Effects of cryoprotectants and cryoprotectant combinations on viability and maturation rates of Camelus dromedarius oocytes vitrified at germinal vesicle stage.

Camel fertility faces many problems, which could be solved by assisted reproductive technologies (ARTs). We designed the experiment to explore the effect of different cryoprotectant concentrations and combinations on viability and maturation rates of vitrified/warmed camel oocytes. We collected ovaries directly after slaughtering from local abattoir and transported them to laboratory in a thermo-flask containing normal physiological saline. We aspirated the oocytes from follicles, which is 2-8 mm in diameter, washed three times in TCM-199 and then examined under stereo-microscope for selection. We selected morphologically normal oocytes with an evenly granulated cytoplasm and a compact cumulus cell layer. We equilibrated morphologically normal oocytes in equilibration solution (ES), which is half concentration of vitrification one. After equilibration, We transported oocytes to vitrification solution using ethylene glycol (EG, 40%), dimethyl sulphoxide (DMSO, 40%) and EG 40% + DMSO 40%. The obtained results revealed that addition of EG 40% + DMSO 40% resulted in the best quality of vitrified/warmed oocytes, which is demonstrated by higher per cent survival rate (90.16%) and maturation rate (58.95%). While DMSO 40% resulted in 62.79% and 29.54%, respectively, EG 40% reported 86.11% and 53.47%, respectively. We could conclude that vitrification of immature camel oocytes by using 40% EG + 40% DMSO is suitable methods to limit drawbacks of vitrification methods, and we need further studies to assess the ability of in vitro-produced blastocyst to develop in vivo and establish pregnancy after embryo transfer.

Effect of different vitrification solutions and cryodevices on viability and subsequent development of buffalo oocytes vitrified at the germinal vesicle (GV) stage.

The cryopreservation of immature oocytes would generate a readily available, non-seasonal source of female gametes for research and reproduction. In domestic animals, the most promising results on oocyte cryopreservation have been reported in cattle, few studies have been conducted on buffalo. The aim of the present study was to compare the use of different vitrification solutions and various cryodevices on viability and developmental competence of buffalo oocytes vitrified at the germinal vesicle (GV) stage. Cumulus oocyte-complexes (COCs) obtained at slaughterhouse from mature buffalo ovaries were randomly divided into three main groups and vitrified by using either straw or open pulled-straw (OPS) or solid surface vitrification (SSV) in a solution composed of either 20% ethylene glycol (EG) + 20% glycerol (GLY); VS1 or 20% EG + 20% dimethylsulfoxide (DMSO); VS2, respectively. Following vitrification and warming, viable COCs were matured in vitro for 22 h. Some COCs were denuded and stained with 1.0% aceto-orcein to evaluate nuclear maturation, whereas the others were fertilized and cultured in vitro for 7 days to determine the developmental competence. Although the recovery rate (64.9%) was the lowest in the oocytes vitrified by SSV using 20% EG + 20% DMSO as compared to the other groups, the best survival rate of the COCs was achieved in the same treatment (96.7%), which was significantly higher (P < 0.05) than those vitrified using traditional straws (71.8% in VS1 and 73.6% in VS2) or those vitrified using OPS and VS1 (73.9%). Furthermore, in the nuclear maturation test, the highest maturation rate (75.5%) was achieved in SSV vitrified COCs using 20% EG + 20% DMSO (VS2), which was similar to the controls (77.1%). Post IVF and embryo culture, the highest cleavage and blastocyst development rates were obtained in COCs vitrified in 20% EG + 20% DMSO using SSV (47.1% and 24.0%, respectively), which showed no difference from the controls (61.2% and 46.9%, respectively). Our results clearly show that the combination of SSV and 20% EG + 20% DMSO could be used effectively to vitrify GV stage buffalo COCs.

Caffeine supplementation during IVM improves frequencies of nuclear maturation and preimplantation development of dromedary camel oocytes following IVF.

Caffeine supplementation during oocyte IVM has been reported to improve preimplantation embryo development and the quality of in vitro-produced blastocysts in a range of species; but no studies have been done in camels. The present study investigated the effect of caffeine supplementation during dromedary camel oocyte IVM on nuclear maturation rates, IVF events, and subsequent preimplantation development. Cumulus-oocyte complexes obtained at slaughter were matured in vitro in caffeine supplemented medium either for 30 hours (caffeine 30 hours) or in the medium without caffeine supplement for 24 hours and then transferred to freshly prepared IVM medium supplemented with 10 mM caffeine for another 6 hours (caffeine 6 hours). Cumulus-oocyte complexes matured for 30 hours in the medium without caffeine supplement were used as a control. Matured oocytes were fertilized in vitro by epididymal spermatozoa of mature male camels collected from a local slaughterhouse. Eighteen hours after insemination, presumptive zygotes were cultured in modified KSOMaa medium for 7 days. Maturation and fertilization rates were significantly higher in the caffeine 6-hour group compared with the control group (P < 0.05), whereas IVM of oocytes in caffeine-supplemented medium for 30 hours did not affect these parameters (P > 0.05). Interestingly, IVM of oocytes in caffeine supplemented medium for 6 hours significantly (P < 0.05) increased the frequencies of blastocyst development by more than two-fold when compared with control (27.78% vs. 11.76%). In conclusion, culturing dromedary camel oocytes in maturation medium without caffeine for 24 hours and then in the medium supplemented with 10 mM caffeine for 6 hours during 30-hour IVM can significantly improve frequencies of nuclear maturation, fertilization rate, and subsequent preimplantation development.