RU2203657C1 - "hemovit-plus" antianemic and growthstimulating preparation for animals - Google Patents

Abstract

FIELD: animal science, fur farming. SUBSTANCE: the suggested preparation named "Hemovit-plus" consists of the following components, weight%: disodium or dipotassium salt of ethylenediamine-N,N¹-disuccinic acid 15-25, ferrum (III) 0.5-2.0, copper (II) 0.05-0.25, zinc (II) 0.1-1.5, cobalt (II) 0.005-0.05, selenium (IV) 0.01-0.03, iodine (I) 0.01-0.05, water - the rest. The suggested preparation removes deficiency of microelements, stimulates erythropoiesis, increases inspecific body resistance, prevents white-muscle disease, endemic goiter. Application of the preparation in question enhances reproductive capacity, stimulates growth, development and performance both in farm and domestic animals. EFFECT: higher efficiency. 2 cl, 8 tbl

Description

 The invention relates to animal husbandry and fur farming and can be used in veterinary medicine for the prevention and treatment of iron deficiency anemia, metabolic disorders, enhance animal growth, treatment of a number of specific diseases.

Known anti-anemic and growth-promoting drug for animals - Gemovit-M (RU 2097045, 11.27.97. Bull. 33, A 61 K 31/295). The preparation includes a complex of iron, manganese, cobalt and zinc with a disodium salt of ethylenediamine-N, N ¹ -disuccinic acid. The drug eliminates the deficiency of microelements in the body of animals, but it is not effective enough in the treatment and prevention of diseases in fur animals such as hair cuts, as well as diseases of young cattle - white muscle disease.

A hemovit-C preparation is also known based on a complex of a number of trace elements and iron with ethylene diamine-N, N ¹ -disuccinic acid. The complex additionally contains selenium, in the following ratio of components, wt.%: Disodium or dipotassium salt of ethylenediamine-N, N ¹ -disuccinic acid 15-25: iron (III) 3.0-5.0; manganese (II) 0.5-2.5; copper (II) 0.25-0.50; cobalt (II) 0.1-0.3; zinc (II) 0.1-1.5; selenium (IV) 0.03-0.06; the rest of the water (RU 2130306, 05.20.99. Bull. 14 A 61 K 31/295).

 However, the drug does not contain a complete set of vital trace elements necessary for normal metabolism in animals. The drug is not effective enough when used in regions deficient in iodine.

The use of iodine (I) as part of mineral premixes is also known (B. Kalnitsky. Mineral substances in animal feeding. L .: Agropromizdat, 1985) in animal husbandry, with KI or NaI being the source of iodine. Upon their contact in solution or in powder with copper (II), 2CuSO ₄ + 4KI = 2CuI + I ₂ + 2K ₂ SO ₄ reacts with the formation of volatile elemental iodine and sparingly soluble copper iodide. This leads to significant losses of iodine (I) in the premix and requires special protection methods for it.

 The objective of the invention is to obtain an effective drug with an optimal ratio and a complete set of trace elements for the prevention and treatment of metabolic disorders and a number of diseases in farm animals, fur animals and domestic animals.

To solve this problem, a preparation based on a complex of iron, manganese, copper, cobalt and selenium with disodium or dipotassium salt of ethylenediamine-N, N ¹ -duccinic acid additionally contains iodine in the following ratio of components, wt.%: Disodium or dipotassium salt of ethylenediamine-N , N ¹ -duccinic acid 15-25; iron (III) 0.6-5.0; manganese (II) 0.5-2.0; copper (II) 0.05-0.25; zinc (II) 0.1-1.5; cobalt (II) 0.005-0.05; selenium (IV) 0.01-0.03; iodine (I) 0.01-0.05; water the rest.

 Inorganic salts, such as sulfates or chlorides, are used as a source of iron (III) and trace elements.

 Sodium selenium acid or selenic acid is used as a source of selenium (IV), and potassium or sodium iodide is used as a source of iodine (I).

According to the invention, the preparation is obtained by reacting an alkaline solution of disodium or dipotassium salt of ethylenediamine-N, N ¹ -disuccinic acid at pH 11-13 with the calculated amount of salts of iron (III), manganese (II), copper (II), cobalt (II), zinc (II), selenium (IV), iodine (I). Use salts in the form of chlorides or sulfates. It is also possible to use their anhydrous salts. The resulting preparation hemovit-plus is a dark brown liquid (pH 6-8). The drug is unlimitedly soluble in water and does not dissolve in organic solvents. The solution of the drug should be stored in a glass or plastic container. The preparation obtained in the form of a paste or powder by evaporation of water is hygroscopic.

Acute and subchronic toxicity of the drug was carried out according to the "Methodological guidelines for determining the toxic properties of drugs used in veterinary medicine and animal husbandry" on white mice, rats and chickens of meat-egg breed of hens. According to the results of the experiments, the value of LD ₅₀ according to Kerber was calculated, which amounted to 23162 mg / kg of live weight, which according to GOST 12.1.007.76 refers hemovit-plus to hazard class 4 (slightly hazardous). The calculated cumulation coefficient was 2.47, which indicates the absence of cumulative properties of the drug.

 The effect of the hemovit plus drug on the preservation of iodine (I) in solution and powder can be illustrated by the following example.

Example 1. Mixed in equal volumes of 0.2 M CuSO ₄ solution and 0.02 M KI solution. The concentration of I (I) obtained in the solution is 1 • 10 ^-2 mol / L. The content of I (I) in the solution was determined by the iodometric method. Analysis data and a visual assessment of the appearance of solutions and powders are presented in Table 1.

From the results of the table. 1 it follows that already 10 hours after mixing the CuSO ₄ + KI system in solution and powder practically do not contain iodine (I).

In the case of the hemovit-plus preparation, which is a complex of iron and trace elements with ethylenediamine-N, N ¹ -disuccinic acid (L), copper (II) ions are bound to the CuL complex, which does not interact with potassium iodide. In the CuL + KI system, iodine (I) remains in solution for up to 12 months (Table 2).

 Example 2. A study of the effectiveness of the hemovit-plus drug (experiment) in comparison with the hemovit-C preparation (control) was carried out on the pedigree pastel mink population of the second year of use, against the background of a general economic diet corresponding to modern feeding standards containing vitamin supplements (Table 3) .

 The experimental and control groups received the studied drugs at the rate of 3.0 mg of Fe per head per day.

 In the experimental group, the number of successfully mating females was 3.8% higher than the control, the number of stillborn puppies was lower by 4.0%, the puppies' exit to the main female was 16.3% higher than in the control group. The live weight of the puppies received from the females of the experimental group during cadding was 8.4% higher than that of the puppies of the control group, which indicates increased lactation of the females.

 In the control group, 69 puppies with sparse hair and hairless were observed, which is a consequence of the lack of iodine in the animals ’diet. In the experimental group of puppies with such symptoms was not observed.

 Example 3. The effectiveness of hemovit-plus was also studied on the face young growth of pastel-colored minks (males). An experimental group of animals received hemovit plus at the rate of 2.0 mg Fe per head per day.

 The control group is hemovit-C with the same iron content. The experimental data are given in table. 4 and 5.

 As can be seen from the data presented, in animals of the experimental group, a consistently higher level of hemoglobin in the blood of animals is observed throughout the experiment, which indicates the stimulation of hematopoiesis.

 The mass of animals during slaughter in animals of the experimental group was higher by 10.5%, the area of skins by 9.7%, and the offset of skins in quality increased by 13.3% with respect to the control.

 Example 4. The effectiveness of hematitis-plus was studied on cows of black-motley breed. The drug was given to dry cows 30 days before calving daily at the rate of 200 mg of Fe per head (experiment).

 The control group of cows received the vitamin-mineral premix K-61 in recommended doses. Both groups received a general diet used in the household; the conditions were the same. The experimental data are presented in table.6.

 As follows from the data of Table 6, the introduction of the hemovit-plus drug allowed to reduce the pathology of childbirth, the time of separation of the placenta, cases of stillbirth of calves. Normalization of metabolism in cows of the experimental group reduced the disease of endometritis by almost 4 times compared with the control group. Of the 49 calves received from the cows of the experimental group, mild dyspepsia was sick 6. In 28 calves received from the calves of the control group, diarrhea was observed for 2-3 days. On days 4-5, in 9 of them progressive depression, general weakness, lack of appetite, and frequent bowel movements were observed. With the development of dehydration, signs of cardiovascular failure appeared. On days 7-8, 6 calves fell.

 Example 5. The study of the effectiveness of the drug Hemovit-plus was carried out on 60 calves of black-motley breed aged 5-7 days, divided into 2 groups of 30 goals. The number of gobies and heifers in each group was the same. Feeding and keeping animals of both groups was the same. Calves of the experimental group for 30 days in addition to the main diet daily received hemovit plus at the rate of 100 mg Fe per head; control group - vitamin and mineral premix K-61. The hemovit-plus drug was given individually to each animal with colostrum, and then with milk.

 From the data table. 7 it follows that the use of the drug stimulates hematopoiesis in the body of calves, while 30 days after the start of the experiment, the live weight of animals in the experimental group increased by 9.9% relative to the control, the average daily gain reached 723 g.

 The calves of the experimental group were more active, had a smooth, shiny coat, actively ate feed. 2 calves had mild diarrhea, 2 animals had bronchopneumonia.

 In the control group, diarrhea was observed in 11 calves, in 9 animals - bronchopneumonia. In 5 calves, by 11-14 days a depressed state, loss of appetite, and tachycardia were noted. Despite intensive care, 3 calves fell. An autopsy revealed signs of white muscle disease - damage to the heart muscle, dystrophic changes in skeletal muscle.

 Example 6. 2 groups of puppies of 5 months of age were formed from two litters of the same constitution and weight. Throughout the experiment, the feeding of the experimental and control groups was carried out by the same diet, with the exception of the mineral part. In the experiment, the animals received hemovit-plus in the dosage recommended by the manufacturer and vitamins; in the control - the preparation "Kostochka", containing a vitamin-mineral complex, including the mineral part in the form of inorganic salts. Clinical, biochemical and immunological studies of animal blood were carried out. Blood sampling was carried out at the beginning of the experiment, 10, 20 and 40 days of the experiment. The data are given in table.8.

As follows from the data of Table 8, in the experiment, stimulation of leukocytosis is observed, the leukocyte content increases from 6.0 to 10.5 thousand / mm ³ (by 75%) compared with the beginning of the experiment. In the control, stabilization of the leukocyte count and their decrease by the 40th day by 10% is observed. The total excess of leukocyte content in the experiment in relation to the control was 94%, the hemoglobin content was 27%, which indicates the stimulation of erythropoiesis.

 In the experimental group there was an increase in the content of red blood cells in the blood of animals by 22% compared to the beginning of the experiment, in the control - by 42%. The total decrease in the erythrocyte content in the experiment in relation to the control by 16% indicates an increase in the hemoglobin content in the red blood cells of the animals of the experimental group.

 The activity of phagocytosis in the experimental group increases by 261% relative to the beginning of the experiment, in the control - by 178%. The overall excess of the experimental results by 30% compared with the control indicates the stimulation of phagocytosis activity, and the digesting ability of neutrophils increases several times.

 Thus, from the presented examples it follows that the drug eliminates the deficiency of trace elements, stimulates erythropoiesis, increases the nonspecific resistance of the body, and prevents white muscle disease, endemic goiter. The use of the drug enhances reproductive ability, stimulates the growth, development and productivity of farm and domestic animals.

Claims (2)

1. Antianemic and growth-promoting drug for animals, including a complex of iron, manganese, copper, zinc, cobalt and selenium with disodium or dipotassium salt of ethylenediamine-N, N ¹ -disuccinic acid and water, characterized in that it additionally contains iodine in the following ratio components, wt. %:
Disodium or dipotassium salt of ethylenediamine-N, N ¹ -disuccinic acid - 15-25
Iron (III) - 0.6-5.0
Manganese (II) - 0.5-2.0
Copper (II) - 0.05-0.25
Zinc (II) - 0.1-1.5
Cobalt (II) - 0.005-0.05
Selenium (IV) - 0.01-0.03
Iodine (I) - 0.01-0.05
Water - Else
2. The drug according to claim 1, characterized in that inorganic salts such as sulfates or chlorides are used as a source of iron (III) and trace elements.  3. The drug according to p. 1, characterized in that the source of selenium (IV) is sodium selenic acid or selenic acid, and the source of iodine is potassium or sodium iodide.

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