Progesterone and pregnant mare serum gonadotropin improve the reproductive capacity of long-term non-oestrus replacement gilts
Peng Zheng A , Fushuo Huang A , Mingjun Ma A , Yaguang Tian A and He Huang A BA College of Animal Science and Technology, Northeast Agricultural University, Harbin 150030, China.
B Corresponding author. Email: huanghe@neau.edu.cn
Animal Production Science 59(12) 2184-2190 https://doi.org/10.1071/AN18671
Submitted: 19 November 2018 Accepted: 13 March 2019 Published: 20 September 2019
Abstract
Context: It is a common problem that replacement gilts exhibit delayed oestrus and non-oestrus in pig production.
Aims: This study explored the use of progesterone and pregnant mare serum gonadotropin (PMSG) to promote oestrus and to restore the reproductive capacity of sows.
Methods: A total of 90 long-term non-oestrus replacement gilts were randomly divided into three groups. Group A consisted of 30 sows that were normally fed for 20 days, followed by injections of 1000 IU of PMSG on the morning of the 21st day and 100 μg of gonadotropin-releasing hormone on the 24th day. Group B consisted of 30 sows that were continuously fed with altrenogest (20 mg/head.day) for 18 days, followed by injections of 1000 IU of PMSG on the morning of the 21st day and 100 μg of gonadotropin-releasing hormone on the 24th day. Group C (control group) consisted of 30 sows that were normally fed for 20 days, followed by injections of 3 mL of physiological saline on the morning of the 21st day and 3 mL of saline on the 24th day. Oestrus identification was performed in all three groups, and sows underwent artificial insemination after the injection of gonadotropin-releasing hormone or saline.
Key results: We found that the follicles of long-term non-oestrus replacement gilts were not developed, and follicle diameters were <4 mm. The oestrus rate and pregnancy rate of the sows in Group B were significantly lower than those in Group A (30% vs 66.7% and 66.7% vs 90%) respectively. There was no difference in the litter size between Group A and Group B (11.2 vs 11.5). The sows in Group C exhibited no oestrus and no pregnancy. After treatment with progesterone and PMSG, the follicle diameters of sows in oestrus were significantly greater than those of sows in non-oestrus, and the levels of oestradiol, luteinising hormone and follicle-stimulating hormone were significantly higher than those of sows in non-oestrus.
Conclusions: This study showed that progesterone and PMSG treatment can alter the reproductive hormone levels and follicle diameters in long-term non-oestrus replacement gilts, promote oestrus and restore reproductive capacity in sows.
Implications: This study provides a method for the use of hormone-treated gilts to maximise the reproductive potential of gilts.
Additional keywords: fertility, hormone, oestrus cycle, reproductive barrier, swine.
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