Factors affecting in vivo viability of DNA-injected bovine blastocysts produced in vitro

In vitro matured and fertilized bovine ova were microinjected with pBL1, which consisted of the bovine beta-casein gene promoter, human lactoferrin cDNA and SV40 polyadenylation signal. Of the 2931 zygotes injected, 2505 (85.5%) survived 1 h after DNA injection and were cultured in 50-microl drops of CR1aa medium containing 3 mg/ml BSA under mineral oil at 39 degrees C, 5% CO2 in air. Cleaved (2- to 8-cell) embryos were selected at approximately 48 h after DNA injection and then cultured further in 50-microl drops of CR1aa medium supplemented with 10% (v/v) FBS. Blastocysts were classified into 4 quality grades and 3 developmental stages by morphological criteria. Then all but poor quality blastocysts were nonsurgically transferred to the uterus of heifers 7 to 8 d after natural estrus. Following transfer, the recipients were observed for signs of estrus, and pregnancy was confirmed by palpation per rectum at approximately 60 d of gestation. Although 72.0% (1804/2505 ) of the DNA-injected zygotes reached 2- to 8-cell stages only 5.2% (131/2505) developed to blastocysts. A total of 75 DNA-injected, in vitro cultured blastocysts were transferred to 59 recipients. When 2 blastocysts were transferred to a single recipient, only the better quality embryo was counted. The overall pregnancy rate was 30.5% (18/59 ) and reflected 1) an apparent correlation between the quality of embryos and the pregnancy rate. However, the difference was not statistically significant. 2) expanded blastocysts had a higher pregnancy rate (50.0%, 11/22 ) than early (13.3%, 2 15 ) or mid (22.7%, 5/22 ) blastocysts with a significant difference between expanded and early blastocysts (P < 0.05). 3) the pregnancy rate of DNA-injected blastocysts was higher when they were transferred at Day 7 (34.5%, 10/29 ) or 8 (36.8%, 7/19 ) than at Day 6 (9.0%, 1/11 ). The results indicate that the developmental stage of DNA-injected bovine embryos may be one of contributing factors in improving the pregnancy rate after transfer, although the effects of the quality and culture period of the embryos may not be inconsequential.     

Nuclear transplantation in the bovine embryo: assessment of donor nuclei and recipient oocyte

Blastomeres from 2- to 32-cell bovine embryos were transferred to enucleated oocytes matured either in vivo or in vitro by micromanipulation and electrofusion. The percentage of donor cells fusing with the recipient oocytes was dependent on relative cell size or stage of development. Therefore, when smaller donor karyoplasts (17- to 32-cell vs. 2- to 8-cell) were transferred, the rate of fusion was significantly less (p less than 0.01). After fusion, nuclear transfer embryos were cultured either in vitro or in vivo (in a ligated ovine oviduct). Nuclear transfer embryos cultured in vitro developed to the 4- to 6-cell stage after 72 h (4-cell, 71%; 8-cell, 33%, 16-cell, 33%; p less than 0.30), whereas nuclear transfer embryos cultured in vivo developed to the morula or blastocyst stage (2- to 8-cell, 11.7%; 9- to 16-cell, 16.0%; 17- to 32-cell, 8.3%; p greater than 0.30) after 4 or 5 days. Freshly ovulated oocytes (collected 36 h after the onset of estrus), when used as recipients, resulted in morula/blastocyst-stage embryos more often than in vitro-matured oocytes or in vivo-matured oocytes collected 48 h after the onset of estrus (20% vs. 7.8% and 6.7%, respectively; p less than 0.02). After in vivo culture, nuclear transfer embryos were mounted and fixed or transferred nonsurgically to the uteri of 6- to 8-day postestrus heifers. Seven pregnancies resulted from the transfer of 19 embryos into 13 heifers; 2 heifers completed pregnancy with the birth of live calves.(ABSTRACT TRUNCATED AT 250 WORDS)     

Early development and location of embryos in the reproductive tract of Nili Ravi buffalo (Bubalus bubalis): a retrospective analysis

One year data on embryo recovery were analyzed to study the development and descent of preimplantation embryos in Nili Ravi water buffalo. Forty-five superovulatory attempts were performed on 23 buffalo. A total of 45 embryos were recovered either nonsurgically or after slaughtering the animals at various time intervals (85 to 176 h) post estrus. Embryos were located in the oviducts at 85 h after estrus. At 108 h post estrus, most of them (78%) were recovered from the uteri. The embryos had 8 to 16 cells at 85 h post estrus, grew to morulae at 108 h and to compact morulae at 125 h post estrus. Early blastocysts were observed at 141 h post estrus. Blastocysts were predominant (69%) at 156 to 176 h after estrus; no hatched blastocysts were recovered during this time interval. Based on our findings, embryo recovery at around 150 h post estrus (i.e., Day 6 of the cycle) is recommended for compact morulae or blastocysts in the water buffalo.     

Intergeneric embryo transfer between water buffalo and domestic cattle

The feasibility of reciprocal embryo transfer between water buffalo (Bubalus bubalis) and domestic cattle (Bos taurus) was studied. Eight mature water buffalo females were superovulated and bred naturally to a male water buffalo. Sixteen water buffalo embryos were recovered nonsurgically using routine bovine embryo transfer procedures. No pregnancies resulted after transfer of thirteen water buffalo embryos to synchronized Holstein heifers. Physiological age of the water buffalo embryos was ahead of chronological age when compared to bovine embryo development.Two cattle embryos were transferred nonsurgically to two synchronized water buffalo recipients. One recipient was diagnosed pregnant; however, she subsequently aborted between 2.5 and 3.0 months of gestation.The significance of successful intergeneric embryo transfer between cattle and water buffaloes would be the provision of a model for the preservation of endangered genera and species for which common recipients are readily available.The reproductive anatomy as well as the reproductive physiology of the estrous cycle of the donor and the recipient species must be reasonably similar. Minor endocrinological incompatibilities might be circumvented by transfer of alien embryos to mated recipients. Problems of immunological incompatibilities might be minimized by modifying the immune response of the recipient and/or the antigenicity of the embryo by microsurgical manipulation.     

Quick-splitting of bovine embryos

Described is a simplified method of bovine embryo bisection amenable to on-farm embryo transfer. Using a microblade operated by a hand-held micromanipulator, Day 7 bovine embryos were bisected while in the zona pellucida. With a vertical motion, the embryo was pinned between the blade and the bottom of a plastic petri dish and bisected. Demi-embryos were transferred nonsurgically (without zonae pellucidae) into synchronized recipients. Pregnancy rates were normal with 5 13 (38%) and 9 20 (45%) of recipients confirmed pregnant 70 to 80 d after receiving either twin or single half embryos, respectively. This compared to 12 28 (43%) of recipients becoming pregnant from transfer of whole embryos. These data confirm that bovine demi-embryos do not need zonae pellucidae on Day 7 and that simplified field methods of bisection give normal pregnancy results.     

Bovine embryo morphology and evaluation

The following paper briefly reviews the morphology of the bovine embryo and presents a retrospective analysis of bovine embryo transfer results accumulated from April to December of 1982 at a commercial embryo transfer center. Of particular interests were bovine embryo morphology, assessment of embryo quality, and recipient-donor, recipient-embryo synchrony requirements. Embryos were recovered from superovulated donors five to nine days after estrus (estrus = day O). All embryos were individually examined at 200X for cell stage of development and embryo quality. Embryos were nonsurgically transferred to recipients that were within two days of estrous cycle synchrony with the donor. Attempts were made to synchronize estimated developmental age of embryos to the day of the recipient cycle. A high degree of variability was observed in morphological development and embryo quality within and among donors. Embryo recovery in individual donors resulted in a wide range of embryonic cell stages, often differing in estimated developmental ages from 24 to 48 hours. A total of 783 embryos were transferred, resulting in 308 pregnancies. Stage of embryonic development (16-cell through hatched blastocyst) had little effect on pregnancy rates. Embryo quality was a more accurate predictor of success. Embryos of excellent, good, fair and poor categories resulted in 45%, 44%, 27% and 20% pregnancy rates, respectively. Recipient-donor estrous cycle synchrony of two days in either direction did not significantly alter pregnancy rates. However, 88% of 258 pregnancies (584 total transfers) occurred with a +/-1 day recipient-embryo synchrony compared to 74% based on +/-1 day recipient-donor cycle synchrony (P<0.001). Results suggest that transfer of bovine embryos based on synchrony between day of recipient cycle and state of embryonic development provides higher pregnancy rates than transfers based on recipient-donor cycle synchrony.     

Human leukemia inhibitory factor improves the viability of cultured ovine embryos.

Embryos were collected from ewes on Day 6 after estrus (Day 0 = estrus), placed in M2 culture medium, and assigned to 1 of 4 treatment groups. Some embryos were transferred to recipient ewes on Day 6 of their estrous cycle either in pairs (group 1) or singularly (group 2) within 3 h of collection. The remaining embryos were individually cultured for 48 h in an atmosphere of 5% CO2 in humidified air in either synthetic oviduct fluid (SOF) medium (group 3) or SOF containing 1,000 U/ml of recombinant human leukemia inhibitory factor (hLIF) (SOF + hLIF: group 4). These embryos were then transferred to recipient ewes on Day 8 of their estrous cycle. The addition of hLIF to culture medium significantly improved the development of the embryos compared with control embryos prior to transfer (blastocysts hatching from the zona pellucida: group 3 = 16% vs. group 4 = 64%, p less than 0.05; those degenerative: group 3 = 27% vs. group 4 = 9%, p less than 0.05) and the subsequent pregnancy rates of the recipient ewes, receiving a single embryo, at Day 70 of pregnancy (group 3 = 16% vs. group 4 = 50%, p less than 0.05). The pregnancy rate of ewes given embryos cultured for 48 h in SOF + hLIF prior to transfer (50%; group 4) was similar to the group 2 ewes receiving a single embryo soon after collection (52%), but the pregnancy rate for both groups was significantly lower than that for the group 1 ewes receiving two embryos soon after collection (89%: 53% twins, 36% singles; p less than 0.05).     

Factors affecting pregnancy rates and early embryonic death after equine embryo transfer

In the present study, 638 embryo transfers conducted over 3 yr were retrospectively examined to determine which factors (recipient, embryo and transfer) significantly influenced pregnancy and embryo loss rates and to determine how rates could be improved. On Day 7 or 8 after ovulation, embryos (fresh or cooled/transported) were transferred by surgical or nonsurgical techniques into recipients ovulating from 5 to 9 d before transfer. At 12 and 50 d of gestation (Day 0 = day of ovulation), pregnancy rates were 65.7% (419 of 638) and 55.5% (354 of 638). Pregnancy rates on Day 50 were significantly higher for recipients that had excellent to good uterine tone or were graded as "acceptable" during a pretransfer examination, usually performed 5 d after ovulation, versus recipients that had fair to poor uterine tone or were graded "marginally acceptable." Embryonic factors that significantly affected pregnancy rates were morphology grade, diameter and stage of development. The incidence of early embryonic death was 15.5% (65 of 419) from Days 12 to 50. Embryo loss rates were significantly higher in recipients used 7 or 9 d vs 5 or 6 d after ovulation. Embryos with minor morphological changes (Grade 2) resulted in more (P<0.05) embryo death than embryos with no morphological abnormalities (Grade 1). Between Days 12 and 50, the highest incidence of embryo death occurred during the interval from Days 17 to 25 of gestation. Embryonic vesicles that were imaged with ultrasound during the first pregnancy exam (5 d after transfer) resulted in significantly fewer embryonic deaths than vesicles not imaged until subsequent exams. In the present study, embryo morphology was predictive of the potential for an embryo to result in a viable pregnancy. Delayed development of the embryo upon collection from the donor or delayed development of the embryonic vesicle within the recipient's uterus was associated with a higher incidence of pregnancy failure. Recipient selection (age, day after ovulation, quality on Day 5) significantly affected pregnancy and embryo loss rates.     

Early embryonic development in Thai swamp buffalo (Bubalus bubalis )

A total of 33 nonsurgical embryo collections was carried out to investigate early embryo development in Thai swamp buffalo. Collections were performed on Days 5.5, 6.0, 6.5, 7.0 and 7.5. The different stages of embryo development on these days were the 16-cell stage, compact morula, blastocyst, hatched blastocyst and hatched expanding blastocyst, respectively. In addition, some degenerating embryos and unfertilized ova were also recovered. A higher recovery rate was obtained with single embryo collection after natural estrus than after induced estrus or superovulation, 78% (7 9 ) vs 46% (6 13 ) vs 54.5% (6 11 ), respectively. A higher percentage of normal embryos was also obtained with single embryo collection after either natural or induced estrus than after superovulation, 71% (5 7 ), 83% (5 6 ) and 38% (6 16 ), respectively.     

Effect of transfer of one or two in vitro-produced embryos and post-transfer administration of gonadotropin releasing hormone on pregnancy rates of heat-stressed dairy cattle

Pregnancy rates following transfer of an in vitro-produced (IVP) embryo are often lower than those obtained following transfer of an embryo produced by superovulation. The purpose of the current pair of experiments was to examine two strategies for increasing pregnancy rates in heat stressed, dairy recipients receiving an IVP embryo. One method was to transfer two embryos into the uterine horn ipsilateral to the CL, whereas the other method involved injection of GnRH at Day 11 after the anticipated day of ovulation. In Experiment 1, 32 virgin crossbred heifers and 26 lactating crossbred cows were prepared for timed embryo transfer by being subjected to a timed ovulation protocol. Those having a palpable CL were randomly selected to receive one (n = 31 recipients) or two (n = 27 recipients) embryos on Day 7 after anticipated ovulation. At Day 64 of gestation, the pregnancy rate tended to be higher (P = 0.07) for cows than for heifers. Heifers that received one embryo tended to have a higher pregnancy rate than those that received two embryos (41% versus 20%, respectively) while there was no difference in pregnancy rate for cows that received one or two embryos (57% versus 50%, respectively). Pregnancy loss between Day 64 and 127 only occurred for cows that received two embryos (pregnancy rate at Day 127=17%). Between Day 127 and term, one animal (a cow with a single embryo) lost its pregnancy. There was no difference in pregnancy rates at Day 127 or calving rates between cows and heifers, but females that received two embryos had lower Day-127 pregnancy rates and calving rates than females that received one embryo (P < 0.03). Of the females receiving two embryos that calved, 2 of 5 gave birth to twins. For Experiment 2, 87 multiparous, late lactation, nonpregnant Holstein cows were synchronized for timed embryo transfer as in Experiment 1. Cows received a single embryo in the uterine horn ipsilateral to the ovary containing the CL and received either 100 microg GnRH or vehicle at Day 11 after anticipated ovulation (i.e. 4 days after embryo transfer). There was no difference in pregnancy rate for cows that received the GnRH or vehicle treatment (18% versus 17%, respectively). In conclusion, neither unilateral transfer of two embryos nor administration of GnRH at Day 11 after anticipated ovulation improved pregnancy rates of dairy cattle exposed to heat stress.     

Transuterine embryo migration in recipient cattle

Transuterine migration of bovine embryos following fertilization in vivo is apparently rare, but little is known about migration following embryo transfer. We studied heifers receiving either 1 or 2 in vitro produced embryos to determine 1) the incidence of transuterine migration, 2) the timing of migration and 3) the random or systematic occurrence of the event. In 4 experiments, 436 heifers received embryos and 218 of these were pregnant at necroscopy on either Day 14, Day 18, Day 26 or Day 60 of pregnancy. Overall, 43/218 (20%) of the heifers had embryos that had migrated. The frequency of migration was higher in twin (30/68) than in single (13/150) embryo transfers of pregnant recipients (44 vs 9%; P<0.001), and in contralateral (9/15) than in ipsilateral (33/170) transfers (60 vs 19%; P<0.001). Among the heifers that received embryos by ipsilateral transfer, the migration rate was similar to that in heifers pregnant with a singleton after the transfer of either 1 (2/48) or 2 (4/60) embryos (4 vs 7%, NS). The migration rate was highest at Day 26 (12/37) in heifers receiving twin embryos by ipsilateral transfer but was similar at all other stages of pregnancy (15/111, 32 vs 14%; P<0.01). Migration was first observed by Day 14, and it appears that either further migration occurred over the next 12 d or that migration was associated with a higher survival rate from Day 14 to Day 26. The low migration rate evident at Day 60 suggests that migration by Day 26 was associated with increased embryo or fetal death by Day 60. The data suggest that embryo migration is probably independent for each of a pair of surviving embryos. We conclude that in cattle embryo migration is embryo-dependent, but this capability is dormant unless more than 1 embryo is present in a uterine horn or the embryos are transferred to the contralateral uterine horn. The relationship between migration and embryo survival remains unclear.     

A procedure for successful nonsurgical embryo transfer in swine

The current study was undertaken to develop a successful procedure for the nonsurgical transfer of pig embryos. A total of 663 embryos were surgically collected on Day 4 or 5 from 55 donors, of which 542 embryos of acceptable quality were nonsurgically transferred to 46 recipients. Nonsurgical recipient gilts were sedated 15 min prior to transfer with 20 mg im acepromazine maleate. A disposable insemination spirette with an attached 3-way stopcock was manipulated into the cervix of each gilt. Embryos were expelled from a tomcat catheter into the spirette, and 10 to 12 ml of Whitten's medium were used to flush embryos through the spirette into the reproductive tract. Sixteen (34.8%) recipient gilts did not return to estrus before Day 36, and 10 (21.7%) gilts farrowed with an average litter size of 4.3 +/- 0.7. Embryos were collected from an additional 20 donors and were surgically transferred to an additional 19 recipients. Surgical transfers conducted at the same time as the nonsurgical transfers resulted in 12 (63.2%) gilts farrowing and 7.1 +/- 0.6 pigs were born per litter. In conclusion, a procedure has been developed for nonsurgical transfer of swine embryos which simplifies the process of embryo transfer and which may increase the potential for utilization of embryo transfer technologies by swine producers.     

Estimates of pregnancy outcomes based on selection of bovine embryos produced in vivo or in vitro

The objective of this study was to estimate the degree of variation among experienced evaluators selecting in vivo- or in vitro-produced embryos for transfer and to determine how this affects both the proportion of recipients becoming pregnant after transfer, and the number of embryo transfers required per pregnancy. Data from 6 experienced evaluators who graded Day 7 embryos produced either in vivo (n = 15) or in vitro (n = 15) were used to estimate these effects. The evaluators viewed video recorded images of the embryos and classified each embryo for stage of development and quality grade (1 = excellent, 2 = good, 3 = fair, 4 = degenerated and nontransferable). The statistical model considered transfer of embryos of the following individual or combined grades: Grade 1 only, Grade 2 only, Grade 3 only, Grades 1 and 2, Grades 2 and 3, and Grades 1, 2 and 3. Probabilities of pregnancy after embryo transfer were based on pregnancy rates of recipients at the facility of 1 of the 6 evaluators where the percentages of heifers pregnant after the transfer of Grade 1, 2 and 3 embryos, by embryo source, were 76, 65 and 54% (in vivo), and 59, 45 and 30% (in vitro). Within most grades, the proportion of embryos selected for transfer differed (P < 0.05) among the 6 evaluators. Although no significant differences (P > 0.10) were found among evaluators in the proportion of recipients pregnant after transfer within any embryo grade, there was substantial variation among evaluators in the proportion of recipients becoming pregnant, especially for embryos produced in vitro. Estimated percentages of heifers becoming pregnant for embryos classified as Grade 1, 2 or 3 were 66 to 76, 62 to 69, and 54 to 60%, respectively, for in vivo-produced embryos; and, 39 to 59, 15 to 45, and 24 to 32%, respectively, for in vitro-produced embryos. Approximately twice as many transfers were needed per pregnancy for embryos produced in vitro as for those produced in vivo regardless of the grade.     

Production of bovine identical twins via transfer of demi-embryos without zonae pellucidae

Embryos were collected nonsurgically from n?turally-cycling or superovulated donors 7 d after estrus. Forty-four morulae, early blastocysts and blastocysts classified as good to excellent were bisected using a fine glass needle to produce forty-four identical demi-embryos. The bisected demi-embryos, without zonae pellucidae, were nonsurgically transferred, either by twin or single transfer. An additional forty-eight embryos were collected from the same donors and transferred as a control. Among the twin transfers, 8 of the 13 recipients became pregnant (61.5%). Seven of them conceived twin fetuses (87%) and one a single fetus. However, only two sets of normal identical twin calves were obtained. Among the single transfers, 72.6% (45/62) of bisected embryos without zonae pellucidae resulted in pregnancy, of which 48.4% (30/62) were identical twins, and 24.2% (15/62) were singletons. Another 27.4% (17/62) of the recipients did not became pregnant. The pregnancy rate for whole embryos with zonae pellucidae was 72.9% (35/48). These data show that there was no significant difference between the pregnancy rates of bisected embryos without zonae pellucidae and whole embryos with zonae pellucidae transferred 7 d after estrus. Bisection of bovine embryos was simplified and even morula stage embryos were transferred without zonae pellucidae.     

Successful nonsurgical embryo transfer in buffalo (Bubalus bubalis ) in Bulgaria

Forty-one Day 5.0 to Day 5.5 embryos and one unfertilized ovum were recovered nonsurgically from 24 superovulated, parous buffalo (Bubalus bubalis ) and transferred nonsurgically to 28 synchronized recipients by a team of Bulgarian and American scientists. Five pregnancies were established and four live buffalo calves were born at the end of normal gestation periods.     

The effects of cryopreservation and transfer on embryonic development in the common marmoset monkey, Callithrix jacchus

Embryos were collected at the 4-10-cell stage from the oviducts (Day 4; Day 1 = ovulation) or as morulae (Day 7) from the uterus of marmosets and frozen in 1.5 M-DMSO (Days 4 and 7) or 1.0 M-glycerol (Day 4 only), using a slow freezing and thawing technique. Of 22 Day-4 embryos frozen in DMSO, 18 were recovered and 16 of these were transferred to 10 synchronized recipients; 7 recipients became pregnant compared with all 7 control recipients receiving 10 unfrozen embryos. Fifteen frozen-thawed morulae were transferred to 9 Day-6 recipients; the pregnancy rate (55.6%) was lower than for control embryos (85.7%). Embryos frozen in glycerol suffered severe osmotic stress during glycerol addition and removal. Of 8 recipients, 3 (37.5%) became pregnant but only one fetus was carried to term. These results on embryo collection, freezing and transfer in the marmoset have important implications for developing improved methods for freezing human embryos and the breeding of endangered primates.     

Direct transfer of bovine embryos frozen-thawed in the presence of propylene glycol or ethylene glycol under on-farm conditions in an integrated embryo transfer program

An integrated bovine embryo transfer program was conducted in collaboration with 11 Japanese prefectural livestock experiment stations. The program was conducted to evaluate the practicability of the direct transfer method for bovine embryos frozen-thawed in the presence of propylene glycol (PG) or ethylene glycol (EG) under on-farm conditions. Embryos at the compacted morula to expanded blastocyst stages were collected from superovulated donors on Day 7 or 8 after estrus and equilibrated in 1.6 M PG or 1.8 M EG in Dulbecco's phosphate-buffered saline (DPBS) supplemented with 20% heat-inactivated calf serum. Embryos were then loaded individually into a 0.25-ml straw and placed directly into a cooling chamber of a programmable freezer precooled to -7 degrees C. After 2 min, the straw was seeded, maintained at -7 degrees C for 8 min more, and then cooled to -30 degrees C either at 0.3 degree C/min or 0.5 degree C/min before being plunged into liquid nitrogen. Embryos at the same stages were also frozen in the presence of 1.4 M glycerol (GLY) by a conventional method, which served as a control. The frozen embryos were thawed by allowing the straws to stand in air for 5 to 10 sec and then immersing them in a 30 degrees C water bath. Embryos frozen-thawed in the presence of PG or EG were nonsurgically transferred into the uterine horn without diluting the cryoprotectant. Embryos frozen-thawed in the presence of GLY were nonsurgically transferred after removing GLY either by the stepwise method (GLY-I) or by in situ dilution with 0.3 M sucrose solution (GLY-II). A total of 1,273 (PG: 400, EG: 418, GLY-I: 177, GLY-II; 278) frozen-thawed embryos was transferred into recipients, yielding 545 pregnancies (overall: 42.8%, PG: 36.0%, EG; 44.7%, GLY-I; 48.6%, GLY-II; 46.0%). The pregnancy rate with PG was significantly lower than that with EG or GLY-II (P < 0.05). The pregnancy rate was affected by the type of cryoprotectant, the region where the embryo transfer program was carried out, the developmental stage of the embryos, the parity of the recipients, and corpus luteum (CL) quality of the recipients. There were no differences in rates of abortion and stillbirth among the 3 cryoprotectants. The present study demonstrates that EG can be effectively used as a cryoprotectant for freezing and direct transfer of bovine embryos, and that the direct transfer method is applicable under on-farm conditions.     

Pregnancy rates for grade 2 embryos following administration of synthetic GnRH at the time of transfer in embryo-recipient cattle

To succeed with pregnancy a bovine embryo must overcome the luteolytic mechanism and achieve recognition of pregnancy. It is understood that well developed embryos are more successful in achieving recognition of pregnancy than poorly developed ones. Attempts have been made to assist this recognition of pregnancy by utilising a number of hormonal supplements with varying levels of success. A study was undertaken to test the hypothesis that supplementation with synthetic GnRH at the time of transfer of Grade 2 embryos will enhance pregnancy rates in recipients receiving this category of embryo. Pairs of fresh and frozen Grade 2 embryos (n = 38) from 34 donor animals were allocated to the trial. Thirty eight pairs of recipients were used and one of each pair was randomly assigned to receive treatment on the day of embryo transfer (Day 7) with 5 ml of gonadorelin, containing a synthetic gonadotrophin releasing hormone, 0.1 mg/ml. Pregnancy diagnosis was carried out from 42 days post-transfer by either palpation per rectum or ultrasound scanning. Treatment, embryo processing, side of transfer, parity of recipient, breed of recipient and breed of donor dam showed no statistically significant effect on pregnancy rate. The overall pregnancy rate in this study was within commercially accepted limits for Grade 2 embryos at 38.2%. The pregnancy rates were 34.2 and 42.1% for the GnRH-treated and control groups, respectively and were not significantly different at P < 0.05. The failure of this treatment to improve pregnancy rates could be due to its effect being transitory therefore allowing subsequent pregnancy loss. The timing of the treatment post-transfer, treatment dose and potency of the GnRH analogue may also play a role in this. Further study is required to determine the hormonal or follicular status of prospective candidates for treatment before applying this as a whole herd regime.     

Synchronization of estrus in embryo transfer recipients after using a combination of PRID or CIDR-B plus PGF2alpha

The use of CIDR-B or PRID in combination with prostaglandin F2alpha (PGF2alpha) for synchronizing estrus in embryo transfer recipients was evaluated in 2 experiments. In Experiment 1, virgin heifers (n=263) were synchronized using either a PRID (including estradiol benzoate capsule) or a CIDR-B in a combined program in which devices were inserted on Day 1, an injection of prostaglandin was given on Day 6, and devices were withdrawn on Day 7. The interval from device removal to the onset of estrus was significantly shorter for CIDR-B than for PRID-treated animals (50.44 vs 55.50 hours; P<0.003). The CIDR-B treatment resulted in a similar degree of synchrony to the PRID treatment (74.0 vs 70.4%; P=0.68). InExperiment 2, cows (n=95) and heifers (n=93) were allocated at random to be synchronized using a PRID (excluding estradiol benzoate capsule) plus PGF2alpha or a CIDR-B device plus PGF2alpha. The devices were inserted on Day 1, an injection of prostaglandin was given on Day 10 and the devices were removed on Day 12. Estrus was observed earlier following the CIDR-B treatment (43.50 vs 47.04 hours; P=0.01), but the degree of synchrony was similar (76.2 vs 76.3%; P>0.10) for the CIDR-B and PRID-treated animals. In both experiments, there were no significant differences in the proportions of animals observed in estrus, selected as embryo transfer recipients, or which achieved pregnancy consequent on embryo transfer between those synchronized using CIDR-B or PRID regimens. We conclude that the CIDR-B is a suitable device for synchronizing estrus in embryo transfer recipients.     

Good quality sheep embryos produced by superovulation treatment without the use of progesterone devices

Multiple ovulation and embryo transfer (MOET) is a very important tool for the genetic improvement and preservation of endangered livestock. However, the success of a MOET programme highly depends on the number of transferable embryos in response to a superovulation treatment. Thus, the aim of this study was to compare the number and quality of embryos produced during natural oestrus under porcine FSH treatment without the use of progesterone devices to more traditional protocols. Forty Sarda sheep were divided into 2 groups: without sponges (WS) (n = 20) and with sponges (S) containing 40mg FGA for 12 d (n = 20) (control group); 350 I.U. of porcine FSH per sheep was administered in eight decreasing doses twice daily starting four days after estrus was detected (Day 0) in group WS and 48 h before sponge removal in group S. A single i.m. dose of 125 μg of cloprostenol was administered on Day 6 after estrus in group WS to induce luteolysis. Sheep were naturally mated 24 h after cloprostenol injection or sponge removal. Seven days after mating, an inguinal laparotomy was performed and the number of corpora lutea (CL) recorded. Embryos were recovered surgically by flushing each uterine horn. A total of 38 fresh and 22 vitrified embryos were transferred in pairs into 3 groups of recipients seven days after estrus detection: fresh embryos from group S (S-F) (n = 9), fresh embryos from group WS (WS-F) (n = 10) and vitrified embryos from group WS (WS-V) (n = 11). Data on the number of corpora lutea (CL), recovered ova and embryos (OER), and quality 1-2 and 3 embryos (EQ_1-2, EQ₃) per ewe were analyzed by ANOVA. Recovery (RR), fertility (FR) and quality 1-2 embryo (Q_1-2R) rates per treatment were analyzed by a Chi Square analysis. A Chi Square analysis was also applied to pregnancy rate (PR), lambing rate (LR) and twinning rate (TR) of fresh and vitrified embryos in order to analyze embryo transfer results. Among all superovulation variables analysed, results show statistically significant differences in mean number of CL/ ewe (9.3 ± 3.9 vs 7 ± 3.2), RR (67% vs 80 %) and FR (100% vs 80%) (P < 0.05) between WS and S groups respectively. There were no significant differences in PR (78%, 70% and 82%), LR (67%, 60% and 59%) and TR (71%, 71% and 44.4%) among S-F, WS-F and WS-V groups respectively. In conclusion, it is possible to produce a good number of transferable embryos during natural oestrus avoiding the use of sponges.