C.R. Looney

Microsurgery on bovine embryos at the morula stage to produce monozygotic twin calves

Mature Brangus donor cows were superovulated with follicle stim-ulating hormone administered twice daily in intramuscular injections. On day 6.5 to 7 post-estrus, embryos were collected non-surgically using a phosphate-buffered saline medium. A total of 37 ova was collected, of which 28 were advanced morulae and early blastocysts. Twenty of these embryos were selected for micromanipulation with a radial-type Leitz micromanipulator. While the embryos were in a holding medium containing 10% fetal calf serum, three glass microinstruments were used to open the zona pellucida, remove the mass of blastomeres and bisect the embryo on a vertical plane. Halved embryos were inserted into bovine zonae and placed either as single half-embryos or twin half-embryos in 0.25 ml French straws with fresh holding medium. The micromanipulated embryos (demi-embryos) were then non-surgically transplanted, either as a single demi-embryo or as a twin demi-embryo pair, into the uterine horn of day 6.5 to 8 recipient beef females ipsilateral to the existing corpus luteum. Of the 14 micromanipulated embryos that were transplanted to recipients, pregnancy rates were 16.6% for the single demi-embryos and 62.5% for the twin demi-embryos. No pregnancies resulted from bisected blastocysts.

Transferable embryo recovery rates following different insemination schedules in superovulated beef cattle

The objective of this study was to evaluate the transferable embryo recovery rates from superovulated donor cattle after different artificial insemination (AI) schedules. Sixty mixed-breed crossbred females were administered follicle stimulating hormone (FSH) and prostaglandin F(2)alpha (PGF(2)alpha) to induce a superovulatory response. At standing estrus, donor females were randomly allotted to one of five treatment groups for AI. Donors were inseminated with two units of high-quality or low-quality frozen semen at 12, 24, 36, or 48 h after the onset of estrus in treatment Groups I, II, III, and IV, respectively, or inseminated with two units at 12, 24, 36, and 48 h (eight units/donor) in control Group V. Donor females inseminated once at either 12 or 24 h after the onset of estrus did not differ from donors inseminated in Group V in overall fertilization and transferable embryo recovery rates. The highest fertilization rate (89.5%) and transferable embryo recovery rate (74.9%) per donor resulted when AI was performed with high-quality semen at 24 h after the onset of estrus. These findings indicate that repeated insemination of superovulated beef cattle is not necessary to attain optimal fertilization rates and production of transferable quality embryos in beef cattle.

Comparison of once daily and twice daily FSH injections for superovulating beef cattle.

Twelve cycling Angus-based crossbred cows were used in a crossover experimental design to evaluate two different injection schedules using Follicle Stimulating Hormone (FSH) for superovulating donor cattle. Females randomly assigned to Treatment (A) were given twice daily FSH injections of 5 mg each (12 hours apart) for five consecutive days starting on day 10 of the estrous cycle while those in Treatment (B) received the same daily dose level of FSH, except it was given in a 3.2% protein gelatin carrier vehicle and administered on a once daily injection schedule. Animals in both Treatments (A) and (B) were each given a 30 mg dose of commercially available prostaglandin-F(2alpha) agent 48 hours after the first FSH injection. Cows in estrus were initially handmated to a fertile bull then artificially inseminated 12 hours later with two units of frozen semen. All 12 animals (100%) given twice daily FSH injections and 11 of the females (91.6%) administered once daily FSH injections exhibited standing estrus within 5 days following injection of the luteolytic agent. On day 7 or 8 after the onset of standing estrus a laparotomy was performed to observe ovarian structures. When the superovulation response was evaluated, the mean number of corpora lutea per ovary ranged from 2.9 in the twice daily injection group to 4.1 in the once daily injected group. Unexpectedly, the once daily treated group had significantly more corpora lutea per animal (8.1 vs. 6.4) than those in the twice daily treated group. In addition, mean ovarian size score per animal increased significantly when pre-treatment scores were compared to those recorded following FSH treatment (laparotomy) in both Treatment (A) and (B), however, the post-treatment ovarian size scores were not different between these groups. When evaluating post-treatment follicular development, the once daily injection group had significantly more smaller follicles (<10 mm) and a greater number of ovulatory size follicles (>10 mm) than the twice daily injection group. Furthermore, viable appearing embryos were recovered from both treatment groups and no adverse reactions were observed with the gelatin carrier vehicle in Treatment (B). Since the once daily FSH injection schedule resulted in a superovulatory response equal to or greater than the twice daily FSH injection schedule, this approach to superovulation should not be overlooked by those involved in bovine embryo transplantation.

An attempt to isolate Brucellaabortus from uterine flushings of brucellosis-reactor donor cattle

Abstract Two experiments were conducted to test for the recovery of brucella organisms from uterine flushings and harvested embryos of sero-positive embryo donor females. In Experiment I, 16 sero-positive cows were superovulated with FSH treatments and artificially inseminated at 12, 24 and 36 hours following the onset of estrus with brucella-free semen. At 48 hours after the onset of estrus, one half the potential donor females were administered an intrauterine inoculation of 3.3 to 4.6 × 10 4 Brucella abortus (strain 2308) organisms while the remainder received a control inoculation. In Experiment II, the same 16 cows were similarly administered superovulatory treatments and inseminated following estrus. The uterine inoculation was increased to 1.5 to 2.5 × 10 8 organisms administered 48 hours following estrus. Samples of recovered flushing medium and homogenized embryo residues were placed into a validated in vitro culture system to detect the presence of brucella bacteria. Uterine flushings and embryos recovered from 31 females exhibiting estrus following FSH treatments were free from either field strain or the inoculated B. abortus (strain 2308) contamination. The flushings obtained from a single female, which did not respond with estrus following FSH treatment but was inoculated at appointment, did contain B. abortus which was identified as the inoculated strain 2308 and not field strain organisms. These results indicate that brucella contamination of flushing media and harvested embryos will not likely be incurred when collecting embryos from sero-positive donor females. These findings offer further encouragement for the use of embryo transplantation as a method to produce brucella-free offspring from infected cows.