21 than nonpregnant cows (P ≤ 0.05). Supplementation with CIDR did not alter CL development. In experiment 2, there was no effect of supplementation of P4 on pregnancy per AI on Day 32 (32.0% vs. 31.8%, for AI-Control and AI-CIDR, respectively) or pregnancy loss (15.6% vs. 17.6%, for AI-Control and AI-CIDR, respectively). In experiment 3, P4 supplementation compromised pregnancy per ET (P/ET) on Day 32 in both supplemented groups (39.7% vs. 21.3% vs. 15.2%, for ET-Control, ET-CIDR-4, and ET-CIDR-14, respectively), with no effect on pregnancy loss. Therefore, although CIDR insertion on Day 3 after FTAI did not affect CL function and increased circulating P4, it did not increase pregnancy per AI in lactating dairy cows submitted to FTAI. Moreover, P4 supplementation decreased pregnancy per ET in lactating recipient cows.


発情後3日目からCIDRを挿入するModified fast backの血中Progesterone濃度、黄体形成、受胎率に及ぼすPositiveな影響はほとんどなかった。特に、ETにおける受胎成績は顕著に低下していた。AIでは処置群でやや受胎率は高いが有意差は出ていない。

それよりも、OPU-IVFのプロトコールが記載されていることの方が有用だと思う論文だった。

The use of embryo transfer to produce pregnancies in repeat-breeding dairy cattle


Dochi O, Takahashi K, Hirai T, Hayakawa H, Tanisawa M, Yamamoto Y, Koyama H

Theriogenology 2008 Jan;69(1):124-8

PMID: 17942148

Abstract

Repeat breeding is an important factor affecting economic success in dairy management. The objective of this study was to investigate the effectiveness of transfer of frozen-thawed IVF embryos in establishing pregnancy in repeat-breeding Holstein cattle. Cumulus oocyte complexes were collected by aspiration of 2-5 mm follicles from ovaries obtained at two local abattoirs. After IVF, days 7 and 8 blastocysts were frozen either in 1.5M ethylene glycol with 0.1M sucrose, or in 1.4M glycerol with 0.1M sucrose. Holstein recipients (122 heifers and 410 cows) included those that had not conceived after 3-21 inseminations. Embryos frozen in ethylene glycol were transferred directly, and embryos frozen in glycerol were transferred after dilution of the cryoprotectant in sucrose into recipients 7 or 8 days after estrus (without-AI group), or following AI (with-AI group). Pregnancy rates were compared by the Chi-square test. Significantly higher pregnancy rates were achieved by embryo transfer following AI (with-AI group) than by embryo transfer alone (without-AI group) in both heifers (49.2 and 29.5%, respectively) and cows (41.5 and 20.4%, respectively; P<0.05). Pregnancy rates were not significantly different between heifers and cows. However, pregnancy rate decreased as the number of inseminations prior to embryo transfer increased in the with-AI group, but not in the without-AI group. Therefore, transfer of frozen-thawed IVF embryos during the same cycle in which AI was done improved pregnancy rates in repeat-breeding Holstein heifers and cows, and suggested that embryo transfer is an alternative in the treatment of repeat breeding.