RU2808596C1 - Method of increasing fertility of cows from frontal insemination - Google Patents

Abstract

FIELD: animal husbandry.

SUBSTANCE: method of increasing the fertility of cows from frontal insemination is characterized by the following: the cows are synchronized with sexual heat: on the 1st day, the first injection of the gonadotropin-releasing hormone “Surfagon” is administered intramuscularly to the cows at a dosage of 5 ml/head, on the 8th day the second injection is given of prostaglandin Ϝ2α "Estrophan" at a dosage of 2.5 ml/animal, on the 10th day the third injection — gonadotropin-releasing hormone "Surfagon" at a dosage of 5 ml/animal, with artificial insemination without detection of heat on the 11th and 12th days, and in this case, during the period of synchronization of sexual heat, cows are fed with krezacin together with grain feed at a dosage of 2 g/head daily for 10 days.

EFFECT: invention makes it possible to increase the number of fertilized cows during frontal insemination.

1 cl, 3 tbl, 1 ex

Description

FIELD OF TECHNOLOGY TO WHICH THE INVENTION RELATES

The invention relates to the field of animal husbandry, in particular reproductive biotechnology, namely to methods aimed at increasing the fertility of cows during synchronization of heat and frontal insemination, and can be used to increase the yield of calves obtained from artificial insemination.

BACKGROUND OF THE ART

The efficiency of livestock breeding directly depends on the quality of the work carried out on reproduction in the herd [1]. In recent decades, along with an increase in the productivity of cows, there has been a decrease in their fertility level [2, 3], which in turn negatively affects the economic condition of the enterprise [4]. Therefore, in order to increase the intensification of production and increase the level of fertility, it is necessary to artificially regulate reproductive processes within the herd, which is achieved by using hormonal schemes for synchronizing sexual heat in cows in order to obtain offspring in the required period [5]. Frontal insemination is a very technological process that allows calving in a short time, thereby regulating the production of offspring in a certain period. But, along with all the positive aspects, insemination results rarely exceed 50%. Therefore, increasing the fertility rate from frontal insemination is of high relevance [6, 7].

There is a well-known patent RU 2306944 “Method of early stimulation of sexual cyclicity in cows after childbirth” [8], which describes how cows are administered subcutaneously at a dosage of 20 ml/cow/day no more than 10 days before birth or immediately after birth with the drug PDS (denatured suspended placenta ). The disadvantage of this experience is the need to work with cows immediately before birth or in the early post-calving period.

There is a well-known patent RU 2785290 “Method of synchronizing the reproductive cycle of cows for artificial insemination” [9], according to which, when performing the Ovsynch scheme, cows are additionally administered vitamin preparations “E-selenium” and “Eleovit”, thereby increasing the fertility of animals. The disadvantage of this method is the requirement to administer drugs with precision expressed in hours, which is difficult in production conditions.

The closest analogue of the proposed method is patent RU 2206989 “Stimulator of the reproductive ability of female fur-bearing animals and the viability of their offspring.” The method involves feeding krezacin to female fur-bearing animals during the rut at a dosage of 5 mg/kg live weight. This contributed to a reduction in emptying by 20.0%, successful whelping and an increase in the viability of puppies by 5.0% [10].

The main difference of the proposed method is that the drug is used on cattle not during spontaneous heat, but in a scheme for synchronizing heat with hormonal drugs.

To synchronize sexual heat, estrofan and surfagon were used.

Estrofan (cloprostenol) is a synthetic functional analogue of prostaglandin F2a and has a specific luteolytic effect. The administration of the drug promotes the resorption of the corpus luteum and thus creates the prerequisites for the onset of sexual heat and ovulation. The period from the administration of the drug to the appearance of the first signs of sexual heat is 48-60 hours, the most suitable period for artificial insemination is the 76th hour from the moment of administration of the drug. The period of elimination of the drug from the body is 24 hours. In terms of the degree of impact on the body, estrofan belongs to hazard class 3 according to GOST 12.1.007-76 (moderately hazardous substances). Registration certificate 203-3-29.13-4402 No. PVI-3-0.2/01095, manufacturer - Bioveta JSC, 68323, Czech Republic, Ivanovice na Hana, st. Comenius 212.

Surfagon is a hormonal drug, an analogue of the gonadotropin-releasing hormone luliberin. It stimulates the release of pituitary gonadotropic hormones luteinizing (LH) and follicle-stimulating hormone (FSH) into the blood with a peak 2-3 hours after administration. The increased content of gonadotropins in the blood persists for 3-4 hours after administration. The specific activity of Surfagon is approximately 50 times higher than that of the natural releasing hormone luliberin, which ensures its stronger biological effect on the gonadotropic function of the pituitary gland. In terms of the degree of impact on the body, surfagon is classified as a moderately hazardous substance (hazard class 3 GOST 12.1.007-76). Registration number 77-3-9.13-1409 No. PRR-3-1-1/00614, manufacturer JSC Mosagrogen, 117545, Moscow, 1st Dorozhny pr-d 1.

The technical result of the present invention is to increase the number of fertilized cows during frontal insemination due to the inclusion of new elements in the heat synchronization scheme.

The result is achieved by the fact that when performing the Ovsynch synchronization scheme, an additional oral application of the general-action biostimulant krezacin, an analogue of plant growth hormones (auxins), is carried out. Krezatsin - tris (2-hydroxyethyl) ammonium ortho-kresoxyacetate, synthesized at the Irkutsk Institute of Organic Chemistry, belongs to the class of adaptogens and immunomodulators.

Krezacin is a crystalline powder with a yellowish, creamy or grayish tint, highly soluble in water, has a specific odor, and is non-toxic. Krezacin activates the pituitary-adrenal system, stimulates protein biosynthesis, and activates ATPases. Stimulates the humoral response, affects the production of cytokines, erythropoiesis, functional properties of hematopoietic stem cells, induces interferon production, reduces the content of circulating immune complexes, increases blood serum lg G. Registration number 09-507-0074(75-76)-0, manufacturer LLC TsVP "Innocom", 664058, Russia, Irkutsk, st. Vampilova, 30-58.

The theoretical basis for the use of krezacin is data on its participation in the processes of tissue respiration, as well as the regulation of lipid and vitamin metabolism. Krezacin has a pronounced antioxidant and antitoxic effect, exhibits immunostimulating and adaptogenic properties. In experiments on laboratory animals conducted at the Irkutsk Institute of Organic Chemistry, the drug stimulated the maturation of primordial ovarian follicles, reduced the resorption of embryos and increased their weight. In experiments on sows, when feeding them krezacin, an increase in the birth rate of piglets was obtained by 32% [11-13].

The use of kresacin in combination with sex hormones in oestrus synchronization schemes in cows has not been studied at all. Thus, the method we have declared meets the “novelty” condition for patentability of an invention.

DISCLOSURE OF THE INVENTION

The method is carried out as follows:

1. Cows were synchronized in heat according to the standard Ovsynch protocol (Table 1).

2. During the synchronization period, cows were fed krezacin together with grain feed at a dosage of 2 g/head daily for 10 days.

3. On days 1, 8 and 10 of the experiment, blood samples were taken to determine the level of sex hormones in the blood of cows (progesterone, follicle-stimulating and luteinizing hormones)

4. Insemination of cows and heifers was carried out using the recto-cervical method, with deep-frozen sperm of bulls of the corresponding breed

5. Pregnancy was determined by ultrasound examination (Table 2).

The experimental part of the work was carried out at the Federal State Budgetary Educational Institution “Orenburg State Agrarian University” (Stepanovsky) of the Orenburg region. Clinically healthy cows (n=68) aged 3-6 years, live weight 400-450 kg, 2-3 months after calving were selected for the research, which were divided into 2 groups of 34 cows each. in each: control and experimental. All cows were subjected to oestrus synchronization according to the Ovsynch scheme. During the entire period of the synchronization scheme, the experimental animals received krezacin at a dosage of 2 g/animal. with grain feed. Cows were inseminated on days 11 and 12 using the recto-cervical method, using deep-frozen sperm from a red steppe bull. After 45 days, an ultrasound examination for pregnancy was performed.

From the results obtained (Table 2) it follows that the fertility of cows in the experimental group was 20 heads (58.8%), and in the control group 17 heads (50.0%), that is, the excess was 3 heads (8.8%), which indicates the effectiveness of using krezacin at a dosage of 2 g per head with food during the Ovsynch heat synchronization scheme. The obtained data on the fertility of cows are consistent with the dynamics of sex hormones (Table 3) established during the experiment.

According to the table, in the experimental group the level of progesterone in the blood of cows by the 8th day of the experiment increased by 115.4% (P<0.05), and by the 10th day it decreased by 89.3% (P<0.05). This is explained by the introduction of estrofan on the 8th day of the experiment, which lyses the corpus luteum, with a sharp decrease in progesterone production and the release of pituitary gonadotropins - FSH and LH - into the blood. The content of FSH and LH by the 8th day of stimulation was minimal, and by the 10th day it increased by 79.2% and 56.3%, respectively (P<0.05). In the control group, the level of progesterone in the blood of cows also increased by 29.1% (P<0.05) by day 8, and decreased by 50.0% (P<0.01) by day 10. Accordingly, the content of FSH and LH by this period exceeded the minimum by 61.2% and 34.3% (P<0.05). Similar dynamics of sex hormones are typical for induced sexual cycles of cows. Consequently, in the experimental and control groups, changes in the level of hormones regulating the sexual cycle were similar, but in the experimental group the rates of these changes were more significant

In this regard, the proposed method is effective and can be used to increase the fertility of cows during synchronization of heat and frontal insemination.

EXAMPLE OF METHOD IMPLEMENTATION

The method was applied at JSC “Ivolga” (Nizhnyaya Pavlovka village, Orenburg region) on Holstein-Friesian cows. We formed two groups of cows of 21 heads each. in each (control and experimental), in the post-calving period, with a normal state of the genitals. The cows are 4-6 years old, live weight 450-500 kg. In both groups, cows were synchronized with heat according to the Ovsynch scheme. In the experimental group, cows were fed krezacin at a dosage of 2.5 g per head for 10 days. Results of artificial insemination: in the control group, 10 heads (47.6%) were fertilized, in the experimental group - 12 heads (57.1%), i.e. the excess was 9.5%.

Information sources:

1. Kropp J., Carrillo J.A., Namous H. et al. Male fertility status is associated with DNA methylation signatures in sperm and transcriptomic profiles of bovine preimplantation embryos. // BMC Genomics. - 2017. - Vol. 18 (1). - P. 280. Published 2017 Apr 5. - DOI: 10.1186/12864-017-3673-y.

2. Geary T.W., Burns G.W., Moraes J.G.N., Moss J.I., Denicol A.C., Dobbs K.B., Ortega M.S., Hansen P.J., Wehrman M.E., Neibergs H., O' Neil E., Behura S., Spencer T.E. Identification of Beef Heifers with Superior Uterine Capacity for Pregnancy. // Biol Reprod. - 2016. - Vol. 95(2). - P. 47. - DOI: 10.1095/biolreprod.116.141390.

3. Miura R. Physiological characteristics and effects on fertility of the first follicular wave dominant follicle in cattle. // J Reprod Dev. - 2019. - Vol. 65(4). - P. 289-295. - DOI: 10.1262/jrd.2019-027.

4. Liu A., Wang Y., Sahana G. et al. Genome-wide Association Studies for Female Fertility Traits in Chinese and Nordic Holsteins. // Sci Rep. - 2017. - Vol. 7 (1). - P. 8487. Published 2017 Aug 16. - DOI: 10.1038/41598-017-09170-9.

5. Ambrose D.J., Gobikrushanth M., Zuidhof S. Low-dose natural prostaglandin F2a (dinoprost) at timed insemination improves conception rate in dairy cattle // Theriogenology. - 2015. - Vol. 83(4). - P. 529-534. - DOI: 10.1016/j.theriogenology.2014.10.034.

6. Mohammadi A., Seifi H.A., Farzaneh N. Effect of prostaglandin F2a and GRH administration at the time of artificial insemination on reproductive performance of dairy cows. // Vet Res Forum. - 2019. - Vol. 10 (2). - P. 153-158.

7. Wiltbank M.C., Pursley J.R. The cow as an induced ovulator: timed Al after synchronization of ovulation. // Theriogenology. - 2014. - Vol. 81(1). - P. 170-185. - DOI: 10.1016/j.theriogenology.2013.09.017.

8. Patent for invention RU No. 2306944 Method for early stimulation of sexual cyclicity in cows after childbirth / N.V. Bezborodov, M.V. Palchikov, A.Yu. Palchikov: publ. 27.09.2007.

9. Patent for invention RU No. 2785290 Method for synchronizing the reproductive cycle of cows for artificial insemination / V.A. Pleshkov, T.V. Zubkova, F. N. Khitriy: publ. 06.12.2022.

10. Patent for invention RU No. 2206989 Stimulator of the reproductive ability of female fur-bearing animals and the viability of their offspring / P.P. Orlov, M.G. Voronkov: publ. 06/27/2023.

11. Shabanov P.D. Pharmacology of trekrezan - a new immunomodulator and adaptogen / P.D. Shabanov, I.V. Zarubina, E.V. Mokrenko // Reviews on clinical pharmacology and drug therapy. - 2014. - T. 12. - No. 2 - P. 12-27.

12. Biological and pharmacological properties of trekrezan / I.A. Kuznetsov et al. // Modern problems of science and education. - 2015. - No. 1-1. - P. 1342.

13. Voronkov M.G. Biochemical analysis of the hepatoprotective effect of tris (2-oxyethylamonium) orthocresoxycetate and 1-hydroxygermatrane / M.G. Voronkov, P.A. Storozhenko, M.M. Rasulov // Encyclopedia of a chemical engineer. - 2013. - No. 9. - P. 08-11.

Table 1 Group Experimental design 1 day
first injection Day 8
second injection 10 day
third injection Day 11 12 day Control (n=34) Surfagon at a dosage of 5 ml/head intramuscularly Estrofan at a dosage of 2.5 ml/head intramuscularly Surfagon at a dosage of 5 ml/head intramuscularly artificial insemination artificial insemination Experienced (n=34) Surfagon at a dosage of 5 ml/head Estrofan at a dosage of 2.5 ml/head Surfagon at a dosage of 5 ml/head artificial insemination artificial insemination Krezacin 2 g/animal for 10 days

table 2 Group Cow fertility results Number of animals Fertilized by frontal insemination % fertilization Test 34 17 50.0 Experienced 34 20 58.8

Table 3 Group Indicators of sex hormones in blood serum Day of experience 1 8 10 Control (n=34) Progesterone, nmol/l 1.58±0.075 2.04±0.077* 1.02±0.023** FSH, IU/l 2.66±0.142 1.83±0.105 2.95±0.171* LH, IU/l 1.25±0.130 1.02±0.642 1.45±0.094* Experienced (n=34) Progesterone, nmol/l 1.39±0.073 2.14±0.066* 0.91±0.011* FSH, IU/l 2.73±0.193 1.88±0.108* 3.38±0.452* LH, IU/l 1.39±0.174 1.03±0.122* 1.61±0.121*

Claims (1)

A method of increasing the fertility of cows by frontal insemination, characterized by the fact that the cows are synchronized with sexual heat: on the 1st day, the first injection is administered intramuscularly to the cows - gonadotropin-releasing hormone "Surfagon" at a dosage of 5 ml/head, on the 8th day the second injection - prostaglandin Ϝ2α "Estrophan" at a dosage of 2.5 ml/animal, on the 10th day a third injection of gonadotropin-releasing hormone "Surfagon" at a dosage of 5 ml/animal, with artificial insemination without detecting heat on the 11th and 12th days , while during the period of synchronization of sexual heat, cows are fed krezacin together with grain feed at a dosage of 2 g/head daily for 10 days.

Images