RU2752956C1 - Method for increasing nonspecific resistance of body of calves - Google Patents

Abstract

FIELD: veterinary medicine.SUBSTANCE: invention relates to veterinary medicine, in particular to a method for increasing the nonspecific resistance of the body of calves. The method includes the introduction of an additive consisting of an active coal feed additive, sugar, flaxseeds and table salt into the main diet. All components are used in a certain ratio. The additive is introduced at the rate of 30 ml of feed additive per 100 kg of live weight.EFFECT: use of the invention will increase the immunological status of calves, as well as increase their productivity.1 cl, 6 tbl

Description

The invention relates to veterinary medicine, in particular to drugs for increasing resistance and correcting the immunological status of the body of polygastric animals, and can be used to prevent metabolic disturbances in the body of animals, ensure the immunobiological activity of the body and increase the productivity of farm animals.

The preservation and successful rearing of young animals resistant to various environmental influences is one of the main indicators of effective livestock management. The resistance of the animal organism to unfavorable environmental factors is a dynamic indicator and is determined by both the genetic characteristics of the organism and the impact of various environmental factors [N.V. Bogolyubova, V.V. Zaytsev, S.A. Shalamova Methods Of Regulating Physiological And Biochemical Processes And Improving Performance Of Dairy Cows Summer Period // Research Journal of Pharmaceutical, Biological and Chemical Sciences. - July-August 2018 RJPBCS 9 (4) Page No. 1390 (1); Karamaeva A.C., Zaitsev B.B. Dynamics of indicators of natural resistance of calves of different breeds with age // News of the Orenburg State Agrarian University. - 2010. - No. 3 (27) - S. 195-197 (2)]. This circumstance makes it possible to have a directed influence on the formation and manifestation of various factors of the body's defense. Providing animals with adequate nutrition and favorable conditions of keeping, as much as possible corresponding to the biological characteristics of the organism, prevailing in the process of evolutionary development, contributes to the faster formation and better manifestation of its protective mechanisms [Gorelik A.S., Barashkin M.I. Increasing the immunity of calves during the dairy period by using the biotechnological preparation "ALBIT-BIO" / Agrarian Bulletin of the Urals. - 2016. - No. 11 (153). - S. 17-22 (3); Kiselenko P.S. Study of the influence of the extract of the root of Eleutherococcus liquid on some immunobiochemical parameters of the blood of calves / In the collection: Theory and practice of modern agricultural science. Collection of the III national (all-Russian) scientific conference with international participation. Novosibirsk State Agrarian University - 2020. - P. 553-555 (4); Koryakina L.P., Borisov N.I. The state of metabolism and natural resistance in the body of newborn calves / Achievements of science and technology of the agro-industrial complex - 2016. - V. 30. - №1. - S. 62-65 (5)].

Newborns of all animal species have a physiological immune deficiency. A decrease in the indices of nonspecific resistance of the organism (bactericidal, lysozyme activity of blood serum, phagocytic activity of neutrophils) when rearing young animals in conditions of intensive technologies aggravates the manifestation of immunodeficiency. Compensation of physiological immune deficiency with an increase in natural resistance in newborns occurs due to cellular and humoral factors of colostrum [Loretz OG, Gorelik AS, Gorelik OV, Neverova OP. Increasing the natural resistance and safety of calves during the dairy period / Scientific and practical recommendations Yekaterinburg, 2019 .-- 54 p. (6)].

In this regard, the creation and use of various biologically active additives, the action of which is aimed at increasing the resistance of the organism of animals, is an urgent task of science and practice [Kochish I.I., Nesterov V.V., Volchkova L.A., Konovalova E.M. ., Safarova M.I., Kashkovskaya L.M. Innovative Approaches to Stimulate Natural Resistance in Calves / Veterinary Medicine, Animal Science and Biotechnology. - 2019. - No. 9. - S. 27-34 (7); Topuria L.Yu., Belyaeva E.V. The use of immunostimulants to increase the resistance and safety of young calves / In the collection: Theory and practice of modern agricultural science. Collection of the II National (All-Russian) Conference. - 2019. - S. 431-433 (8)].

Known feed additive containing zeolite flour and polypeptides isolated from the organs of the immune system of young cattle, from the thymus and from the spleen. It is stated that the invention allows to increase the protective functions of the body, to increase the productivity of animals [RF Patent No. 2194419 (9)]. The zeolite used in the feed additive, possessing the properties of selective adsorption, ion exchanger and catalyst, provides not only cleansing of the body from toxins and heavy metals, but also more efficient assimilation of biologically active substances. However, the production of this additive requires significant costs and the use of expensive equipment, besides, zeolite, as a component of the additive, also binds vitamins, since it has a large pore size.

Known feed additive for cattle, containing mineral salts, activated sludge, meal of medicinal plants, fodder grit from phyllophora, diammonium phosphate, ammonium sulfate, zinc and manganese carbonates, videin, table salt and feed lignin in a certain ratio of components [Ed. wit. USSR No. 1837793 (10)]. The disadvantage is the complex composition of the feed additive. A known method for normalizing the immunobiochemical homeostasis of cows in the prenatal and postnatal periods [RF Patent No. 2252767 (11)]. According to the invention, a 0.5% sodium selenite solution in a dose of 10 ml is intramuscularly administered to cows 20-25 days before calving. Twice before and twice after calving with an interval of 10 days - tetravit in a dose of 10 ml containing 50,000 IU of vitamin A in 1 ml, 25,000 IU of vitamin D, 20 mg of vitamin E and 5 mg of vitamin.

Known therapeutic and prophylactic agent for farm animals "Rumisol", containing sodium and potassium salts. As sodium and potassium salts, the product contains sodium chloride, potassium chloride, as well as sodium and potassium salts of one or more organic acids selected from the group ascorbic, formic, acetic, valerian, caprylic, enanthic, malic, wine, milk, oxalic, succinic , propionic, citric, malonic, glutaric acid, and as an auxiliary substance - glucose or propylene glycol.

The use of a therapeutic and prophylactic agent ensures the restoration of water and electrolyte balance, energy metabolism and regulation of the pH of the digestive tract in case of animal dyspepsia, ketosis and rumen acidosis in cows, sheep and goats, diarrhea of various etiologies, feed intoxication, mycotoxicosis, dehydration, heat stress, water disorders. -salt balance, stimulates digestion, increases overall tone and increases milk production [RF Patent No. 2547423 (12)].

The disadvantage of the invention is that during the first hour after consumption, the salts of organic acids are dissolved, and the achievement of the highest level of volatile acids in the rumen after eating the feed occurs after 4-6 hours or more. By this time, the added salts of organic acids are utilized in the rumen. Therefore, the effectiveness of the use of small doses of such compounds is minimal, and high doses significantly inhibit feed intake due to the deterioration of its taste properties and negatively affect the growth of microflora and the state of the rumen mucosa.

The purpose of the present invention is to develop a method for increasing the nonspecific resistance of the body of calves by introducing a feed additive into the main diet. The task of the research was to study the characteristics of metabolic processes in the body of calves on the basis of biochemical blood tests, to study the growth rate of animals and indicators of natural resistance under the influence of the feed additive used.

A method of increasing the nonspecific resistance of the body of calves, including the introduction into the main diet of an active coal feed additive enriched with sugar, flaxseed and table salt, with the following ratio of components: active coal feed additive 92%, sugar 2%, flaxseed 5%, table salt 1% , at the rate of 30 ml of feed additive per 100 kg of live weight.

Active coal feed additive produced by LLC STC "Khiminvest" is intended for the prevention and treatment of gastrointestinal diseases of farm animals. Contains, as a sorption material, finely fractionated activated carbon with a particle size of 0.1 to 2 mm, obtained from soft-leaved wood species, and an aqueous solution of bioactive coniferous extract with the following ratio of components, wt. %: an aqueous solution of bioactive coniferous extract - 10-30, finely graded activated carbon - 70-90 [RF Patent No. 2522958 (13)].

Finely graded activated carbon has a high ability to adsorb various substances, liquids and gases on its surface.

Bioactive pine extract is a natural vitamin carrier. Coniferous extract, as a component of the preparation obtained under low-temperature conditions, contains phytoncides, which, entering the oral cavity of a ruminant animal, release volatile compounds into the animal's respiratory tract and simultaneously begin to disinfect the incoming feed of the main diet, tricyclic diterpene compounds (seven acids), each of which, has the strongest effect on certain classes, species and strains of pathogens, but a lower degree of effect on others, blocking the path of pathogens with a barrier, and at the same time preventing them from adapting to these compounds. In addition to compounds that directly affect pathogens, pine needles contain compounds that have an immunomodulatory effect. These compounds include triterpene acids and their nor-derivatives, some lignans, jasmonic acid derivatives, and some terpenoids and polyprenols. Polyprenols are physiologically active substances whose phosphates perform coenzyme functions in living organisms in the biosynthesis of glycoproteins and glycoproteins. Glycoproteins and glycoproteins act as receptors of plasma and intracellular membranes, are part of immunoglobulins B and T - lymphocytes, and determine the blood group in erythrocytes. The content of polyprenols in the raw materials used for the production of the drug is about 1%.

There are many nutrients in the needles. 1 kg of it contains 250 mg of carotene, up to 1200 mg of calcium and 320 mg of iron. In addition, there are copper, zinc, cobalt, phosphorus, manganese and many other trace elements that are very necessary for living organisms. Coniferous woody greens contain more cobalt, iron and manganese than leguminous herbs. The needles contain vitamins C, E, K, P, A and some of the group B. [Rysmyatov A.Z. Needles - highly nutritious and medicinal food // Siberian Land, Far East, 1985. №1. S. 13-14. (fourteen); Berestov V.A., Petrova G.G., Izotova S.P.

The use of woody greenery in industrial fur farming and rabbit breeding. L. Kolos Leningrad. branch 1982.96 p. (15)]. The coniferous extract also contains glycerin (extractant not extracted from the product); is rapidly absorbed in the rumen and is largely available for intermediate metabolism as a glucoplastic substance. Here it can be used for glucose synthesis and for direct energy production, ideal for compensating for possible energy deficits in ruminant feeding. In addition, it helps to reduce the concentration of fatty acids in the blood, which significantly reduces the manifestation of the "fatty liver" disease, prevents the manifestation of energy imbalance.

Sugar for ruminants is not only a source of energy, but also necessary for the normal functioning of the rumen microflora.

Flaxseed is very rich in fat (36%) and protein (24%), easily digestible, therefore it is especially valuable for young farm animals. Flax seeds swell in the gastrointestinal tract, forming slimy solutions that have excellent dietary properties.

Table salt is necessary for animals to maintain the acid-base balance in the blood and water balance in the body. Without table salt, it is impossible for the muscles, stomach and nervous system of the animal to function properly. Salt is not produced by the body and does not come in sufficient quantities from grass, hay and feed. Salt is involved in metabolic processes, thanks to which each cell receives the right amount of nutrients. It enhances the taste of food, which affects the growth of the animal's appetite and has antibacterial properties, protecting the body from the development of harmful bacteria.

To implement the assigned tasks, a scientific and economic experiment was carried out on four groups of analogous calves by age, live weight of the black-and-white breed, 10 heads each, at the age of 2-5 months, at the Raduga LLC farm of the Krasnoyarsk District of the Samara Region according to the following scheme :

The dairy calves of the control group were fed according to the ration adopted on the farm (OR-basic ration). Animals 1, 2 and 3 of the experimental groups were given a feed additive in addition to the main diet. The supplement was administered orally by syringe daily in the morning feed.

The duration of the scientific and economic experience was 90 days. Animals of the control and experimental groups were housed in the same room.

During the study period, live weight gains (gross, daily average) were determined. At the beginning and at the end of the experiment, blood tests were carried out in animals of the control and experimental groups.

Live weight and the absolute increase in live body weight to a certain extent make it possible to judge not only the growth rate of animals, but also their development. At the same time, fast-growing animals consume significantly less feed nutrients per unit of production than animals that grow slowly. Data on the live weight of calves in the control and experimental groups are presented in table. 2.

From the data presented in the table, it can be seen that the live weight when setting up for the experiment was practically the same, with fluctuations between the groups from 72.3 to 73.3 kg.

It was found that during the period of scientific and economic experience, young animals of the 2nd experimental group developed most intensively, receiving a biologically active additive at a dosage of 30 ml / 100 kg of live weight per day. So, at the end of the scientific and economic experiment, the calves of the 2nd experimental group in body weight exceeded their peers from the control group by 6.6 kg, or by 4.0%, and their average daily gain in live weight was 73 , 5 g or 9.9%, respectively, with a significant difference. The calves of the 1st and 3rd experimental groups also outperformed their peers from the control group in terms of the average daily gain in live weight by 23 g (3.2%) and 31.1 g (4.2%), respectively, but the difference was not statistically significant ...

The increase in the average daily gain in live weight of dairy calves in the experimental groups is apparently due to the fact that the feed additive they receive in various dosages supplies the animal's body with nutrients and biologically active and energetic substances, has an antibacterial and immunomodulatory effect, and promotes the development of beneficial microflora in the gastrointestinal tract. -intestinal tract.

The study of morphological and biochemical parameters of blood allows you to assess the intensity of physiological processes in the body. Blood is a direct participant in metabolism.

Morphological and biochemical blood parameters of calves from the control and experimental groups at the beginning and end of the experiment are presented in table. 3 and 4.

These tables show that the studied blood parameters of calves in the control and experimental groups at the beginning of the experiment were within the physiological norm and practically did not differ.

Analyzing the data in Table 4, it should be noted that the studied blood parameters of the experimental animals at the end of the experiment were within the physiological norm, some changes were established in the blood composition of the control and experimental groups of calves.

Hemoglobin in the blood of animals acts as an oxygen carrier to the hematopoietic organs. The amount of hemoglobin in calves of the control group is 98.20 g / l. In experimental group 1, this indicator was higher by 9.2 g / l (9.3%), in experimental group 2 - by 11.6 g / l (11.8%) and in experimental group 3 - by 9, 0 g / l (9.1%), compared with analogs from the control.

Red blood cells carry out the respiratory function in the blood, which is one of the most important. The highest content of erythrocytes in the blood of calves was observed in the experimental groups in comparison with the control.

In the 1-experimental group of animals, the number of erythrocytes was at the level of 11.89 × 10 ¹² / L, in the 2 ^{-experimental group - 11.82 × 10 12} / L and in the 3 ^{-experimental group - 11.80 × 10 12} / L, which is higher compared with the control, respectively, by 7.8-8.6%.

There was a slight increase in the number of leukocytes in the blood of calves of the experimental groups, in contrast to the control by 6.2-7.1%.

Proteins are the main constituent of blood, they are able to maintain osmotic pressure and blood pH, play an important role in the formation of hormones, carbohydrates, as well as lipids and other essential substances. In the protective activity of the body, their role is great, they are involved in water metabolism, the transfer of nutrients and metabolic products, as well as blood clotting. The total protein content in the blood of calves in the control group was 67.06 g / l, in the 1-, 2- and 3-experimental groups, this indicator exceeded the control, respectively, by 3.81 g / l (5.6%), 6, 6 g / l (9.9%) and 4.81 g / l (7.2%).

At the end of the experiment, in our studies, there was a tendency to an increase in the concentration of total protein in the blood of experimental animals in comparison with control animals (by 5.6-9.9%), a decrease in the level of urea (respectively, by 23.3-26.5%, at P <0.05).

The concentration of creatinine in the blood of calves from the experimental groups was lower than in the control by 9.9-11.8%), which may indicate a more intense course of nitrogen metabolism.

In the blood of animals of the experimental groups, there are higher indicators of the activity of aminotransferases, which carry out the transfer of amino groups from amino acids to keto acids, ACT - up to 9.6%.

An important role in the body also belongs to carbohydrate metabolism. In our studies, in the blood of calves that received a dietary supplement, the glucose level was slightly higher, which may indicate a higher energy supply in their body.

It should be noted a decrease in the cholesterol content in animals of the 1st experimental group by 6.7%, in the 2nd experimental group by 4.6% and in the 3rd experimental group by 1.5%, compared with the control. This indicator may indirectly reflect the improvement in the functional activity of the liver.

Of particular importance is the level of natural resistance of the animal organism, their adaptive abilities. In this regard, we have determined the factors of natural resistance of animals in comparison with the control (Tables 5 and 6).

Analyzing the data on nonspecific resistance presented in Table 5, it was noted that these indicators at the beginning of the experiment in all three groups were similar.

At the end of the experiment, the calves of the control and experimental groups showed some differences in terms of natural resistance.

The bactericidal activity of the blood serum of the calves of the experimental groups was higher than that of the control animals by 5.1% (the first experimental), by 13.5% (the second experimental) and by 6.8% (the third experimental).

In our studies, the content of lysozyme in the blood serum in the experimental groups was at the level of 0.63-0.70 μg / ml.

One of the main cellular factors of natural resistance in calves is the phagocytic activity of blood neutrophils (FA), which is characterized by the number of bacteria captured by leukocytes. The highest phagocytic activity of neutrophils was noted in the experimental groups, especially in the 2nd and 3rd. The calves of the experimental groups outperformed their peers from the control group by 10.2-26.5%.

The phagocytic number (PN), which is determined by the average number of phagocytosed bacteria by one neutrophil and determines the phagocytic activity of neutrophils in the control and experimental groups, was at the level of 1.1-1.2.

Thus, based on the data of biochemical and hematological blood tests, it follows that the inclusion of a feed additive in the diets of calves has a positive effect on the course of nitrogen metabolism in the body of animals and indicators of natural resistance.

Based on the studies carried out, it can be concluded that the inclusion of a dietary supplement at a dose of 30 ml / head per day in the diet contributed to the greatest increase in live weight gain in experimental animals by 9.9% and an improvement in natural resistance indicators.

Sources of information:

1. N.V. Bogolyubova, V.V. Zaytsev, S.A. Shalamova Methods of Regulating Physiological And Biochemical Processes And Improving Performance Of Dairy Cows Summer PeriooV / Research Journal of Pharmaceutical, Biological and Chemical Sciences. - July-August 2018 RJPBCS 9 (4) Page No. 1390.

2. Karamaeva A.C., Zaitsev B.B. Dynamics of indicators of natural resistance of calves of different breeds with age / News of the Orenburg State Agrarian University. - 2010. - No. 3 (27) - S. 195-197.

3. Gorelik A.S., Barashkin M.I. Increasing the immunity of calves during the dairy period by using the biotechnological preparation "ALBIT-BIO" / Agrarian Bulletin of the Urals. - 2016. - No. 11 (153). - S. 17-22.

4. Kiselenko P.S. Study of the influence of the extract of the root of Eleutherococcus liquid on some immunobiochemical parameters of the blood of calves / In the collection: Theory and practice of modern agricultural science. Collection of the III national (all-Russian) scientific conference with international participation. Novosibirsk State Agrarian University - 2020. - P.553-555.

5. Koryakina L.P., Borisov N.I. The state of metabolism and natural resistance in the body of newborn calves / Achievements of science and technology of the agro-industrial complex - 2016. - V. 30. - №1. - S. 62-65.

6. Loretz O.G., Gorelik A.S., Gorelik O.V., Neverova O.P. Increasing the natural resistance and safety of calves during the dairy period / Scientific and practical recommendations. Yekaterinburg, 2019 .-- 54 p.

7. Kochish I.I., Nesterov V.V., Volchkova L.A., Konovalova E.M., Safarova M.I., Kashkovskaya L.M. Innovative Approaches to Stimulate Natural Resistance in Calves / Veterinary Medicine, Animal Science and Biotechnology. - 2019. - No. 9. - S. 27-34.

8. Topuria L.Yu., Belyaeva E.V. The use of immunostimulants to increase the resistance and safety of young calves / In the collection: Theory and practice of modern agricultural science. Collection of the II National (All-Russian) Conference. - 2019 .-- S. 431-433.

9. RF patent No. 2194419.

10. Auth. wit. USSR No. 1837793.

11. RF patent №2252767.

12. RF patent No. 2547423.

13. RF patent No. 2522958.

14. Rysmyatov A.Z. Needles - highly nutritious and medicinal food / Siberian land, Far East, 1985. №1. S. 13-14.

15. Berestov V.A., Petrova G.G., Izotova S.P. The use of woody greenery in industrial fur farming and rabbit breeding. L. Kolos Leningrad. branch 1982.96 p.

Claims (1)

A method of increasing the nonspecific resistance of the calves' body, including the introduction into the main diet of an active coal feed additive enriched with sugar, flaxseed and table salt, with the following ratio of the initial components: active carbon feed additive 92%, sugar 2%, flaxseed 5%, table salt 1%, based on 30 ml of feed additive per 100 kg of live weight.