Abstract
The conventional method of ovarian superstimulation requires multiple injections of gonadotropins which is time-consuming and may be stressful for the cows. This study was designed to determine whether a single epidural injection of FSH (EI group) would induce the superovulatory response in the Thai-Holstein crossbreed and evaluate FSH plasma hormone concentrations. Eight cows (replication = 3; n=24) were assigned to one of 2 treatments in switch back design. Control group (n=12): cows were received 400 mg FSH twice daily by intramuscularly for 4 days (80, 80, 60, 60, 40, 40, 20 and 20 mg), EI group (n=12): cows were received 400 mg FSH by single epidural injection. Data were collected in term of ovarian follicle responses, superovulatory responses, ova/embryo collection. FSH concentrations were examined using ELISA. The total follicular responses during oestrus were not different between treatments; however, the large follicles were less frequent (P < 0.01) while the medium follicle sizes were higher (P < 0.05) in the EI group. The plasma concentration of FSH in EI was dramatically increased within 2 hours before decreasing sharply thereafter (P < 0.01) and did not remain above baseline after 10 hours of administration. The embryo quality was better in the control than the EI groups (P < 0.05). Interestingly, the number of ovulation cysts in the EI group was 50%. The ovarian responses and embryo quality in the cows with cysts were worse compared with the non-cyst groups (P < 0.05). In conclusion, alternative protocols decreased the superovulatory response and increased poor embryo quality in Thai-Holstein crossbred. Also, the incidence of ovarian follicular cysts is higher in the EI group.
Highlights
To increase the numbers of high genetic animals, superovulation and embryo transfer are effective tools which are widely used in many countries (Parker Gaddis et al, 2017)
Many previous studies proposed solving this issue by administering Follicle stimulating hormone (FSH) dissolved in various agents that provide a slow release, such as polyvinylpyrrolidone (PVP)(Yamamoto et al, 1994; Takedomi et al, 1995; Ratsiri et al, 2021) and aluminium hydroxide gel (AH-gel) in cattle (Kimura, 2016)
The epidural injection (EI) group showed less superstimulation compared to the control group (66.7 and 91.7%; P < 0.01)
Summary
To increase the numbers of high genetic animals, superovulation and embryo transfer are effective tools which are widely used in many countries (Parker Gaddis et al, 2017). Many previous studies proposed solving this issue by administering FSH dissolved in various agents that provide a slow release, such as polyvinylpyrrolidone (PVP)(Yamamoto et al, 1994; Takedomi et al, 1995; Ratsiri et al, 2021) and aluminium hydroxide gel (AH-gel) in cattle (Kimura, 2016). Those diluting agents make the solution viscous and difficult to prepare well with FSH. Those protocols come with the cost of slow-release agents
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