73 Use of embryo transfer technology to salvage the germplasm of elite dromedary camels (Camelus dromedarius) infected with brucellosis
H. A. Abouhefnawy and N. A. WaniReproductive Biotechnology Centre, Dubai, United Arab Emirates
Reproduction, Fertility and Development 33(2) 144-144 https://doi.org/10.1071/RDv33n2Ab73
Published: 8 January 2021
Abstract
The present study was conducted to evaluate the potential of embryo transfer technology to salvage in vivo-produced embryos from elite dromedary camels infected with brucellosis without transmission of the pathogen to the recipients or offspring. Ten elite racing champions who tested positive for brucella comprised the experimental group, whereas 3 donors negative for brucella acted as the control. Each donor animal received a combination of 2500 IU of equine chorionic gonadotrophin (eCG; Folligon; Intervet), given as a single intramuscular injection on Day 1 of the treatment protocol, and 400 mg of pFSH (Folltropin; Bioniche), injected twice daily in declining doses of 2 × 80 mg, 2 × 60 mg, 2 × 40 mg, and 2 × 20 mg over 4 days, also beginning on Day 1. They were mated with a fertile bull on the 11th day after the start of treatment. The donors of the group 1 received a combination of tetracycline, and streptomycin on alternate days for 2 weeks before mating with a fertile male. An injection of 20 µg of gonadotrophin-releasing hormone (Receptal, Intervet) was given to them immediately after mating to induce ovulation. The embryos were collected by the non-surgical method on Day 7 day after ovulation as per the guidelines published by IETS. All embryos were washed at least 3 times in holding medium supplemented with antibiotics and then transferred individually into the left uterine horn of synchronized recipients. All recipients and calves born were tested for brucellosis every 3 weeks. The data were analysed using a two-sample t-test (Minitab statistical software, Minitab Ltd.). Results are shown in Table 1. No difference was observed in the number of embryos collected per flushing and pregnancies established at Day 60. The proportion of pregnancies reaching term from the total number of embryos transferred and from the pregnancies established on Day 60 did not differ from embryos obtained from brucella-infected and control donors. All recipients tested negative for brucellosis during their gestation and until weaning. All calves born were also negative for brucellosis on birth and until weaning and handing over to clients. In conclusion, this is the first study in camels wherein we have demonstrated that in vivo-produced embryos from elite dromedary females infected with brucellosis could be collected and transferred to synchronized recipients without transmitting the pathogen to the recipients or offspring.