RU2684308C1 - Betulacor fodder additive - Google Patents

Abstract

FIELD: fodders.SUBSTANCE: invention relates to feed production, in particular to a fodder additive for farm animals and poultry. Additive contains ethyl alcohol, betulin, Twin-80 food emulsifier, citric acid, Agar emulsion stabilizer, water-holding preparation glycerin and water. Components are taken in a certain ratio and mixed to obtain a homogeneous suspension, with betulin taken with a particle size of less than 1 micron.EFFECT: use of the invention improves the processes of digestion, the digestibility of nutrients and stimulate nonspecific immunity.1 cl, 21 tbl, 3 ex

Description

The invention relates to the feed industry, namely to biologically active feed additives.

From the RF patent No. 2436408 for the invention, a biologically active feed additive for young farm animals and birds is known containing seed from lactobacilli and yeast, while it additionally contains milk, fat-free with a mass fraction of fat of 0.05%, solids of 8.2% , cheese whey powder with a mass fraction of solids of 95%, solubility of 92%, water, vitamin C and decoction of clover meadow, taken at a ratio of, wt. %: skim milk with a mass fraction of fat 0.05%, solids 8.2% 41.9-42.5; raw cheese whey with a mass fraction of solids of 95%, solubility 92% 7.0-7.2; vitamin C 0.02-0.022; decoction of clover meadow 8-12; seed 19-21; the rest water is up to 100%, a consortium of lactobacillus microorganisms Lactobacillus acidophilum, Lactobacillus bulgaricum and Saccharomyces lactis yeast taken in a ratio of 1: 1: 1 between themselves, a consortium and pasteurized skim milk, taken in a ratio of 1: 4, was used as seed.

The disadvantage of the feed additive according to patent No. 2436408 is its complexity, due to the multicomponent composition, the presence in the additive of yeast cultures that can cause fermentation in the body.

From the journal “Bird and Poultry Products” No. 5, 2013. “Efficiency of betulin in the diets of broiler chickens” “Productive qualities of broiler chickens when using the product of natural origin Betulin” authors: S.M. Farkhutdinov, P.P. Gadzhiev, it is known that the inclusion of Betulin, a naturally occurring drug in the feed composition in the amount of 0.25% of the feed weight allowed us to significantly increase live weight, livestock safety and improve meat quality of broiler chickens.

From the article “The use of betulin to increase the immunity of broiler chickens in a production environment”, authors Zadorozhnaya MV, Krasikov AP, Lysko SB (Journal of Poultry and Poultry Products No. 4, 2012, pp. 43-45) it is known to use betulin to increase post-vaccination, antiviral immunity in broiler chickens, nonspecific resistance, metabolism, safety and productivity. Betulin extract is obtained according to TU 26 3142-025-04740886-2011 manufactured by Sled LLC. Perm in the form of a fine crystalline powder with a betulin content of at least 70% was introduced into the feed mixture at the rate of 120 mg / kg live weight aged 1-14 days (7 days before vaccination and after vaccination).

Betulin is found in nature quite widely, for example, in the bark of birch (betula, lat. - birch), and betulin and its derivatives are found in a number of plants belonging to different genera and families in Eurasia and the tropics. For example, betulin is found in alder bark, the ground part of the thistle, it is also found in hazel bark, in calendula, licorice, kidney tea and many other medicinal plants and plants used in food - persimmon fruits, hyssop grass. Given the versatile and high activity of betulin and its derivatives, the ability to transform into compounds involved in many basic biochemical processes, it was found that betulin has a number of properties that can be effective in preventive and therapeutic veterinary measures.

From the patent of the Russian Federation No. 2634956 for the invention, a feed additive based on betulin containing birch bark extract is known for administration at the rate of 2.5-4.5 mg / kg body weight to the main diet at the age of 21-35 days.

From the patent of the Russian Federation No. 2322091 for the invention, a composition of biologically active substances is known, which can be used as a biologically active food supplement. The composition of biologically active substances obtained by the extraction of birch bark and contains, by weight. %: betulin 65-71, lupeol 12-16, 3-O-betulin coffee 5-15 and related substances - the rest.

From the patent of the Russian Federation No. 2353107 for the invention, a composition of biologically active substances is known, intended for use as a biologically active food supplement and / or active component of food products with a content in the finished product from 0.001 to 50 wt. %, including extracts of plant materials, which is a solution or suspension of betulin in edible oil in the following ratio of components, wt. %:

betulin 0.1 ÷ 74.9

edible oil 25 ÷ 99.8

other additives 0.1 ÷ 74.9

From the RF patent No. 2477125 for the invention, a composite veterinary preparation for immunocorrection and detoxification in case of poisoning in the form of spherical granules of carbon material of high strength is known, containing a biologically active substance of natural origin betulin or betulin and glycerin in the following components, wt. %:

betulin 5-1.8 glycerol 0-5 carbon carrier rest,

and characterized by a grain size of 0.5-0.8 mm and a specific adsorption surface of 170-250 m ² / g

The technical problem solved by the invention is the expansion of the arsenal of feed additives for farm animals that improve digestion and absorption of nutrients, stimulate nonspecific immunity, and have therapeutic and prophylactic properties, and develop a dosage form for the feed additive.

The technical result achieved by the invention is to improve the metabolic process, increase live weight gain, increase livestock safety, improve the productivity of farm animals and birds, increase the natural resistance of farm animals and birds, increase the shelf life of the finished feed additive.

The claimed technical result is achieved due to the fact that in the feed additive for farm animals and birds containing betulin, according to the invention contains ethyl alcohol, food emulsifier Tween-80, citric acid, emulsion stabilizer Agar, water-retaining preparation glycerin and water in the following initial ratio of components mass. %:

- ethyl alcohol - 1.43;

- betulin - 0.5;

- emulsifier food Tween-80 - 0.5;

- citric acid - 0.1;

- stabilizer emulsion Agar - 0.05;

- water-retaining preparation glycerin - 1.0;

- water - 96.42;

intended for mixing to obtain a homogeneous suspension with a particle size of betulin less than 1 micron.

Betulin in the feed additive has a particle size comparable to the size of the nanoparticles due to the introduction of betulin in the form of a solution in ethyl alcohol, and an aqueous solution of auxiliary additives allows you to get a stable, stable suspension of betulin, convenient for feeding agricultural animals and poultry.

The inventive feed additive is used to prevent metabolic disorders and diseases of non-infectious etiology, increase the body's natural resistance of farm animals and birds, and improve the productivity of farm animals.

The technological process for the production of feed additives "Betulacor" includes the following main technological stages:

- preparation of an alcohol solution of betulin;

- preparation of an aqueous solution of target additives;

- preparation of a suspension of betulin in an aqueous solution of target additives;

- evaporation of a suspension of betulin;

- packaging of the finished product.

The preparation of an alcohol solution of betulin is carried out in a disperser equipped with a stirrer and a cooling jacket. Next, betulin is loaded into the dispersant, mixing and dissolution of betulin is carried out for 3-5 minutes until a homogeneous solution is obtained. After dissolution of betulin, the solution is pumped into a measuring tank to prepare a suspension of betulin.

An aqueous solution of target additives is also prepared in a dispersant equipped with a stirrer and a cooling jacket, in which water is loaded. Glycerin is charged into water and glycerol is mixed with water until a homogeneous solution is obtained. Then, citric acid, agar, and Tween-80 emulsifier are successively added to water and glycerin. After loading into the dispersant each target additive, the contents of the dispersant are mixed until a homogeneous solution is obtained.

At the end of the process of preparing the solution of the target additives, a sample is taken from the dispersant to visually determine the homogeneity of the solution. Upon receipt of a homogeneous solution of target additives, an emulsion of betulin is prepared in an aqueous solution of target additives.

On top of the prepared aqueous solution of the target additives, an alcohol solution of betulin is loaded into the dispersant. The betulin solution is loaded slowly, in a fine stream, for 3-5 minutes, with the dispersant mixer working. The number of revolutions of the stirrer per minute is 800-1000. Stirring is carried out for 15-20 minutes at a temperature of 35-40 ° C until a homogeneous stable suspension is obtained. After dispersion, a sample is taken, the uniformity and stability of the suspension is checked. After checking, the suspension of betulin from the dispersant is pumped to the reactor-mixer for distillation of excess ethanol from the suspension at a temperature of 78 ° C. Then the mass is cooled to a temperature of 15-25 ° C. The result is a uniform, stable, stable, gel-like betulin suspension that does not exfoliate for a long period of time (at least 6 months) in a particle size of betulin of less than 1 μm, which allows birds and farm animals to easily absorb betulin.

The result is a dosage form of a feed additive with a long shelf life of up to 6 months.

The recommended dose of feed additives is 0.2 ml per 1 kg of live weight:

- broiler chickens from 14 to 35 days of life;

- laying hens for meat crosses - after peak productivity;

- roosters - manufacturers of meat crosses;

- to cows during the dry and service period, during lactation.

In case of an overdose of the feed additive, no adverse reactions were detected.

The following are the results of industrial tests of the inventive feed additives "Betulacor", which were carried out in the Federal State Budget Scientific Institution "Ural Scientific Research Veterinary Institute", Department of Industrial Poultry.

Example I. Object of study: breeding bird (laying hens over 310 days of age, after peak production and after molting and roosters are producers over 200 days old) cross ROSS-308, hatching egg, daily young broiler chickens.

The first series of experiments. Formed 3 groups of analogues (control, experimental 1 and experimental 2), each with 5 chickens + 3 roosters.

The feeding and keeping conditions were the same in all groups, feeding according to the norms with full-feed compound feeds in accordance with the recommendations for working with the ROSS-308 cross.

Betulacor feed additive was used after 5 days of adaptation, for 30 days, the bird of the experimental groups, at the rate of 1 ml / goal / day., By drinking in the morning. The bird of the control group did not receive the drug.

Over the entire period of the study, the number and weight of the hatched eggs laid, the quality of the shell, the consumption of food, the external state of the bird, the behavioral characteristics, the activity of the roosters of the producers (frequency of cage) were daily counted. To obtain a more complete picture of the effect of Betulacore on the physiological state of poultry, biochemical studies of chicken blood serum were carried out according to the following indicators (total protein, albumin, globulins, cretinin, calcium, phosphorus, glucose, cholesterol, LDH). Blood was taken 21 days after the use of the drug. Studies of the hatching egg were carried out in two stages: the first stage is monitoring, the second stage is the effect of the drug (after 28 days of Betulacor administration). The studied indicators: vitamin A in the yolk, vitamin B2 in the protein, phosphorus in the protein and shell, chloride in the protein, sodium in the shell, potassium in the shell and protein, calcium in the protein and shell. 2 incubation egg bookmarks were carried out in order to identify the effect of betulin on the percentage of output of conditioned broiler chickens, the percentage of incubation waste was also calculated.

The second series of experiments. Formed 2 groups of analogues (control, experimental), each with 6 chickens + 3 roosters. The conditions of feeding and keeping in groups were the same. Laying hens at the age of 474 days, after molting, roosters at the age of 364 days.

Betulacor feed additive was used after 15 days of adaptation, for 52 days, the bird of the experimental group, at the rate of 1 ml / goal / day., By drinking in the morning. The bird of the control group did not receive the drug.

Over the entire period of the study, the number and weight of the laid egg, the quality of the shell, the consumption of fodder, the state of the bird, the behavioral characteristics, and the activity of the roosters (frequency of cage) were daily counted.

To obtain a more complete picture of the effect of the Betulacor feed supplement on the physiological state of the bird, biochemical studies of chicken blood serum were performed according to indicators (total protein, albumin, globulins, cretinin, calcium, phosphorus, glucose, cholesterol, LDH). Studies of hatching eggs for content: vitamin A in the yolk, vitamin B2 in the protein, phosphorus in the protein and shell, chloride in the protein, sodium in the shell, potassium in the shell and protein, calcium in the protein and shell. The analysis of the contents of the large intestine for dysbiosis (for the presence of pathogenic, conditionally pathogenic and normal microflora of the contents of the intestine). At the end of the study, a control slaughter of the bird was performed with anatomical cutting (photo-fixation, weighing, morphological measurements, samples of organs and tissues were taken for histological studies). All studies were carried out in specialized and accredited laboratories of the Federal State Budget Scientific Institution of the Ural NIVI.

The research results of the first series of experiments:

General state. Before the start of the experiment, a visual inspection of the bird was made, the feather was contaminated with droppings, had a yellowish tint, there were numerous scabs on the ridges and earrings, especially among the roosters of the breeders. On the claws were sticks from the litter.

After 10 days of keeping the bird in the vivarium, the feather became cleaner, the behavior more calm. The litter had a decorated look. It should be noted that in the experimental groups, where the bird received the Betulacor feed supplement, the healing of scallops on ridges and catkins was more intense compared to the bird of the control group. In the experimental groups, hens quickly restored feather cover on the areas trodden by roosters (back, between the wings). The litter in the experimental groups was dense, which helped to reduce contamination of the hatching egg.

Productive indicators of poultry. Studies on the intensity of oviposition showed that chickens of all three groups had the same productivity indicators. For the study period from 310 to 415 days of life per 1 chicken, 0.7 hens are each. hatching eggs. This indicator is within the normative indicators.

Thus, the study found that Betulacor did not adversely affect egg production.

The weight of the hatching egg is an important indicator that determines the live weight of the daily young (broiler chicken), the higher it is, the larger the chickens are hatched (chicken weight - 70% of the egg weight), but it should not exceed the normative indicators. For this period, the weight of the hatching egg should be in the range of 67 to 73 g.

The average egg weight in the control group was 66.8 g, in the experimental group 1 - 70.3 g and in experimental group 2 - 68.0 g. The incubation egg obtained from the hens of the experimental groups where Betulacor was used and from the hens of the control group , had indicators for the mass of eggs within the normative values.

The chemical composition of the hatching egg. Any changes in the composition are an objective assessment of the condition of the bird, as well as the influence of feed components and biological additives. The results of the study are presented in table 3.

The data obtained indicate a positive effect of Betulacor on the qualitative composition of the hatching egg. So in the experimental groups, a greater deposition of vitamin A in the yolk, vitamin B2 and the main macro- and microelements in the protein was established, which significantly affects the quality of the resulting offspring (broiler chickens), its viability.

Biochemical studies of blood serum are carried out in order to identify the physiological state of the body of laying hens, the data are presented in table 4.

The data obtained indicate that in the experimental groups receiving the Betulacor feed supplement, there was a tendency to increase in total protein, globulins, calcium and phosphorus, glucose and cholesterol, potassium and chlorides, alkaline phosphatase. Also, a tendency has been found to decrease bicarbonates, decrease the synthesis of uric acid, ALT. These changes indicate the normalization of protein and lipid metabolism.

Incubation results. According to the results of incubation, one can judge the quality of the incubation egg and the condition of the parent herd (laying hens and roosters). The higher the hatch percentage, the higher the economic effect of broiler meat production. In the control group, the conclusion was 79%, in the experimental group 1 - 89%, in the experimental group 2 - 82%. The incubation results confirmed the positive effect of Betulacor on the output of healthy (conditioned) broilers. It should be noted that the dynamics of the weight of the hatching egg was preserved in the young calves. Chickens obtained in the experimental groups, 4-7% had higher rates in live weight.

Good pigmentation of fluff daily chickens indicates a high concentration of vitamin A and carotenoids in the egg.

The effect of the use of Betulacor (presented in table. 5) is the increase in the following indicators:

1. due to the gross collection of the hatching eggs;

2. due to the release of the hatching egg;

3. due to the withdrawal of conditioned broiler chickens.

The research results of the second series of experiments:

Productivity. The analysis of data from the second experiment confirmed the picture obtained in the first experiment that the feed additive Betulacor did not adversely affect the number of laid eggs, in the experimental and control groups this indicator was at the same level and amounted to 0.5 for the entire study period pcs / chicken / day

When studying the effect of the Betulacor feed additive on the weight of the hatching egg, it was found that for the entire period of the experiment in the control group it was 69.6 g, in the experimental group - 68.8 g. The egg weight in the experimental group is slightly lower than the control indicators, but is within standard values for a given age of the bird (65.0-74.9 g). It should also be noted that the egg in the experimental group was more uniform in mass, 90% of the obtained egg was within these limits, while in the hens of the control group the egg mass was less stable - 20%, the eggs had a mass of less than 65 g and 16% were more 75 g, which subsequently led to prolapse of the oviducts.

The chemical composition of the hatching egg. When opening the egg, it was noted that the shell in the experimental group is stronger, the shell shell has a denser texture, is not transparent, the color is densely white, when stained (fuchsin, violet hyacanth, manganese permanganate), dyes are well perceived and painted well. Whereas in the control of the shell, the shell is more fragile, the shell of the shell is more transparent, the creamy white color is well divided into layers, dyes are perceived worse when stained, the colors are dull.

The use of feed additives Betulacor contributed to an increase in the content of vitamin A in the yolk by 36%. Also, when Betulacor was used, calcium deposition in the egg shell was recorded 9.4% higher, which ensured the strength of the shell of the hatching egg.

Blood tests. The biochemical picture of the blood is presented in table 7.

In the experimental group, the level of total protein is 6.6% lower than in the control group. The level of albumin is significantly lower in the experimental group by 16.7% than in the control group. The level of globulins in control and experience is almost the same. There is a tendency to a decrease in alkaline phosphatase activity in the experimental group, compared with the control by 16%.

Aminotransferase enzymes. ALT in the experimental group tends to slightly increase relative to the control group; ACT in the experimental group tends to decrease by 17.3%, relative to the control group. The activity of lactate dehydrogenase in the experimental group is reduced by 16.0%, compared with the control group.

The Ca / P ratio in the experimental group is closer to normal for laying hens -3: 1, in contrast to the control group, where the similar ratio is 1; 1. The content of chloride in the serum of the experimental group is lower than the control group by 3.7%.

The concentration of glucose in blood serum in the control and experimental groups is almost at the same level (13.5–13.8).

There is a tendency to lower serum triglycerides in the experimental group compared to the control group by 7.7%, which may be associated with a decrease in the level of albumin. The concentration of uric acid in the blood serum of chickens in the experimental group was reduced compared with the value in the control group by 16.6%.

The level of progesterone tends to increase in the experimental group, compared with the control group by 11.1%.

Thus, a number of indicators on the biochemical composition of blood are similar in both the first and second experiments, which confirms the pattern of Betulacor influence.

Studies on dysbiosis. The results indicate a positive effect of the Betulacor feed supplement on maintaining the normoflora of the poultry gastrointestinal tract. In laying hens of the experimental group, an increase in the number of non-pathogenic Escherichia coli, lactobacillus bifidobacteria was revealed by 103%, 37% and 94%, respectively. The data are presented in table 8.

Results of anatomical cutting. The positive effects of the use of the feed additives Betulacor identified in chickens of the experimental group.

1) The absence of sticking of litter on the limbs (claws), which indicates a denser consistency of the litter, better absorption of water in the body and a cleaner and drier litter, which is confirmed by the results of dysbiosis, as a result, the incubation egg is less contaminated, and this is a very important indicator for assessment of the quality of the hatching egg.

2) The flowers were more yellow, which indicates better absorption of vitamin A and carotenoids, which is confirmed by the results of chemical analysis of the hatching egg and the results of incubation. The color of fluff in daily young animals was intensely yellow, which indicates a greater deposition of vitamins A and carotenoids.

3) Less deposition of subcutaneous and abdominal fat.

4) The condition of the duodenum and pancreas during morphological studies within normal limits. The organ is clean, even in color and texture, without necrosis and redness, which indicates a good physiological state of the body of laying hens at the age of 600 days.

5) The reproductive organs in chickens of the experimental group in a state of physiological norm. No cysts, neoplasms. Follicles are well developed. A very clear sequence of development of follicles of the future egg, this indicates the regularity and uniform cyclicality of oviposition. A large number of small follicles 0.2-0.3 mm in size indicates a high potential for egg production. All departments of egg formation are well developed, have no pathologies.

In laying hens of the control group, many pathological changes were revealed:

- prolapse of oviducts in 10% of cases, as a result of laying a very large egg mass;

- cysts in various departments of egg formation, in some cases of multiple nature with varying degrees of limitation;

- follicle formation is not uniform. many large and small, medium ones are few, therefore, oviposition will be intermittent.

6) a comparative analysis of the femur showed that in laying hens of the experimental group, the bones were longer and more straight.

7) In males of the experimental group with a lower live weight of 5840 g versus 6010 g in the control, the size and weight of the testes was significantly larger by 4.8 g or 14% (35.25 versus 30.45 g), which indicates the intensity sperm formation processes.

The use of Betulacor has a positive effect on the state and structure of the organs of the immune system, which in turn affects the formation of immune organs and contributes to an increase in the body's defensive reactions, general improvement of the livestock population, and increase in production indicators.

Example II The results of the study on broiler chickens.

Materials and research methods. Groups of birds were formed on the basis of analogues. To assess the effect of the Betulacor feed additive on the productivity of broiler chickens, two groups of 10 animals each were formed: a control group and an experimental group. Betulacor was drunk from 21 to 35 days of cultivation. Other conditions for the experiments were the same, the contents - floor.

The influence of Betulacor feed additive on the biochemical parameters of blood, the productivity of broiler chickens was evaluated after 15 days.

Blood biochemical studies were performed on a Chem Well Combi automatic biochemical analyzer (Awaveness Technology)) (USA) using standard reagent kits from Vital Diagnostics Spb, Diasys (Germany).

At the end of the experiment, a control slaughter was carried out with sampling of meat from broilers for histological studies and chemical composition, as well as fatty acid and biological value of meat.

Considered indicators for the entire period of keeping chickens: age of slaughter, number of dead birds, safety, uniformity, average daily gain, live weight.

The results of the study.

To study the blood picture, biochemical blood tests were performed. Data biochemical studies of blood serum of broiler chickens are presented in table 14.

All indicators are within the physiological norm. Significant changes in the experimental group were noted in terms of cholesterol and total phosphorus in the blood serum. In other indicators, trends associated with the action of the Betulacor feed additive are noted.

The activation of protein anabolism in poultry of the experimental group under the influence of the tested feed additive Betulacor may be indicated by a tendency to increase the level of total protein and the concentration of serum albumin by 10% relative to the values of the control group. This is confirmed by data on a decrease in the concentration of uric acid in the experimental group (below the control values), which indicates a blockage of uric acid synthesis. The concentration of serum globulins in the experimental group is higher than the control value by 10.4%, which can be explained by the immunostimulating effect of the Betulacor feed additive. There is a tendency to a decrease in glucose level in the experimental group by 16.5% relative to the control group. This may indicate the intensification of energy / carbohydrate metabolism and heat production in the bird's body, under the influence of the Betulacor feed supplement. Indicators of lipid metabolism, under the influence of a feed additive, varied differently. The same level of triglycerides (1.1 mmol / L) was observed in the control and experimental groups. The cholesterol level in the experimental group turned out to be significantly lower (by 28.7%) than the values in the control group, which can be explained by the hypocholisterinemic properties of betulin. The influence of the Betulacor feed additive on the mineral metabolism of the experimental group was noted. The activity of alkaline phosphatase in the experimental group is higher than the control by 4.5%. The concentration of calcium in serum in the experimental group is less than in the control group by 2.8%. The phosphorus concentration in the experimental group is lower than the control by 40.1%, while the difference between the control and the experimental group is significant. Increased activity of alkaline phosphatase, along with a decrease in serum phosphorus and calcium, is likely to indicate active osteosynthesis in broiler chickens, with increased body mineralization costs for bone tissue at high skeletal growth rates. In the experiment in the experimental group, a greater increase in live weight was noted than in the control. The results of the control weighing of broiler chickens are presented in table 15.

The analysis of the table indicates that the live weight and average daily seedlings of broiler chickens were 2.2% higher in the experimental group, where the chickens received Betulacor feed supplement. The herd uniformity in the experimental group was higher, as evidenced by the average deviations by weight. Preservation of 100%. Data on the results of the control slaughter of broiler chickens are presented in table 16.

The analysis of table 16 indicates that in the experimental group the output of the pectoral and foot muscles was higher than the control by 5.09%. In broiler poultry farming, the output of the pectoral muscles compared to the leg muscles should be in the ratio of 40% and 30%, respectively, this is the genetically inherent potential of modern crosses. When using the Betulacor feed additive (experimental group), the output of the pectoral muscles was more than 40% and above the control by 5.7%.

Meat quality by shelf life is assessed by lipid peroxidation, an indicator of malondialdehyde (MDA). The higher this indicator, the more intensively the decay processes take place, which negatively affects the quality of meat during storage.

The results of the research of meat by shelf life are presented in table 17.

MDA characterizes several physiological processes: the disposal of toxic substances, respiratory processes, the presence of inflammatory reactions. The Betulacor feed additive used obviously affects the disposal of toxic substances. The lower the level of MDA, the better the meat, the less decay products and it can be stored for a long time. The technological properties of meat are improving. This can be said about white meat (pectoral muscles) in the experimental group.

An analysis of the table indicates that 0.8 percent more dry matter is deposited in the muscle tissue of the experimental group chickens; ash by 0.21%; crude fat by 0.8%, crude protein by 1.9% (no significant difference).

From the data of table 19 it follows that the level of macronutrients in the bones of chickens of the experimental group is higher than the control values. The used Betulacor additive helps to normalize mineral metabolism, strengthen bone structure and, as a result, normal muscle mass formation.

The biological usefulness of meat was studied by the ratio of amino acids in meat. Tryptophan characterizes the essential amino acids that are not synthesized in the body, come with food. Oxyproline characterizes interchangeable amino acids that are synthesized in the body and are part of connective tissue proteins.

In broiler chickens at the end of the growing period of 35-40 days, the norm for protein-quality indicator (BPC) should be no more than 3.2-4.2, for tryptophan no more than 0.12-0.15; oxyproline not less than 06-0.08. In the experimental group, the level of oxyproline is 2.6 times higher than in the control group, which indicates intensive synthetic processes, in particular protein synthesis, the formation of new blood vessels, better nutrition of tissues and the formation of new muscle fibers. The best result in broiler meat productivity was obtained in the experimental group, where the level of oxyproline is optimally close to the standard values. The broilers of the experimental group are normally developed in accordance with their age.

According to the fatty acid composition, the following can be noted: in the pectoral muscle of broiler chickens of the experimental group, a tendency to a lower deposition of saturated fatty acids was revealed, hence it can be assumed that cholesterol is deposited less in meat. In the meat of the chickens of the experimental group there are more mono-unsaturated fatty acids than in the control. They can be synthesized in the body from saturated fatty acids and carbohydrates. One of their important functions is to lower blood cholesterol, as evidenced by the cholesterol table 2: in the experimental group where broiler chickens received Betulacor feed supplement, the cholesterol level was 28% lower than in the control. Polyunsaturated fatty acids are also less fixed in the pectoral muscle of broilers of the experimental group compared to the control. These fatty acids are part of the cells, participate in the metabolism and provide growth processes. They are not synthesized in the body.

The effectiveness of Betulacor is presented in table 22:

Example III The results of a study on the use of Betulacor on lactating cows.

Somatic cells are cells of various tissues and organs, in particular, they can be cells of the epithelium of the mammary gland, white blood cells and red blood cells.

In cows, the level of somatic cells in milk is from 50 to 200 thousand cells / ml - the herd is considered healthy.

Milk protein is an important indicator of milk quality; modern genetics is aimed at its increase. And to unleash the full potential of animals, including obtaining high levels of protein in milk - this is the task of producers.

The protein content in milk reflects whether the cow is well provided with energy, and is a kind of energy barometer for the herd. It depends on whether there is enough energy at the disposal of rumen microbes synthesizing a microbial protein, what the indicator of protein in milk will depend on.

The fat content in milk characterizes, first of all, whether the necessary structure of the diet is provided. Since the formation of milk fat is mainly responsible for the acetic acid formed in the rumen, and it is synthesized from plant fiber, it is the sufficient content of hay, hay, straw in the diet that is responsible for the normal level of fat in milk (control of the ratio of voluminous feed to concentrated feed, the amount eaten stern).

Materials and methods. The experiment was carried out on the basis of LLC Bitimskoye SKHPK. The object of study is fresh-breeding cows of the Holstein breed. Before the start of the experiment, the following background indicators were determined: the composition of milk, the biochemical composition of blood serum, the hematological composition of the blood. For the experiment, 10 animals were selected, which for 30 days as an additive to the main diet were fed bread, soaked in alcohol emulsion of betulin at the rate of 0.25 mg / l per 1 kg of live weight. At the end of the experiment, the following indicators were determined: the composition of milk, the biochemical composition of blood serum, the hematological composition of the blood.

Research results. Table 9 presents the results of the determination of somatic cells in milk (background and aftereffect)

An analysis of the results showed that the concentration of somatic cells in cow's milk is high and amounts to 1284 thousand / cm3. This indicator exceeds quality standards. In general, the whole studied population experienced a decrease in the concentration of somatic cells by 41%, or 1.7 times. In 70% of the cows studied, somatic cells in milk after the use of betulin emulsion decreased by 2.7 times or by 64%.

It can be assumed that in 50% of the livestock, the use of an emulsion led to a healthier livestock: the concentration of somatic cells decreased by 78% or 4.3 times (from 953 thousand / ml to 208 thousand / ml).

Table 10 presents the hematological analysis of blood of cows (background and aftereffect)

The platelet count in the background group, as well as in the exposure group, is within the physiological norm. The concentration of blood platelets in the exposure group was significantly higher by 21.06% of this indicator in the background group (at p≤0.05). This difference can be explained by the stimulation of hematopoiesis, in particular, the increased formation of megakaryocytes in the body of animals treated with the Betulacor feed supplement.

In the exposure group, there is a tendency to increase the concentration of hemoglobin in the blood, compared to the background by 16.81%, within the physiological norm. This can be explained by an increase in the rate of energy metabolism in the body of cows fed Betulacor feed.

In the exposure group, there is a tendency to increase the total concentration of blood lymphocytes within the physiological norm, by 38.5%. The increase in the concentration of lymphocytes is associated with the immunostimulating effect of emulsified betulin on the body of cows. This trend reflects the growth of specific protection against a variety of pathogenic microorganisms.

When exposed to a tendency to a decrease in the concentration of neutrophils and monocytes; tendency to increase the concentration of basophils.

Table 11 presents the biochemical parameters of the blood of cows (background and aftereffect)

The total protein content after application of the additive decreased by 5.2%; at the same time, for the albumin fraction, the decrease was 2.7%, and for the globulin fraction - 6.4%.

The content of creatinine and urea in the blood serum after the use of Betulacor increased by 1.6% and 68.42%.

The activity of alkaline phosphatase, after the use of Betulacor additive increased by 21.49%, compared with the background of the experiment, the Ca / P ratio after application of the feed additive increased slightly.

The serum ALT activity decreased by 24.6% compared to the background. ACT activity increased by 58%.

The results of analyzes on protein and milk fat indicate that Betulacor has an effect on a significant increase in protein in milk by 13.6%, as well as a tendency to increase fat in milk by 26.8%.

Thus, the use of Betulacor on laying hens of the parent herd led to an increase in the content of vitamin A in the egg by 14-35% cu $ 6634-8477 (4885-7290 cu in control), 85% of chickens (82% in control). In laying hens, reproductive organs quickly recovered after molting when using Betulacor feed supplement. In roosters of the experimental group with a lower live weight, the size and weight of the testes was significantly larger by 14% (35.25 versus 30.45 g), which indicates the intensity of sperm formation. When studying liver samples of laying hens of the control group in hepatocytes, small and large droplet fatty degeneration, granular degeneration was detected, which indicates the tension of protein-fat metabolism in the body. The growth of connective tissue, its edema was revealed. The beam structure of the organ and lobules was poorly visible. The arterial system was in a state of atrophy. In the liver samples of the experimental group, where hens received Betulacor, the structure of the organ was not broken, the pattern of the beam structure of the organ was clearly expressed, the lobules were clearly visible. The nuclei of the hepatocytes were smooth, uniform. As a sign of high immunobiological activity of the liver, lymphoid accumulations of the lymphoid follicle type were detected. There were no signs of hepatocyte dystrophy. Signs of obesity, in contrast to the hens of the control group, were not detected. In the spleen of hens of the control group, a developing process of fibrosis was observed. Plasma cell degeneration of the elements of the white pulp was observed; instead of lymphoid follicles, there were plasma cell follicles. An increase in connective tissue was detected, as a result of which the spleen was compressed. In the samples of the spleen of the experimental group, breeding centers were clearly visible. The structure of the white pulp follicles was pronounced; single plasma cells were detected among lymphoid cells. White pulp was evenly distributed throughout the organ.

Betulacor feed supplement helps to unlock the genetic potential of broiler chickens; live weight and daily average growth above 2.2% of the control values, slaughter yield by 1.86% and pectoral muscle yield by 5.76%. Betulacor normalizes the fatty acid composition and protein-quality indicator of meat, stimulates the synthesis of amino acids

The use of the feed additive Betulacor to newborn cows (3rd month of lactation) led to a decrease in the level of somatic cells by 41% in 70% of the study population and by 81% in 50% of the study population and in the latter case amounted to 208 thousand cells. in 1 ml (at 200 thousand cells. the herd is considered healthy).

Significantly (at p <0.05), the milk protein index increased by 13.6%, which indicates the influence of the Betulacor feed additive on protein synthesis in the body.

It is recommended to use the Betulacor feed additive in the form of an emulsion for laying hens of the broiler’s parent flock to increase broiler chickens by 3%, broiler chickens to increase pectoral muscle output by 5%, lactating cows to increase milk yield by 13%, to reduce somatic cells in milk up to 200 cells.

Claims (9)

A feed additive for farm animals and birds containing betulin, characterized in that it contains ethyl alcohol, food emulsifier Tween-80, citric acid, emulsion stabilizer Agar, water-retaining preparation glycerin and water in the following ratio of starting components, wt.%: - ethyl alcohol - 1.43; - betulin - 0.5; - emulsifier food Tween-80 - 0.5; - citric acid - 0.1; - stabilizer emulsion Agar - 0.05; - water-retaining preparation glycerin - 1.0; - water - 96.42, intended for mixing to obtain a homogeneous suspension with a particle size of betulin less than 1 micron.