P.L.A.M. Vos

Effect of different stages of the follicular wave on in vitro developmental competence of bovine oocytes

This study aimed to investigate the developmental competence of ovum pick-up collected oocytes on three stages of the follicular wave: Days 2, 5 and 8. A group of 11 cows was used in successive cycles to perform ovum pick-up on either Day 2, 5 or 8 of an induced follicular wave (three sessions per stage). Follicular waves were initiated by puncturing the dominant follicle and all other follicles sized > or = 5 mm at Days 5-7 of the cycle. The plasma progesterone concentrations did not differ between the days of ovum pick-up: 4.0 +/- 1.8, 5.1 +/- 1.6 and 5.2 +/- 1.7 ng/ml for Days 2, 5 and 8, respectively. The proportion of oocytes with three or more layers of non-expanded cumulus cells was higher for Day 5 than Day 8, while Days 2 and 5 did not significantly differ from each other (85, 96 and 68% of 113, 60 and 101 oocytes for Days 2, 5 and 8, respectively). The proportion of oocytes competent to develop a blastocyst in an in vitro production system was higher for Days 2 and 5 than for Day 8: 27, 29 and 15% for the oocytes with fair to good cumulus investment and 23, 27 and 11%, respectively, when all oocytes were taken in account. This indicates that the dominant follicle reduces the developmental competence of oocytes from subordinate follicles at a relatively late stage of dominance. This finding has practical consequences for the handling of cows that undergo ovum pick-up only once or very irregularly. The embryo yield can then be improved by performing the ovum pick-up at Days 2-5 of the cycle or 2-5 days after ablation of the large follicles.

PMSG/anti-PMSG in cattle: a simple and efficient superovulatory treatment

Abstract Superovulation in cattle still produces rather variable results with regards to ovulation rate and yield of transferable embryos. In recent years PMSG superovulation procedures have included the administration of antibodies against PMSG around estrus to suppress the adverse effects of residual PMSG by neutralization. However, results from the various investigators have been inconsistent. The objective, therefore, of this review paper is to analyze these results on the basis of the physiology of follicular development. Two major factors determine the outcome of PMSG/anti-PMSG superovulatory treatment: 1) the timing of injection of anti-PMSG. When anti-PMSG is administered at any time before the maximum of the preovulatory LH peak an adverse effect is produced with regards to enhancing the yield of transferable embryos. 2) the variation in the primary response of cows. In general, superovulation procedures show a large variation which in case of the PMSG/anti-PMSG treatment can obscure the potential beneficial effects of anti-PMSG injection. Although injection of anti-PMSG shortly after the LH peak is difficult under practical conditions, there are possibilities for making the PMSG/anti-PMSG superovulatory treatment more efficient, beit less simple.

Evaluation of transvaginal ultrasound-guided follicle puncture to collect oocytes and follicular fluids at consecutive times relative to the preovulatory LH surge in eCG/PG-treated cows

Holstein-Friesian cows (n=56) were synchronized with Syncro-Mate B, and those cows (n=47) developing a normal progesterone pattern were further treated im with 3,000 I.U. eCG at Day 10 and 22.5 mg PGF2alpha 48 h later. Blood samples were collected every hour from 30 until 49 h after PG administration. Cows (n=17, 36.2%) with fewer than 8 follicles larger than 8 mm in diameter at 28 to 30 h after PG treatment and animals without an LH peak (n=7, 23%) were excluded from the study. Transvaginal ultrasound-guided puncture of the follicles was carried out two times per cow, at 30 h after PG injection (4 to 5 follicles) and again at 1 to 5 (n=6), 12 (n=8) or 22 h (n=9) after the LH peak. No differences in the concentrations of progesterone and LH were observed among the 3 groups. An average of 18 follicles per cow was punctured (total of 415 punctures, n=23); 116 cumulus-oocyte-complexes and 370 follicular fluid samples were obtained producing average recovery rates of 28.0% and 89.2%. The number of cumulus-oocyte-complexes varied between puncture times; shortly before ovulation, at 22 h after the LH peak, the recovery rate was significantly 5 times higher than immediately after the LH peak. Overall, in 75 punctures the cumulus-oocyte-complex was accompanied by a pure follicular fluid sample (3.3 per cow). In conclusion, the transvaginal ultrasound-guided puncture of preovulatory-size follicles can be used to collect follicular fluids to study changes in the microenvironment of maturing oocytes upon superovulation. However, further research is required in order to obtain an equivalent number of accompanying cumulus-oocyte-complexes.

Bovine OPU-Derived Oocytes can be Matured In Vitro for 16–28 h with Similar Developmental Capacity

The aim of this study was to determine the optimal maturation culture period of ovum pick up (OPU)-derived cumulus oocytes complexes (COCs) in relation to their developmental capacity. Embryo production, embryo cryotolerance, post-transfer embryonic survival and calf characteristics such as gestation length, birthweight and sex ratio were investigated. This retrospective study covers the analyses of ovum pick up -in vitro production and calving results from a commercial programme that took place between March 1994 and September 2004. Donors were both heifers (of which approximately 90% pregnant) and cows (of which approximately 10% pregnant). Embryo production analyses were based on 7800 OPU sessions conducted from January 1995 until January 1999. Analyses of calving rate were based on 13 468 embryo transfers performed during January 1995 until May 2002. Analyses on calf characteristics were based on 2162 calves born between March 1994 and September 2004. The in vitro maturation culture period ranged from 16 to 28 h. The mean production rate of transferable embryos was 16.5% (1.2 embryos per OPU session). Length of maturation culture period did not affect the production of transferable embryos. Mean calving rate was 40.9% and 38.7% for fresh and frozen/thawed embryos, respectively. Calving rate was not affected by the maturation culture period. Mean birthweight, gestation length and proportion of male calves were 46 kg, 281.9 days and 52.8%, respectively. Maturation culture period did not affect these variables. In conclusion, this study shows that the in vitro maturation culture period within the range of 16-28 h does not affect in vitro embryo production, embryo cryotolerance, post-transfer embryonic survival and calf characteristics, suggesting that all COC batches collected by OPU on the same day, can be fertilized in one IVF session without a significant loss in the production from oocyte to calf.

Effects of Superovulation with oFSH and Norgestomet/GnRH-Controlled Release of the LH Surge on Hormone Concentrations, and Yield of Oocytes and Embryos at Specific Developmental Stages

The objective of this study was to evaluate a new superovulation procedure with oFSH after temporary suppression of the endogenous LH surge by norgestomet followed by administration of GnRH, to collect bovine oocytes and embryos at specific developmental stages. Since 1999, our research group applies this superovulation procedure with controlled release of the endogenous LH surge. The objective of this study is to verify if this procedure is reliable for collection of oocytes and embryos at specific time points of development and if it produces a sufficient number of both oocytes and embryos of good quality. This procedure was validated regarding to hormonal characteristics, superovulatory response and both oocyte and embryo yield at different times of in vivo development. The results demonstrate that the procedure used to control the occurrence of the pre-ovulatory LH surge was effective in 92% of the animals (n = 238) and even in 99% of the animals the oocytes and embryos were collected at the intended stage of development. The superovulatory response and both oocyte, embryo yield and quality were similar to the average yield in Europe reported by Association Européenne de transfert embryonnaire (AETE). In conclusion, this superovulation procedure provides a valid tool to collect oocytes and embryos at specific time points of development.

The role of the major histocompatibility complex in bovine embryo transfer

Abstract An intact maternal immune system is not essential for successful reproduction but there is good evidence indicating that it plays an important role during pregnancy. The most prominent candidates for maternal immune recognition are the Major Histocompatibility Complex (MHC) antigens. We have investigated the role of embryo-recipient MHC-compatibility in vivo by studying pregnancies after transfer of embryos into 100% compatible or 100% incompatible heifers. Our results showed that MHC antigens are selectively recognized by the immune system of the recipient and suggest that they can influence the outcome of pregnancy. If these results can be confirmed in larger scale studies, new strategies to improve ET pregnancy rates could be applied.