RU2052257C1 - Implantable agent for quality improvement of fur animal hides - Google Patents

Abstract

FIELD: fur farming. SUBSTANCE: implant is prepared by components mixing at the following ratio, wt.-%: vitamin A 1.36-2.55; vitamin B₁ 7.65-10.2; vitamin B₂ 1.87-2.55; vitamin B₆ 1.87-2.55; vitamin C 20.4-30.6; vitamin H 0.42-0.44; riboxin 15.3-20.6; potassium orotate 8.5-11.9, and acetylcellulose 27.2-34.0. Composition showing viscous concentration is pressed by extrusion method and cylindrical capsules were obtained. Capsules were implanted to wild animal in scapula region. EFFECT: improved fur quality, decreased epizootic disease of young animals.

Description

 The invention relates to agriculture, in particular to fur farming.

Currently, to ensure proper nutrition of fur animals in their diets produce supplements of vitamins and biologically active substances [1]
However, this has a number of disadvantages: daily addition of additives to the feed increases the complexity of its preparation, reduces the accuracy of dosing, and leads to an overrun of the drugs used. In addition, it is known that rancid fat contained in feed destroys vitamins such as A, C, B ₁ , B ₆ , biotin. Vitamins are also destroyed by mixing the feed mixture. This negatively affects the development and growth of young animals, which leads to a deterioration in the quality of their skins.

 Among the biologically active substances widely used in fur farming is potassium orotate, which is added to the feed [2] However, the known agent is not effective enough. Obviously, as in the case of inactivation of vitamins with rancid feed fat, there is a decrease in activity or a decrease in the absorption of potassium orotate when it interacts with other active components of the feed.

 The purpose of the invention is to improve the quality of the skins by increasing the effectiveness of the complex effect of vitamins and biologically active substances on the growth and development of young fur-bearing animals.

 To do this, it is proposed to replace the oral administration of the aforementioned substances into the animal organism by their implantation under the skin.

To enhance the effect, it is proposed to additionally use riboxin. This drug is used to normalize metabolism in the body of fur animals [3]
A known method of influencing the growth of hairline of fur animals by implanting it with the hormone melatonin mixed with silicone elastomer as a base [4]
However, when using the known means, a high percentage of low-quality skins is obtained due to the high variability of the effect of this drug on the animals.

An implant with the following composition of components, wt. Vitamin A 1.36-2.55 Vitamin B ₁ 7.65-10.2 Vitamin B ₂ 1.87-2.55 Vitamin B ₆ 1.87-2.55 Vitamin C 20.4-30.6 Vitamin H 0.43-0.44 Riboxin 15.3-20.6 Potassium orotate 8.5-11.9 Cellulose acetate 27.2-34.0
To obtain the implant form, a weighed portion of components including vitamins and biologically active substances in the indicated amounts is dissolved in acetone and thoroughly mixed at room temperature. Cellulose acetate in acetone is added to the resulting mixture and left to form a viscous mass. The resulting material is pressed by forcing through a sieve with a hole diameter of 2.4 mm Hardened cylindrical rods are cut into 7.2 mm fragments. The finished capsules are implanted into the animals with a special syringe subcutaneously in the areas of the shoulder blades.

 PRI me R 1. All experimental animals were divided into 14 groups of 100 animals each (50 males and 50 females).

 All animals were in the same conditions of keeping and feeding throughout the experiment until the slaughter. The effect of the quantitative content of the individual components of the implant was evaluated by the following indicators: final live weight, departure of animals, the presence of signs of vitamin deficiency, the duration of the impact of the implant on the animals, and the test for quality.

 An implantable agent is prepared as follows.

A portion of the components of the proposed composition, corresponding to their optimal quantitative content, wt. Vitamin A 1.7; B _1, 8.5; B ₂ 2.04; B ₆ 2.04; H 0.43; riboxin 18.8 and potassium orotate 10.4, dissolved in acetone, 30.6 wt. cellulose acetate in acetone, mix thoroughly and incubated until thickened. The resulting material is pressed by pressing through a sieve with a diameter of 2.4 mm. Hardened rods are cut into fragments (capsules) of 7.2 mm in length. Capsules of this composition are implanted in the area of the scapula to the animals of the first group. The 13th group serves as a control, where animals receive the same set of vitamins with food according to generally accepted standards and do not receive riboxin with potassium orotate. The animals of the 14th group, along with vitamins, receive potassium orotate (according to the prototype). The effectiveness of the implant in comparison with the control and the prototype is evaluated by economically useful qualities.

 It can be seen that among both males and females of the experimental group, the estimated indicators are significantly higher than in the groups compared with it. Compared to the control and the prototype, the puppies' departure was sharply reduced by 2.8 and 1.9%, respectively. Significantly higher and live weight. The quality test among males was 111.8% versus 103.4 and 107.0%, respectively.

 Example 2. In animals of groups 2, 3, 4, and 5, the effect of the quantitative content of the implant base used was evaluated.

 The animals of groups 2 and 3 were implanted with capsules containing all components in maximum quantities with a minimum content of cellulose acetate. Performance indicators were at the level obtained with capsules of the optimal composition in group 3, but tended to decrease in group 4, where the basis was taken in an amount less than the claimed. This was due to a decrease in the duration of exposure to the implant.

 In groups 4 and 5, all components are taken at the minimum values, and the base at the maximum. An increase in the content of the base in comparison with its average content worsens the results. In particular, in group 5, a decrease in the quality test in relation to control both in males and females by 4 and 6.2%, respectively. Significantly increases and the departure of puppies.

 PRI me R 3. In groups 6 and 7 determined the permissible limits of the content of vitamins with average amounts of the remaining components.

 With a decrease in the vitamin content below the minimum level in group 6, certain animals showed signs characteristic of vitamin deficiency, refusal of feed, a sharp decrease in the final live weight, an increase in puppy withdrawal, and unsatisfactory results of a fur-bearing merchandising assessment. Exceeding the content of vitamins in the capsule yielded results that, according to certain indicators, were comparable with the control and prototype.

 PRI me R 4. In groups 8, 9, 10, 11 and 12, the impact of the content of potassium orotoxin orototin was evaluated. In group 8, animals were implanted with capsules that did not contain the indicated biologically active substances (BAS) with an average vitamin content. The results were lower than in group 14 (prototype), but were at the level of the control group. It follows that in cases of using low-quality feeds, including proteins with an unsatisfactory amino acid composition or containing rancid fat, the implant of this composition can be used as a means of guaranteeing the production of high-quality fur. Animals in groups 9 and 10 were implanted with capsules with different content of riboxin. A decrease in the amount of riboxin in the composition with average amounts of the remaining components negatively affects the quality of the skin. The quality test is at the prototype level. An increase in its content (group 10) does not lead to a significant improvement.

 Capsules implanted to animals in group 11 contained potassium orotate in amounts lower than those declared with average values of the remaining components. In this group, there was a significant departure of puppies and a decrease in the quality classification by 107.3% compared to 111.8% obtained at the optimal composition.

 An increase in its content (group 12) does not have a significant effect.

 From a comparison of the results in groups 9-10 and 11-12, it follows that the combined use of riboxin and potassium orotate in optimal quantities in the composition of the implant has a pronounced synergistic effect.

 Thus, the use of this tool in comparison with the prototype improves the quality of fur, characterized by an increase in the quality test in females by 2.0% and in males by 4.8%. As a result of increased survival, the puppy's output decreases by 1.9%

Claims (1)

IMPLANTABLE MEANS FOR IMPROVING THE QUALITY OF FUR SKIN SKINS, including a hair growth stimulator and a base, characterized in that it contains riboxin and potassium orotate as a stimulant, and cellulose acetate and additional vitamins A, B ₁ , B ₂ , B ₆ as a base , C and H in the following ratio of components, wt.%:
A Vitamin - 1.36 - 2.55
B ₁ - 7.65 - 10.20
B ₂ - 1.87 - 2.55
B ₆ - 1.87 - 2.55
C - 20.4 - 30.6
H - 0.42 - 0.44
Riboxin - 15.3 - 20.6
Potassium Orotate - 8.5 - 11.9
Cellulose Acetyl - Rest