Successful implantation of in vitro-matured, electro-activated oocytes in the pig.

In the present study, we derived parthenogenetic porcine fetuses from in vitro-matured oocytes following a simple activation process in order to evaluate their developmental limitations in-vivo. Follicular oocytes collected from gilts at local slaughterhouses were matured for 48 h. They were subjected to a single square pulse of direct current for 100 microsec at 1,500 V/cm and then treated with 5 microg/mL cytochalasin B for 4 h to obtain activated diploid oocytes. The diploids were cultured in modified Whitten's medium until transfer. Diploids which had cleaved to the 2- and 3- to 4-cell stages were transferred to oviducts of recipients. Live and/or dead parthenogenetic fetuses were recovered in 6 of 8 trials at 17, 18, 19, 24 and 29 d post activation. The total proportion of fetuses to transferred diploids was 31.3% (62/198). When fetuses were recovered at 19 d post activation, the proportion of development into fetuses was 71% (15/21). Our results, however, suggest that periods of gestation longer than 19 d resulted in a decrease of these proportions to 45% (18/40) at 24 d and to 18% (7/40) at 29 d. The hearts were beating in nearly all of the fetuses recovered at 19, 24 and 29 d post activation. Thus, parthenogenetic porcine diploids developed to at least the stage of limb-bud formation beyond the early heart-beating stage. Abnormalities were also externally visible on some fetuses. Formation of cyst-like structures in the heart and liver, and insufficient development of the head region and acephali were observed in some cases.