RU2252020C1 - Antianemic and growth-stimulating preparation - Google Patents

Abstract

FIELD: pharmaceutics, veterinary science.

SUBSTANCE: the present innovation deals with preventing and treating hypomicroelementosis in different farm and domestic animals, furred animals, and, also, for enhancing the growth in animals, and treating a number of specific diseases and, also, for maintaining microelemental composition of feedstuffs. The suggested preparation includes chelated complex of iron, manganese, zinc, copper, cobalt, selenium and iodine with organic ligand of complexone type and water. According to the innovation as a chelation ligand it contains trisodium salt of methionine succinic (α-amino-γ-methylthiobutyric-N-succinic) acid at a certain ratio of components. The innovation provides to obtain preparation in soluble form being capable to be well digested by the animal.

EFFECT: higher efficiency.

Description

The invention relates to animal husbandry and fur farming, and in particular to drugs used in veterinary medicine for the prevention and treatment of hypomicroelementoses in various agricultural and domestic animals, fur animals, enhancing animal growth, treating a number of specific diseases, and also for maintaining the microelement composition of feed.

The main source of trace elements for animals is feed. However, their mineral composition is subject to significant fluctuations and depends on many factors (soil, plant species, harvesting phase, level of fertilizer application, climatic conditions, etc.). Often there is a lack of some elements and an excess of others. Mineral substances of the feed are absorbed by the body only by 25-30%. Therefore, the problem of the animal’s mineral nutrition should be addressed in a comprehensive manner, both due to complete fodder, and due to the introduction of microelement additives in the diet, not as top dressing for each element separately, but as part of a complex of elements. For the prevention and correction of metabolic disorders, additives are added to the diet of inorganic salts of trace elements. Meanwhile, inorganic salts, especially in the clinical forms of microelementoses, are not always effective enough. This is due to their low bioavailability (no more than 20-30%), as a result of which the animal organism's need for them is not satisfied even with sufficient dosages and prolonged use. At the same time, the bioavailability of many elements is higher if they are part of organic compounds. In such compounds, the activity of trace elements increases significantly. Of particular interest are complex compounds containing cyclic groups as the ligand, the so-called chelate or chelate compounds. The use of chelated compounds provides a better assimilation of the metal than when introduced into the diet in an inorganic or some other form. Such compounds are used orally and parenterally, they are able to overcome the placental barrier and have a certain effect on the fetus, they have a positive effect on blood formation processes, normalize metabolic processes.

Chelate complex compounds are the most beneficial form of the interaction of a metal with a ligand for the body.

Known synthetic methionine used in animal husbandry to enrich diets (V.K. Menkin. Feeding farm animals. M. Kolos. 1997. S. 269-274). Methionine is an essential amino acid and is a critical amino acid in the diets of monogastric animals, poultry, young ruminants, since these animals cannot synthesize it from nitrogen-containing feed substances. Methionine is involved not only in protein synthesis, but also is a universal source of metal groups, the synthesis of which in the body is limited. The most important methylation reactions proceeding with the participation of methionine are the conversion of guanidoacetic acid to creatine, collamine to choline. The lack of synthesis of choline contributes to the disruption of the transport of lipids from the liver to the blood. The absence or deficiency of methionine leads to growth retardation of animals and low feed use, anemia, obesity of the liver, coarsening and brittle hair, muscular atrophy are often observed. Toxic methionine deficiency is associated with toxic dystrophy of the liver of piglets. In the practice of fur farming, bone offal is mainly used, the protein of which contains 30-60% less sulfur-containing amino acids in comparison with the protein of muscle protein. Such diets do not provide the body with essential amino acids, since a lack of methionine in the diet leads to a deterioration in the quality of the skins due to a decrease in the density of the hairline and defects of the outer hair.

Known antianemic and growth-promoting drug for animals, including a chelate complex of iron, manganese, zinc, copper, cobalt, selenium and iodine with an organic ligand - disodium or dipotassium salt of ethylenediamine-N, N'-di-succinic acid (EDDYAK) and water (RU No. 2203657) , class A 61 K 31/295, A 61 K 31/00, A 61 P 7/00, 2003).

The disadvantages of the known drug include certain technological difficulties in its preparation associated with the use of a volatile, highly toxic substance - ethylenediamine, which is not produced in the Russian Federation, which forces the use of an imported product. In addition, the drug is not effective enough.

Given the importance of methionine and trace elements in the life of the body, it seems advisable to introduce methionine into animal feed not as a free amino acid, but in the form of its combination with trace elements. However, such compounds are practically insoluble in water, which complicates their use and assimilation by the animal organism (V.I. Dorozhkin, doctoral dissertation, 1997).

The objective of the invention is to develop a new drug in a soluble form that can be easily absorbed by the body, with an optimal ratio and a wide range of microelements for the prevention and treatment of metabolic disorders and a number of diseases in agricultural and domestic animals, fur animals, poultry, as well as simplification of its technology obtaining and exclusion from the production of highly toxic components.

The technical result of the invention is achieved by the fact that biogenic metals are associated with an organic ligand of the complexon type into a chelate type complex compound, and the ligand serves not only as a carrier of biogenic metals, but also is a metabolite and a stimulator of metabolic processes.

This object is achieved by the fact that in the antianemic and growth-promoting preparation for animals, including the chelate complex of iron, manganese, zinc, copper, cobalt, selenium and iodine with an organic ligand such as complexon and water, according to the invention, it contains a trisodium methionine succinic acid salt as a ligand when the following ratio of components, wt.%:

trisodium salt

methionine succinic acid 15.0-40.0

iron (III) 1.0-5.5

manganese (II) 0.25-3.0

copper (II) 0.1-0.55

zinc (II) 0.05-1.5

cobalt (II) 0.02-0.30

selenium (IV) 0.02-0.06

iodine (I) 0.01-0.08

water the rest.

In the claimed preparation, methionine is the core of a complexon molecule with succinic acid attached to it. The obtained complexes of chelate micronutrients are highly soluble in water and therefore well absorbed by the body. The drug based on methionine succinic acid and trace elements has immunomodulatory, stress-protective, growth-promoting and anti-anemic effects.

The ligand, methionine succinic (α-amino-γ-methylthiobutyric-N-succinic) acid is obtained by the reaction of nucleophilic addition of amines at double bonds of unsaturated dicarboxylic acids.

Initially, the ligand is synthesized by reacting equivalent amounts of sodium salts of maleic acid and methionine at a temperature of 105-107 ° C for 12-14 hours. The components used for the reaction are non-volatile and non-toxic, which simplifies the process of obtaining the ligand and makes it safe.

The anti-anemic growth-promoting drug Hemovit-Meyan is obtained in an enameled reactor or in a stainless steel reactor by the interaction of the trisodium salt of methionine succinic acid and trace elements salts. As salts of trace elements, their chlorides or sulfates can be used. It is also possible to use them in the form of crystalline hydrates, as well as anhydrous salts.

Example.

In the form of an aqueous solution, 313.6 kg (70.70% by weight) of the trisodium methionosuccinic acid salt was charged. In a separate reactor, solutions of salts of iron (III), copper (II), manganese (II), zinc (II), cobalt (II) were prepared by dissolving 46.5 kg of softened water in 45 kg (10.15%) (10, 47%) FeCl ₃ , 27.0 kg (6.09%) MnSO ₄ × H ₂ O, 4.2 kg (0.95%) ZnCl ₂ , 5.0 kg (1.13%) CuSO ₄ × 5H ₂ O, 1.2 kg (0.27%) of CoCl ₂ × 6H ₂ O. The resulting solution of trace elements was transferred to a reactor containing a ligand, and stirred at 70-80 ° C for one hour.

A solution of iodine and selenium compounds was prepared separately by dissolving 0.35 kg (0.08%) of Na ₂ SeO ₃ and 0.3 kg (0.07%) of Kl in 0.4 kg (0.09%) of water and added to the total mass 1 hour after the introduction of the remaining trace elements at a temperature of 70 ° C and stirred for 5 minutes.

Upon receipt of a complex of trace elements and methionine succinic acid, changing the number of individual trace elements, you can get a drug containing the ratio of trace elements necessary for each particular case. Upon receipt of the drug, the amount of methionine succinic acid should be 0.5-3.0% more than the total amount of all trace elements.

The resulting preparation is a dark brown liquid (pH of an aqueous solution of 6-8, mass fraction of iron 3.5%). The drug is unlimitedly soluble in water and does not dissolve in organic solvents. The solution of the drug should be stored in glass or plastic containers. Storage in containers made of ferrous metals or aluminum is unacceptable due to the corrosive activity of the drug.

By distillation of water at a temperature of 108-110 ° C, you can get the drug in the form of a paste. For example, having driven off 120 L of water from the obtained preparation solution, a dark brown pasty substance is obtained, a pH of a 10% aqueous solution of 6-8, and a mass fraction of iron of 4.80%. Upon receipt of the preparation in the form of a paste, solutions of the iodine (I) and selenium (IV) compounds are added to the reaction mass after distillation of a predetermined amount of water, cooling the reaction mass to 75-80 ° C. After cooling to room temperature, the preparation turns into a paste-like substance. It is stored in a hermetically sealed container because it is hygroscopic.

Studies to determine the acute and subchronic toxicity of the drug were carried out according to the “Methodological guidelines for the determination of the toxic properties of drugs used in veterinary medicine and animal husbandry (extract from regulatory documents approved by the Ministry of Health of the USSR, VASKHNIL, GUV Gosagroprom of the USSR), reference book“ Veterinary preparations ”, 1988.

Acute experiments on mice made it possible to determine that the drug belongs to hazard class 4 (slightly hazardous) according to GOST 12.1.007.76, and the calculated cumulation coefficient showed the absence of cumulative properties.

The effectiveness of the use of the drug Gemovit-Meyan can be illustrated by the following examples.

Example 1

The biological activity of the Hemovit-Meyan preparation was evaluated using a model of experimentally reproduced posthemorrhagic anemia of white rats. Two groups of rats were formed with 10 animals each. The first group within a month received in addition to the diet the preparation Gemovit - Meyan based on trace elements, mg / kg body weight: Fe-2.0; Mn-1.0; Zn-0.2; Cu-0.2; Co-0.03; Se-0.02; I-0.025. The second group received only a diet and served as a control.

Since before the experiment all the rats received the same general diet for seven days, the background values presented are represented by average numerical data and reflect the physiological state of the animals in both groups.

The drug was administered daily to the experimental group in the form of a solution in distilled water using a probe, since there was no guarantee that it would be completely eaten by rats with food. Rat weighing was carried out at the beginning of the experiment and after 30 days of the experiment.

Hematological parameters were determined in dynamics - at the beginning of the experiment; then after 15 and 30 days of experience. Blood was collected from the tail vein of all animals, in which the total protein, hemoglobin, erythrocytes, and hematocrit were determined. The results are presented in table 1.

From table 1 it is seen that the drug Hemovit - Meyan has a positive effect on hemo - and erythropoiesis. In rats treated with the drug, clinical signs of anemia gradually disappeared by the 15-20th day of the experiment.

From table 1 it is also seen that before the start of the experiment, a decrease in the level of indicators of red blood was recorded in animals. In the experimental group, they returned to normal. The drug Gemovit-Meyan also activates the metabolism, as evidenced by the increase in the level of total protein in the blood of rats of the experimental group and the nature of the change in body weight of animals of the experimental and control groups.

Example 2

To clarify the therapeutic efficacy of the drug Gemovit - Meyan with hypotrophy, three groups of piglets of hypotrophic month-old age of 9 animals each were formed.

The first group received, in addition to the diet, the Hemovit-Meyan preparation for a month based on trace elements, mg / kg weight: Fe-3.0; Mn-1.5; Zn-2.0; Cu-0.3; Co-0.03; Se-0.02; I-0.025. The second group received micronutrients as part of the Gemovit preparation - plus in the form of a complex with ethylenediamidinic succinic acid in the same dosages for micronutrients. The third group of piglets served as control and received only a general diet.

The preparations were diluted with water 5 times and thoroughly mixed with food. The results of the experiment are presented in table 2.

The data in Table 2 show that both trace elements are quite effective in the treatment of piglet hypotrophy. Prior to the experiment, morphological and biochemical parameters in hypotrophic piglets were below the physiological norm. Trace elements contribute to the restoration of hemo - and erythropoiesis, total protein and nonspecific resistance. The preparations steadily provided the average daily weight gain of animals. In the first and second groups, the average daily increase was 241 and 227 g against 198 g in the control. Table 2 also shows that the Hemovit-Meyan preparation has some advantage over Hemovit - plus, which can be explained by the growth of ligand activity associated with the inclusion of methionine, a critical amino acid, in the ligand.

Since the natural resistance of the animal organism is a function of the immune system, by increasing the bactericidal and lysozyme activity of blood serum, one can judge both the immunostimulating activity of the preparations and the improvement of the activity of the body's immune system.

Analyzing the results of determining the bactericidal activity of blood serum as an integral factor of the nonspecific humoral defense of the body, which mainly reflects the immune status of animals, it can be noted that in animals of the first group this indicator was higher than in the control by 18% and slightly exceeded the indicator of the second group. Another indicator, namely lysozyme, as an inducer of macrophage function of the body in hypotrophs plays an important role in the humoral defense of the body. Lysozyme activity in the first group increased by 14.9% compared with the control and was higher than in the second group.

Thus, it was established that the Gemovit-Meyan preparation promotes animal recovery, increases weight gain, restores the morphological parameters of hemo - and erythropoiesis, and stimulates non-specific resistance.

Example 3

A study of the effectiveness of the Gemovit-Meyan preparation was carried out on downhole young minks of pastel color. 220 heads of male puppies were selected, divided into 2 groups of 110 goals each.

The experimental group received trace elements associated with methionine succinic acid Gemovit-Meyan based on the daily dose of mg / head: Fe-2.0; Mn-1.0; Zn-0.3; Cu-0.2; Co-0.05; Se-0.02; I-0.025.

The control group received the same daily doses of micronutrients, but associated with ethylenediamidinedinic acid (Hemovit - plus). Otherwise, the conditions of keeping and feeding both groups were identical.

During daily observation of animals, deviations in their behavior were not noted, experimental minks were clinically healthy, well-eaten food; no animals were observed. During the experiment, blood counts, changes in live weight were monitored; after slaughter, a commission assessment of the quality of the skins was carried out. The results of the experiment are presented in tables.

Table 3 The hemoglobin content in the blood of young mink, g% Group Determination date 06/15 07/16 08/15 09/15 Experienced 14.85 ± 0.14 15.88 ± 0.12 17.14 ± 0.16 17.97 ± 0.08 18.17 ± 0.09 Control 14.91 ± 0.11 15,80 ± 0,13 16.83 ± 0.09 17.45 ± 0.10 17.84 ± 0.08

Table 4 The total protein content in the blood serum of young mink, g% Group Determination date 08/15 09/15 15.10 Experienced 7.52 ± 0.03 7.84 ± 0.04 8.18 ± 0.05 Control 7.50 ± 0.02 7.72 ± 0.05 7.91 ± 0.04

Table 5 Dynamics of live weight (g) of experimental young mink Group Weigh date 06/15 07/16 08/15 09/15 15.10 Experienced 810.4 ± 7.3 1319.7 ± 9.6 1709.3 ± 12.4 2024.1 ± 13.4 2154.3 ± 16.1 Control 812, b ± 8.2 1285.6 ± 11.4 1690.1 ± 10.2 1979.6 ± 14.2 2079.4 ± 13.1

As can be seen from the presented results, in the animals of the experimental group, the hemoglobin level was higher throughout the experiment. The content of total protein in the blood serum of the minks of the experimental group also exceeded the similar indices of the animals of the control group. This indicator is one of the characteristics of the intensity of metabolic processes in the body and the nature of its change in animals of the experimental and control groups is consistent with changes in live weight. The live weight in the experimental group at the slaughter was 3.6% more than in the control.

During the commission assessment of the quality of the skins, it was noted that in some animals of the control group, the density of the hair, especially on the sides, was slightly lower than in the experimental animals. In the experimental group, elongation of the spine and its uniformity in length and thickness were noted. In animals of the control group, splitting of the tops of the outer hair was observed. These phenomena may be associated with a lack of methionine in the diet.

Thus, the drug Gemovit-Meyan stimulates hematopoiesis; intensifies the growth of young animals, improves the quality of fur products.

Example 4

The effectiveness of the use of the drug Gemovit-Meyan was studied on calves. The experiment was conducted on 30 black-motley calves aged 7-10 days, divided into experimental and control groups of 15 animals each. The number of gobies and heifers in the groups was the same. The conditions and diets of animals in both groups are identical. The calves of the experimental group received, in addition to the diet, the preparation Gemovit - Meyan based on trace elements per head per day, mg: Fe-100.0; Mn-50.0; Zn-60.0; Cu-10.0; Co-2.0; Se-1.0; I-1.5. The drug was asked individually for each animal.

The results of the experiment are presented in table 7.

From the above data it follows that the use of the drug Gemovit-Meyan stimulates hematopoiesis. In the experimental group, this indicator at the end of the experiment approaches the upper limit of the physiological norm, while in the control group it tends to the lower limit of the norm. The level of total protein in blood serum changes in a similar way. The drug intensifies protein metabolism in the body, which positively affects the increase in live weight. The live weight of the animals of the experimental group by the end of the experiment was 14.8% more than in the control. The average daily gain was 0.69 kg in the experimental and 0.45 kg in the control group.

Thus, the drug Gemovit-Meyan simulates hematopoiesis; positively affects the increase in live weight of animals.

Example 5

The effect of the preparation Gemovit - Meyan on the productivity of laying hens of the Lowenbraun cross at the age of 65 weeks was studied. To the diet of hens of the experimental group (9800 goals) the preparation Gemovit - Meyan was added based on trace elements per 1 kg of feed, mg: Fe-10.0; Mn-40.0; Zn-10.0; Cu-1.0; Co-0.1; Se-0.1; I-0.12. Otherwise, the conditions of keeping and feeding the experimental (9800 animals) and control (10200 animals) groups were the same.

At the beginning of the experiment, the productivity in both groups was 61.3%. It was noted that 15 days after the start of the experiment, productivity in the experimental group reached 65.4%, and in the control group it was 59.2%, which is associated with a characteristic age-related decline in productivity. The mortality of birds in the experimental group was 3.5% less than in the control. The preparation Gemovit-Meyan increases the productivity of laying hens, prolongs the productive period, and increases the safety of poultry.

Thus, it was found that the microelement growth-promoting drug Hemovit-Meyan stimulates hemo- and erythropoiesis, positively affects metabolic processes, and increases the nonspecific resistance of the body. The use of the drug stimulates the growth, development and productivity of animals, improves the quality of fur products of fur animals. It is especially important to include the drug in the diet of young cattle, monogastric animals, birds, the body of which is unable to synthesize essential amino acids, including methionine.

Currently, studies of the drug “Gemovit-Meyan” on animals have been conducted and its serial production is being prepared at OOO Gemovit, Tver.

Claims (1)

Antianemic and growth-promoting drug for animals, including a chelate complex of iron, manganese, zinc, copper, cobalt, selenium and iodine with an organic ligand of the complexon type and water, characterized in that it contains the methionine succinic (α-amino-γ-) trisodium salt as a ligand methylthiobutyric -N-succinic) acid in the following ratio, wt.%: Trisodium salt of methionine succinic 15.0-40.0 acid Iron (III) 1.0-5.5 Manganese (II) 0.25-3.0 Copper (I) 0.1-0.55 Zinc (II) 0.1-0.55 Cobalt (II) 0.02-0.30 Selenium (IV) 0.02-0.06 Iodine (I) 0.01-0.08 Water Else