ABSTRACT
We investigated the feasibility of piglet production by non-surgical embryo transfer (Ns-ET) of vitrified porcine blastocysts and expanded blastocysts transported to commercial farms and warmed on site (V/T/W embryos). Ns-ET was performed by depositing 11-20 vitrified and warmed embryos at a proximal site within the uterus via a catheter. In Experiment 1, the effect of donor-recipient estrous cycle asynchrony on the efficiency of Ns-ET of vitrified and ordinary warmed embryos was investigated at the experimental facility. With a 1-day delay recipients relative to that of donor, the farrowing rate was 50.0% and the survival rate to term was 21.1%. In Experiment 2, Ns-ET using recipients with a 1-day delay and vitrified embryos after one-step warming and dilution was evaluated at the experimental facility. Although the resulting farrowing rate was 42.9%, the survival rate was 6.4%. In Experiment 3, Ns-ET was conducted using V/T/W embryos at four commercial farms, where piglets derived from them were produced. When artificial insemination was conducted prior to Ns-ET, the farrowing and survival rates obtained using V/T/W embryos were 75.0%, and 21.3%, respectively. These results show that Ns-ET of V/T/W embryos using this protocol would be feasible for piglet production at farms.
Subject(s)
Blastocyst , Breeding/methods , Cryopreservation/methods , Cryopreservation/veterinary , Embryo Culture Techniques/methods , Embryo Culture Techniques/veterinary , Embryo Transfer/methods , Embryo Transfer/veterinary , Insemination, Artificial/methods , Insemination, Artificial/veterinary , Animals , Estrous Cycle , Farms , Feasibility Studies , Female , SwineABSTRACT
This study aimed to compare the efficiency of non-surgical embryo transfer (ET) using a newly developed catheter, which enables transferring embryos into a proximal site of the uterus (mostly uterine body), and surgical ET of vitrified porcine embryos. In Experiment 1, the catheter was inserted into 12 gilts, with each half of the group allocated to skilled or novice operators. The time required for insertion into the uterus did not differ between skilled and novice operators (4 min 9 s and 4 min 6 s, respectively). In Experiment 2, 12 gilts were used as recipients for non-surgical and surgical ET with vitrified embryos (n = 6, each). There was no significant difference in the rate of piglet production based on the number of transferred embryos between surgical and non-surgical ET (25.8% vs. 15.4%, p = .098). The results suggest that non-surgical ET catheter allowed for easy insertion and transfer of embryos without special training. Although the catheter is effective for deposition of embryos into the proximal site of uterus, the efficiency of piglet production is not enhanced compared with surgical ET. The ET method using this catheter, being labor-saving and less-invasive, may contribute to the improvement of ET in pigs.