RU2795159C1 - Method for synchronizing estrus in highly productive cows - Google Patents

Abstract

FIELD: animal husbandry; veterinary medicine.

SUBSTANCE: method for synchronizing estrus in highly productive cows is proposed, including intramuscular administration of gonadotropin-releasing hormone and vitamin A to cows at the same time, 7 days later prostaglandin, vitamin E and selenium are administered intramuscularly at the same time, the next day — an injection of prostaglandin, in 24 hours gonadotropin is administered intramuscularly to cows — releasing hormone, and in 16 hours, artificial insemination is carried out, on the 18th day after artificial insemination, gonadotropin-releasing hormone is administered intramuscularly to all cows, within 7 days, if there is estrus in females, they are artificially inseminated, on the 25th day non-inseminated cows are given an intramuscular injection of gonadotropin-releasing hormone, then in 7 days, with obvious signs of estrus, the females are inseminated, on the 32nd day, ultrasound is performed to check for pregnancy of the remaining cows on the hormone program, if single animals are detected, prostaglandin is injected intramuscularly, on the next day, intramuscular injection of prostaglandin is repeated, after 24 hours, gonadotropin-releasing hormone is administered intramuscularly, and after 16 hours, artificial insemination of cows is carried out.

EFFECT: invention provides stimulation and increase of the reproductive function of cows.

1 cl, 2 tbl

Description

The invention relates to animal husbandry, veterinary medicine, in particular to the reproduction of cattle, and can be used to regulate the reproductive capacity of cows and increase their fertility.

A known method of regulation of reproductive function in females (US Pat. No. 2076593, 1999, BI No. 10), where to restore the estrous cycle in non-cycling females (with a high degree of estrus synchronization) with functional

disorders of the ovaries, carry out a stimulating effect on the reproductive functions of the animal, for this, the females are injected intramuscularly with the benzogexonium gangliablactor at a dose of 2 mg/kg of body weight with an interval of 6 hours before the onset of the estrous cycle.

The proposed method requires additional costs for the purchase and administration of the drug to animals, and may also adversely affect the health and function of the genital organs.

A known method of synchronization of estrus and stimulation of estrogenic activity of the ovaries in cows and heifers (US Pat. No. 1811821, RF, 1984). The essence of the known method lies in the fact that in order to synchronize estrus and stimulate the estrogenic activity of the ovaries, a stimulating effect is carried out in the form of vibration massage of the vulva of cows under various modes. Cows with uterine atony - 19 sessions; for better fertility of animals - 10 days before insemination daily; for the fastest recovery of reproductive functions in newborns - 3-5 days after calving, 2-3 times a week.

The proposed method is effective when used on cows with an average level of productivity - 3500-4500 kg of milk per year, as well as labor costs, requires constant contact with the animal and equipment adjustment.

A known method of stimulating the reproductive function of cows, which involves the introduction of cows after stimulation of FFA additionally anti-FFA. Animals are treated with FFA on day 9.10 of the sexual cycle. Anti-FFA is injected before the second insemination in the ratio of FFA:anti-FFA (2: 0.9) (2:1.1), 4 days after the introduction of FFA. Thus, the long-term effect of FFA on the hormonal system of females after their insemination is removed. (Patent 2038780 07/09/1995)

The disadvantage of this method is the high cost of hormonal drugs, strict consideration of the intervals of administration, and most importantly, with the frequent use of these drugs, the hormonal background, sexual cycles are disturbed, which in the future can lead to complete infertility and the culling of highly productive animals.

A method for regulating the reproductive function of cows is known, which involves intramuscular administration to animals after calving on days 9 and 11 of a synthetic analogue of GnRH surfagon at a dose of 50 μg to 10 μg five times at intervals of 10-12 hours (Patent No. 2045179 publ. 10.10.1995)

A known method of synchronization of cows using the drug CIDR. On day 0 of the procedure, cows are vaginally injected with a CIDR progesterone insert, and 100 µg of gonadotropin-releasing hormone (GnRG) is also injected intramuscularly. On day 7, the progesterone insert is removed and 25 mg of dinoprost (prostaglandin F2a) is administered. On the 9th day, the cow is artificially inseminated by the rectocervical method and injected with 75 µg of GnRG. On day 28 (19 days post-breeding), the progesterone insert is reintroduced vaginally and the cow is injected with 100 μg GnRG. On the 35th day, the progesterone insert is removed and the cow is examined by ultrasound to determine pregnancy. (US 7732408 B2 06/08/2010)

A known method of synchronizing ovulation in cattle by sequential administration of hormones. A hormone selected from the group consisting of gonadotropin-releasing hormone (GnRG) is administered to the cow during the estrous cycle to stimulate the development of follicles. Prostaglandin F ₂ α (PGF ₂ α) is then administered to initiate regression of the corpus luteum approximately five to eight days after GnRH administration. A second dose of GnRG is then administered simultaneously with PGF ₂ α, or approximately three days after the PGF ₂ α injection. This second dose of hormone acts to stimulate ovulation of the dominant follicle and the cow is then inseminated within one day of the second dose of hormone. (US 5589457A 12/13/1996)

The most common heat synchronization protocol for dairy cattle is the OvSynch protocol developed in 1995 by Pursely. (Pursley J.R., Mee M.O., Wiltbank M.C. Ovulation in Dairy-Cows Using Pgf(2-Alpha), and Gnrh. Theriogenology. 1995; 44:915-923.) The program consists of a first injection of GnRG to eliminate any dominant follicle and initiation of a new follicular wave within 1 or 2 days. This injection is followed 7 days later by a luteolytic dose of PGF2a or analogues to eliminate any lutein activity (i.e. regression of the corpus luteum). The dominant follicle is expected to grow to ovulatory size within 48 hours after PGF2a administration. Cows on this timing program receive a second injection of GnRG 56 hours after PGF2a and are inseminated 72 hours later.

The disadvantage of this method is the inability to diagnose non-pregnant females during the hormone program, thereby increasing the number of days before fruitful insemination.

The purpose of the invention is to activate the function of the ovaries and accelerate the restoration of the sexual cycle after calving, reduce the frequency of violations of the process of involution of the genital organs, increase fertility and shorten the period before fertilization.

The objective of the invention is to improve the quality of stimulation of sexual cycles in cows in the early postpartum period.

EFFECT: stimulation and increase of the reproductive function of cows, activation of the functional state of the ovaries, resumption of full-fledged estrous cycles and estrus in cows in the postpartum period and an increase in the ability of their body to fertilize.

The technical result is achieved by applying a method for synchronizing estrus in highly productive cows. The synchronization program began on Monday, cows were intramuscularly injected with gonadotropin-releasing hormone (GnRG), as well as vitamin A, which increases the cytotoxic activity of the cells of the uterine mucosa and uterine glands. Gonadotropin-releasing hormone (GnRG) stimulates the adenohypophysis to secrete follicle-stimulating hormone (FSH) and luteinizing hormone (LH). An increased level of these hormones in the blood of animals promotes folliculogenesis in the ovaries, the secretion of estrogen hormones by the follicles, the manifestation of estrus and ovulation.

Then 7 days later, on Monday, prostaglandin (PGF ₂ α ) plus vitamin E and selenium were injected intramuscularly. The selenium-containing drug protects cells from reactive oxygen species, thereby preventing damage to sperm and eggs. And vitamin E contributes to an increase in liver function, activation of hepatocytes and antioxidant protection of lipid peroxidation. Then the next day on Tuesday intramuscular injection of prostaglandin (PGF ₂ α) was repeated. An increase in the frequency of prostaglandin use contributes to the rapid lysis of the corpus luteum and the activation of local immunity of the uterine mucosa, as well as to increase the tone of the smooth muscles of the uterus. Gonadotropin-releasing hormone (GnRG) was administered intramuscularly to cows on Wednesday, and artificial insemination was performed 16 hours later.

On the 18th day after artificial insemination, gonadotropin-releasing hormone is administered intramuscularly to all cows, estrus is diagnosed in females within a week and, if available, they are artificially inseminated. On the 25th day, non-seed cows are given an intramuscular injection of gonadotropin-releasing hormone, then they are observed for 7 days and, with obvious signs of estrus, the females are inseminated. For a pregnant cow, this injection is safe and prevents early embryonic mortality. On the 32nd day, an ultrasound is performed to determine the pregnancy of the remaining cows on the hormone program, if single animals are detected, prostaglandin is injected intramuscularly, the next day, the intramuscular injection of prostaglandin is repeated, after 24 hours, gonadotropin-releasing hormone is administered intramuscularly, and after 16 hours artificial insemination of cows is carried out.

As a result, the days of infertility in cows are significantly reduced and the period before fruitful insemination is reduced.

To determine the effectiveness of the developed method for synchronizing estrus in highly productive cows, two groups of cows were formed, 40 heads each.

In the experimental group, we used the method of estrus synchronization developed by us in highly productive cows according to Table 1, which presents the scheme of estrus synchronization. As a gonadotropin-releasing hormone, for example, Fertagil was used at a dose of 2.5 ml, and Fertadin was used as a prostaglandin at a dose of 2 ml. As a preparation containing Vitamin E and selenium, a complex vitamin-microelement preparation E-silen was used at a dose of 15 ml, and Tetramag at a dose of 5 ml was used as vitamin A.

In the control group of cows, the Ovsynch hormone synchronization program was used. The Ovsynch regimen consists of two injections of a GnRG analog, with PGF ₂ α administered intramuscularly in between. GnRG hormone is administered on days 0 and 9, and prostaglandin (PGF ₂ α) is administered on day 7. Cows are artificially inseminated 16 hours after the last injection of GnRG. As a gonadotropin-releasing hormone, for example, Fertagil was used at a dose of 2.5 ml, and Fertadin was used as a prostaglandin at a dose of 2 ml.

The results were determined by the number of pregnant animals during rectal ultrasound examination and reflected in table 2, which provides a comparative assessment of the effectiveness of estrus synchronization programs.

According to the processed data, it was found that the percentage of the first insemination with the developed method of estrus synchronization in highly productive cows is 17.5% higher compared to the Ovsynch synchronization scheme. This is due to the fact that GnRG injection on day 18 after the first artificial insemination in non-pregnant cows promotes the manifestation of clinical signs of estrus and ovulation of the dominant follicle, which allows repeated insemination of cows. In the presence of pregnant cows on the 18th day of pregnancy, an injection of GnRG can prevent early embryonic mortality. Also on day 25, which is 7 days before the ultrasound for pregnancy, the introduction of GnRG for non-pregnant females reduces the number of days for the subsequent administration of hormones to synchronize heat, thereby reducing the number of days before fruitful insemination.

Claims (1)

A method for synchronizing estrus in highly productive cows, including the administration of gonadotropin-releasing hormone and prostaglandin, characterized in that cows are simultaneously intramuscularly injected with gonadotropin-releasing hormone and vitamin A, after 7 days prostaglandin, vitamin E and selenium are simultaneously injected intramuscularly, the next intramuscular injection of prostaglandin is repeated on the day, after 24 hours the cows are injected intramuscularly with gonadotropin-releasing hormone, and after 16 hours artificial insemination is carried out, on the 18th day after artificial insemination, all cows are injected intramuscularly with gonadotropin-releasing hormone, within 7 days they are diagnosed with sexual hunting in females and, if available, is artificially inseminated, on the 25th day, non-inseminated cows are given an intramuscular injection of gonadotropin-releasing hormone, then they are observed for 7 days and, with obvious signs of estrus, the females are inseminated, on the 32nd day, ultrasound is performed for pregnancy of the remaining cows on the hormone program, if single animals are detected, prostaglandin is injected intramuscularly, the next day the intramuscular injection of prostaglandin is repeated, after 24 hours gonadotropin-releasing hormone is administered intramuscularly, and after 16 hours cows are artificially inseminated.