RU2067851C1 - Method of gestation and sterile ewe detection - Google Patents

Abstract

FIELD: agriculture, sheep breeding. SUBSTANCE: method involves the sequential administration of progesterone and estradiol mixture (doses - 0.333 and 0.500 mcg/kg living mass, respectively) to ewes beginning from 18 day after insemination; then after 36-48 h a mixture of testostrone-propionate and estradiol is administrated at doses 0.450 mg/kg and 7.0 mcg/kg living mass, respectively. Beginning of the following day gestation and sterile ewes showing sexual hunting were detected. Diagnosis precision is increased from 83.5 to 100%. EFFECT: simplified method, enhanced effectiveness and precision. 2 cl, 4 tbl

Description

 The invention relates to the field of agriculture, namely to breeding sheep, and can be used to reduce barrels and increase the actual fecundity of sheep.

 The problem of controlling the reproduction of sheep includes the task of increasing both biological and actual fertility, which is determined by the number of chamfered ewes from the total number of ewes. The task of increasing the actual fertility, it turns out, needs to be connected with the solution of the issues of identifying spring, i.e., infertile inseminated or not showing sexual hunting ewes, inducing sexual hunting in such animals and their subsequent insemination. The solution to these issues depends on the timing of the identification of sheep ewes, since due to the seasonality of reproduction of sheep, only subject to the determination of the ovaries and coyes in the early stages of pregnancy, it becomes possible to re-inseminate the ova within the breeding season. In this regard, the optimal solution to the problem of increasing actual fecundity involves a comprehensive solution to the problems of diagnosing coxiness and induction of sexual hunting in spring ewe during the breeding season.

The relevance of the task of increasing the actual fecundity of sheep is determined by the fact that in different breeds of sheep, barley reaches 30 percent or more [1] and the low level of fecundity of sheep is the main factor limiting production [2]
Known methods for determining coagulation and detection of uterine uterus, including fluoroscopy, ultrasound determination of the heartbeat of the fetus, rectal-abdominal palpation [3]
A common disadvantage of the known methods is the low accuracy of detecting uterine coagulation in the first half of pregnancy (up to 60% in the first month of pregnancy), the need to use special expensive equipment and additional hormonal methods for inducing sexual hunting in ewes with diagnosed barrels.

Closest to the claimed prototype method is a method for detecting coot and ovule ewes by the level of progesterone in blood plasma, determined by the standard method of radioimmunoassay [4] Unlike ovate ewes, in ewes having a functionally active corpus luteum, the level of progesterone reaches 1.3-1.8 ng / ml, which is a diagnostic indication of the closeness of such animals. The accuracy of determination of coyes with progesterone level significantly depends on pedigree and individual differences in the rate of progesterone secretion by the corpus luteum of pregnancy, the variability of which (coefficient of variation) reaches 44% [5] The known method allows the detection of coygous and spring ewes 18 days after insemination up to an accuracy 83.5% [3] The disadvantages of this method are:
1. The use of expensive methods of radioimmunoassay of progesterone, the conduct of which requires qualified personnel and specially equipped radioimmunological laboratories;
2. The inability to use, for the reasons mentioned above, the method of radioimmunoassay under industrial conditions on a large number of animals.

 3. The need for additional hormonal methods to induce sexual hunting in spring sheep sheep.

 An object of the invention is to increase the efficiency of detection of coot and ewes.

 The essence of the proposed method is as follows.

 During the breeding season, 18 days after insemination, the ewes inject the mixture of progesterone and estradiol taken in optimal doses, then, after 36-48 hours, they inject the mixture of testosterone propionate and estradiol in optimal doses and, starting from the next day, identification of ewes with sexual hunting, moreover, ewes of the uterus that do not exhibit sexual hunting are defined as coyazhny, and showing it as spring.

 It was experimentally found that the optimal doses for a mixture of progesterone and estradiol are 0.333 mg / kg and 0.500 μg / kg body weight, and for sms testosterone propionate and estradiol 0.450 mg / kg and 7.0 μg / kg body weight, respectively.

 The determination of the optimal doses of the hormones used was carried out on meat-shedding ewes during the anestrus period. From the data of table 1 it can be seen that the maximum manifestation of sexual hunting in summer animals is achieved when using a combination of one injection of a mixture of progesterone and estradiol with the next injection of a mixture of testosterone propionate and estradiol after 36-48 hours as a diagnostic hormonal effect. The combination of an injection of progesterone at a dose of 0.333 mg / kg, usually used to induce sexual hunting [3] and after 36-48 hours of injection of testosterone propionate at a dose of 0.450 kg / kg, caused a manifestation of sexual hunting in only 63.5% of ewes. The increase in the inducing effect of the proposed diagnostic hormonal effect was achieved by adding estradiol to the progesterone at a dose of 0.500 μg / kg and estradiol to the testosterone at a dose of 7.0 μg / kg, since the effect of estradiol on the manifestation of sexual hunting in sheep depends on the dose of this substance [6] From the data of table 1 it is also seen that treatment of sheep ewes with a combination of a mixture of progesterone and estradiol in doses of 0.333 mg / kg and 0.500 μg / kg after 36-48 hours with a mixture of testosterone propionate and estradiol in doses of 0.450 mg / kg and 7.0 μg / kg , respectively Of course, it caused the manifestation of induced sexual hunting in 87.5% of mother uterus or 13.9% more than when treated with a combination of progesterone and testosterone propionate.

 The time of administration of testosterone propionate after administration of the progesterone pi estradiol mixture was also determined empirically (Table 2). From table 2 it is seen that the optimal time for the introduction of testosterone are 36-48 hours.

 The fundamental difference between the proposed method and the prototype is that senile and ovule ewes are detected with the help of a diagnosing hormonal effect, including the injection of an optimal dose of a mixture of testosterone and estradiol, which induces the secretion of the hypothalamic-pituitary link of the reproductive system of follicle-stimulating and luteinizing hormones, which cause luteinizing hormones that cause luteinizing hormones, , and as a sign diagnosing the condition of sheep, use the presence of sexual hunting in spring and its absence in coot sheep of the girls.

An essential feature of the proposed method is that in the breeding season, ewes of different ages, 18 days after insemination, are injected with a mixture of progesterone and estradiol taken in optimal doses, then after 36-48 hours an injection of a mixture of testosterone propionate and estradiol taken in optimal doses , and, starting from the next day, carry out the identification of ewes with sexual hunting, which improves the efficiency of the method due to:
eliminating the need for sophisticated diagnostic equipment, reducing the complexity of the treatments, increasing their manufacturability and, as a result, achieving the ability to perform mass diagnostic treatments of livestock;
increase the accuracy of detection of mother uterus from 83.5 to 100%
a combination of early diagnosis of coxiness and barbarity with the hormonal induction of sexual hunting in the queen uterus, allowing repeated insemination of such animals within the breeding season;
increase in actual fecundity due to a decrease in the number of ovine ewes.

 Due to the fact that in the known scientific, technical and patent sources, a method similar to the claimed has not been found, it can be concluded that the claimed technical solution meets the criteria of "novelty and inventive step".

 Example 1. The experiments were carried out in the Experimental Farm of the SB RAS (Novosibirsk) in random periods of 1989 (lamb 1990) and 1992 (lamb 1993) on meat-wool ewes aged 2 or more years .

 Identification of ovary and cootting ewes at an early stage of pregnancy was carried out by means of a diagnosing hormonal effect on animals, which was carried out as follows. Ewes with a known time after insemination, as well as unseeded ewes, were given the first injection with a mixture of progesterone and estradiol at a dose of 0.333 mg / kg of progesterone and 0.500 μg / kg of estradiol (2 sludge oil solution, w / muscle) and then after 36-48 hours a mixture of testosterone propionate and estradiol was administered at a dose of 0.450 mg / kg and 7.0 μg / kg, respectively (2 ml of an oil solution, in / muscle). As a sign of the diagnosing state of the animals, the manifestation of sexual hunting and day-hunting and its absence in coarse queens was taken.

 In 1989, the diagnostic ability of the proposed method was determined on 11 inseminated ewes with a time duration after insemination from 18 to 45 days. In 1992, 15 inseminated ewes were used with a time after insemination of 18 to 33 days and 10 ewes that did not show sexual hunting during the breeding season and, accordingly, remained unseminated (spring). The use of unseeded and inseminated uterus with a known time after insemination exceeding the average duration of the estrous cycle (16 days), which indicated the probable severity of these uterus, made it possible to control the diagnostic ability of the proposed method in the period before obtaining data on the results of lambing of experimental uterus.

 Sampling of ewes with spontaneous and hormonal induced hunting was carried out by vasectomized test sheep at 8.00 a.m., once a day. Uterine insemination was carried out after sampling in the morning, by hand mating once a day.

 Insemination of uterus who showed sexual desire after diagnosing hormonal exposure was carried out according to the first induced and, in the case of repeated hunting, following the induced natural sexual hunting.

 Sheep with a known time after insemination did not respond to the diagnostic effect by the manifestation of open sexual hunting (Table 3). Reducing the time elapsed after insemination to 18-33 days (group N 2) also did not lead to the manifestation of sexual hunting. Unlike inseminated ewes, all the ewes showed open sexual hunting.

 A comparison of the reactions of inseminated and sow uterus indicates that the proposed diagnostic hormonal effect has a qualitatively different effect on the reproductive system in these animals. Exposure to ewes with a probable pregnancy during its first month, starting from day 18, does not cause sexual hunting in such animals, which made it possible to draw a diagnostic conclusion on the severity of inseminated uterus. Spring ewes responded by open sexual hunting, which made it possible to make a diagnostic conclusion about the barrenness of these animals (Table 3).

 The obtained diagnostic conclusion was confirmed by the results of mating of the spring uterus with hormone-induced sexual hunting and subsequent lambing of these and soft (according to the diagnostic conclusion) ewes.

 So, from the data of table 4 it can be seen that all the uterine uterus (group N 3) were inseminated on average 1 month later than the ewes with diagnosed coagulation (groups NN 1 and 2). The duration of pregnancy in uterus with diagnosed severity and barbarity was the same and did not differ from the normal duration of pregnancy of meat-sixth queens (group "in the garden"), which is within 144-150 days. According to the results of the lambing, the ewes with diagnosed swollenness and sockness did not have a gap, while in the uterus inseminated by spontaneous sexual hunting (group “according to the herd”), the oxygen content was 11.1%. The fecundity of the experimental uterus did not differ in the fecundity of the inseminated on spontaneous hunting.

 Thus, the obtained data indicate the objectivity of the diagnostic conclusions about the ejaculation of ewes. The accuracy of the diagnostic determination of early coagulation reaches 100% and is manifested in the form of qualitative differences: the presence of sexual hunting in spring and its absence in coarse queens. At the same time, the proposed diagnostic hormonal effect allows to reduce the barrenness by insemination of the uterus exhibiting induced sexual hunting.

 In addition, the data in table 4 shows that the diagnostic effect does not adversely affect the duration of pregnancy, embryonic development and fertility of the ewes. The live weight of lambs and fecundity in uterus subjected to diagnostic hormonal treatment did not differ from the state of these signs in the remaining ewes in the herd. TTT1 TTT2 TTT3

Claims (2)

 1. A method for detecting ejaculation and ovule ewes, including determining the cohesion of animals from the 18th day after insemination during the breeding season, characterized in that before determining the cohesion of the ewes, a mixture of progesterone and estradiol is administered and after 36 48 hours a mixture of mestosterone propionate and estradiol, and ewes and ovules are identified by the absence or manifestation of sexual hunting in them.  2. The method according to p. 1, characterized in that the mixture of progesterone and estradiol is taken in doses of 0.333 mg / kg of progesterone and 0.500 μg / kg of estradiol, and the mixture of testosterone propionate and estradiol in doses of 0.450 mg / kg and 7.0 μg / kg live weight, respectively.

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