RU2282441C2 - Composition for prophylaxis and treatment of anemia in agricultural animals and poultry - Google Patents

Abstract

FIELD: veterinary science.

SUBSTANCE: invention relates to a composition used in prophylaxis and treatment of anemia in agricultural animals and poultry that comprises a mixture of chelates of iron, copper, zinc, cobalt, sodium, calcium with ethylenediamine-N,N'-disuccinic acid in the following ratio of components, wt.-%: copper chelates with ethylenediamine-N,N'-disuccinic acid, 0.45-0.60; zinc chelates with ethylenediamine-N,N'-disuccinic acid, 1.40-1.45; cobalt chelates with ethylenediamine-N,N'-disuccinic acid, 0.075-0.08; sodium chelates with ethylenediamine-N,N'-disuccinic acid 42.0-44.0; calcium chelates with ethylenediamine-N,N'-disuccinic acid, 12.0-13.0, and iron chelates with ethylenediamine-N,N'-disuccinic acid, the balance. Agent provides enhancing the blood hemoglobin content in animals by 28% as compared with animals receiving neither anti-anemic agents and by 12% as compared with animals receiving the preparation-analog.

EFFECT: enhanced effectiveness of composition.

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Description

The invention relates to agriculture, in particular the production of a therapeutic agent for diseases associated with a lack of iron in the body of farm animals and poultry.

A known composition for the prevention and treatment of anemia of farm animals and poultry, including salts of iron, copper, zinc, cobalt and manganese (AS USSR 619186, BI No. 30, 1978).

A known composition for the prevention and treatment of anemia of farm animals and poultry, including salts of iron, copper, cobalt, alkaline and alkaline earth metals in the form of the drug "Ampevita" (USSR AS 700131, B.I. No. 44, 1979).

Also known is a composition for the prevention and treatment of anemia of farm animals and poultry, including salts of iron, copper, cobalt, alkaline and alkaline earth metals in the form of the drug "Gemovit-M" (RF Patent 2097045, 1997, A 61 K 33/32) - prototype.

A disadvantage of the known compositions is that the assimilation of iron and trace elements does not occur in full.

The technical result of the invention is to increase the efficiency of assimilation of iron in combination with trace elements from the target product in a living organism with anemia.

The technical result is achieved by creating a composition for the prevention and treatment of anemia of farm animals and poultry, which is a mixture of complexonates of iron, copper, zinc, cobalt, sodium, calcium with ethylene diamine-N, N'-di-succinic acid in the following ratio of components, wt.%:

copper complexonate with ethylenediamine-N, N'-dianthara acid 0.45-0.60 zinc complexonate with ethylene diamine-N, N'-dianthara acid 1.40-1.45 cobalt complexonate with ethylenediamine-N, N'-dianthara acid 0,075-0,08 sodium complexonate with ethylenediamine-N, N'-di-succinic acid 42.0-44.0 calcium complexonate with ethylenediamine-N, N'-di-succinic acid 12.0-13.0 iron complexonate with ethylenediamine-N, N'-dianthara acid rest.

The composition is called "Deanemin."

It is known to obtain copper complexonate with ethylenediamine-N, N'-di-succinic acid (Journal of Inorganic Chemistry, 1971, v.16, issue 7, p. 1873), zinc complexonate with ethylene diamine-N, N'-di-succinic acid (Journal of Inorganic Chemistry , 1989, vol. 34, vol. 1, p. 244), cobalt complexonate with ethylenediamine-N, N'-disuccinic acid (Journal of Inorganic Chemistry, 1973, vol. 18, vol. 1, str. 124), sodium complexonate with ethylenediamine-N, N'-di-succinic acid (Journal of Inorganic Chemistry, 1984, v. 29, issue 8, p. 2025). calcium complexonate with ethylenediamine-N, N'-di-succinic acid (Journal of Inorganic Chemistry, 1971, v.16, issue 4, p. 902), iron complexonate with ethylene diamine-N, N'-di-succinic acid (Journal of Inorganic Chemistry, 1984 , vol. 29, issue 8, p. 2025).

In the patent and scientific and technical literature unknown technical solutions similar to the claimed, i.e. the proposal meets the criteria of the invention of "novelty."

The claimed composition solves the urgent problem of veterinary medicine - the prevention and treatment of anemia of farm animals and poultry, i.e. the proposal is “industrially applicable”.

The prototype preparation (“Hemovit M”) uses complexes of the sodium salt of ethylenediamine-N, N'-disuccinic acid with a number of metals, where the structural formula of ethylenediamine-N, N'-disuccinic acid is straightforward:

In the claimed case, ethylenediamine-N, N'-di-succinic acid, upon receipt of the claimed complexonates is cyclized and supposedly has the structure:

which allows complexonates to be more actively involved in the metabolism in the body than in the prototype.

In addition, the proposed composition compares favorably with the prototype in that it is composed of separate metal complexonates (copper, zinc, cobalt, sodium, calcium and iron) with EDDYAC, and not by merging solutions of the EDDYAK sodium salt with chlorides or sulfates of the corresponding metals ("Gemovit M "). Thus, the advantage of the proposed composition in this case also lies in the fact that there is no ballast of inorganic salts in the form of sodium chloride or sulfate formed when the solutions of the components in the prototype are drained by the reaction:

Na ₂ EDC + MeCl ₂ → MeEDC + 2NaCl or

Na ₂ EDC + MeSO ₄ → MeEDC + Na ₂ SO ₄ ,

where Me is the general designation of metals (copper, zinc, cobalt, manganese and iron).

In the total weight of the Gemovit M preparation (in terms of 100 kg of dry preparation) when using metals in the form of chlorides, 136.187 kg of the preparation containing 36.187 kg of ballast (in the form of chloride ions) must be used, i.e. 36.187 / 136.187 · 100% = 26.57%, which means that the content of the drug is more than 1/4 of unnecessary (and sometimes harmful) impurities. When using metal sulfates, this indicator for ballast is even higher: 48.927 / 148.927 · 100% = 32.85%, that is, the drug almost 1/3 consists of useless (and sometimes harmful) salts of sulfuric acid.

These advantages allow to obtain a technical result when implementing the invention.

It is not known from the prior art that the use of the above metals in the form of ethylene diamine-N, N'-disuccinic acid complexonates as a vehicle of trace elements leads to their rapid absorption, which increases the absorption of iron and trace elements of the target product when introduced into the living organism from the outside. We have shown for the first time that the combined use of the above-mentioned complexonates of ethylenediamine-N, N'-di-succinic acid, taken in certain ratios of components, increases the therapeutic and prophylactic properties of the target product, leading to the rapid achievement of a technical result. Therefore, the invention meets the criterion of "inventive step".

The invention is illustrated by the following examples.

Example 1. Copper complexonate with ethylene diamine-N, N'-di-succinic acid (0.45 kg) is mixed, zinc complexonate with ethylene diamine-N, N'-di-succinic acid (1.4 kg), cobalt complexonate with ethylene diamine-N, N --di-succinic acid (0.075 kg), sodium complexonate with ethylene diamine-N, N'-di-succinic acid (42.0 kg), calcium complexonate with ethylene diamine-N, N'-di-succinic acid (12 kg) and iron complexonate ethylene diamine-N , N'-di-succinic acid (44.075 kg) obtaining composition 1 in the following ratio of components, wt.%: Copper complexonate with ethylenediamine-N, N'-di-succinic acid - 0.45; zinc complexonate with ethylene diamine-N, N'-di-succinic acid - 1.40; cobalt complexonate with ethylenediamine-N, N'-di-succinic acid - 0.075; sodium complexonate with ethylene diamine-N, N'-di-succinic acid - 42.0; calcium complexonate with ethylene diamine-N, N'-di-succinic acid - 12.0; iron complexonate ethylenediamine-N, N'-disuccinic acid - the rest.

Example 2. Mix copper complexonate with ethylenediamine-N, N'-di-succinic acid (0.60 kg), zinc complexonate with ethylene diamine-N, N'-di-succinic acid (1.45 kg), cobalt complexonate with ethylene diamine-N, N '-diuccinic acid (0.08 kg), sodium complexonate with ethylene diamine-N, N'-di-succinic acid (44.0 kg), calcium complexonate with ethylene diamine-N, N'-di-succinic acid (13 kg) and iron complexonate with ethylene diamine-N, N'-di-succinic acid (40.87 kg) obtaining composition 2 in the following ratio of components, wt.%: copper complexonate with ethylene diamine-N, N'-di-succinic acid - 0.60; zinc complexonate with ethylene diamine-N, N'-di-succinic acid - 1.45; cobalt complexonate with ethylenediamine-N, N'-di-succinic acid - 0.08; sodium complexonate with ethylene diamine-N, N'-di-succinic acid - 44.0; calcium complexonate with ethylene diamine-N, N'-di-succinic acid - 13.0; iron complexonate with ethylene diamine-N, N'-di-succinic acid - the rest.

Example 3. Mix copper complexonate with ethylenediamine-N, N'-di-succinic acid (0.525 kg), zinc complexonate with ethylene diamine-N, N'-di-succinic acid (1.425 kg), cobalt complexonate with ethylene diamine-N, N'-di-succinic acid (0.0775 kg), sodium complexonate with ethylenediamine-N, N'-di-succinic acid (43.0 kg), calcium complexonate with ethylene diamine-N, N'-di-succinic acid (12.5 kg) and iron complexonate with ethylene diamine - N, N'-di-succinic acid (42.4725 kg) obtaining composition 3 in the following ratio of components, wt.%: Copper complexonate with ethylenediamine-N, N'-di-succinic acid - 0.525 ; zinc complexonate with ethylene diamine-N, N'-di-succinic acid - 1.425; cobalt complexonate with ethylenediamine-N, N'-di-succinic acid - 0.0775; sodium complexonate of ethylenediamine-N, N'-di-succinic acid - 43.0; calcium complexonate ethylenediamine-N, N'-disuccinic acid - 12.5; iron complexonate ethylenediamine-N, N'-disuccinic acid - the rest.

Achieving the technical result of the effectiveness of the proposed solution was tested on an in vivo model on female minks and their offspring. They determined the level of hemoglobin in the blood, in females - productivity, and in puppies - live weight.

Studies were conducted on 5 groups of pastel females of the second year of the same weight, healthy 50 animals each.

1-3 group - experimental groups, received a single diet with the introduction of formulations 1-3, obtained in accordance with examples 1-3;

4 group - vivar control, received a single diet;

Group 5 - control group, received a single diet with the introduction of the well-known means "Gemovit-M";

Supplements of the claimed and known formulations were administered daily during morning feeding in a single dosage of 20 mg per kg of live weight. The results are shown in table 1 and 2.

Table 1.
The hemoglobin content in the blood of females, mg%. Duration of observation one 2 3 four 5 February 17.30 17.28 17.29 17.28 17.30 March 17.16 17.39 17.41 15.04 16.81 April 17.01 17.70 17,20 13.80 16.03

Tests of the claimed compounds showed that the hemoglobin content in the blood of the tested animals when administered orally, "Deanemina" exceeds 3.21% compared with data obtained on animals without additives, and 0.98% compared with groups of animals when using the prototype compositions . The yield of puppies per female mink with the oral administration of "Deanemina" exceeds by 22-26% compared with the data of the prototype.

The experiments were continued on the offspring of experimental females. From each group of females, 50 puppies were selected, which were observed for 6 months from May to October. Supplements of the claimed and known compositions were administered daily during morning feeding in a single dosage of 15 mg per kg of live weight. The puppies were kept numbers of maternal groups (tables 3 and 4).

Table 3.
The hemoglobin content in the blood of puppies, mg%. Duration of observation one 2 3 four 5 June 16.03 16.07 16.08 14.42 15.90 July 16.15 16.38 16.40 15.03 16.07 August 16.70 17.00 17.02 15.68 16.68 September 16.97 17.40 17.44 16.19 16.96 October 17.40 17.51 17.53 16.67 17.08

Table 4.
Change in live weight of puppies, in Duration of observation one 2 3 four 5 June 224 225 223 190 203 July 743 758 749 638 723 August 908 920 913 807 904 September 993 1010 995 898 983 October 1119 1123 1117 931 1100

Tests of the claimed compositions showed that the content of hemoglobin in the blood of the tested animals when administered orally, "Deanemina" exceeds 4-5% compared with data obtained on puppies without additives, and 1.8-2.6% compared with groups of animals when using the prototype compositions. In addition, the live weight of the puppies of the test animals with the oral administration of "Deanemina" exceeds 4-5% compared with the data obtained on puppies without additives, and 1.5-2.0% compared with groups of animals when using the prototype compositions

Similar data were obtained by feeding the claimed composition to chickens at the rate of 15-20 mg per kg of live weight, in particular: the hemoglobin content in the blood increased by 6.2% compared with the control group (non-received additives) and 0.9-1, 7% compared with the control group, which received the prototype composition as an additive to the feed, the live weight of the chickens of the experimental groups receiving formulations 1-3, obtained according to examples 1-3, increased by 7.5-9% compared with the control group (not receiving supplements) and 1.8-4.8% compared with the control group ppoy treated as a feed supplement composition prototype.

When feeding the claimed composition to piglets at the rate of 15-20 mg per kg of live weight, the following results were obtained, in particular: the hemoglobin content in the blood increased by 7.1-8.2% compared with the control group (not received additives) and 1, 2-1.8% compared with the control group, which received the prototype composition as an additive to the feed, the live weight of the chickens of the experimental groups receiving formulations 1-3, obtained according to examples 1-3, increased by 10.1-15.6 % compared with the control group (not received supplements) and 1.9-7.9% compared with the control hydrochloric group receiving as an additive to food composition prototype.

Thus, the use of the claimed composition "Deanemin" effectively eliminates the deficiency of trace elements in the body due to their rapid absorption, which leads to the rapid achievement of the technical result.

Claims (1)

Composition for the prevention and treatment of anemia of farm animals and poultry, which is a mixture of complexonates of iron, copper, zinc, cobalt, sodium, calcium with ethylenediamine-N, N'-di-succinic acid in the following ratio of components, wt.%: Copper complexonate with ethylene diamine-N, N'-dianthara acid 0.45-0.60 Zinc complexonate with ethylenediamine-N, N'-dianthara acid 1.40-1.45 Cobalt complexonate with ethylenediamine-N, N'-dianthara acid 0,075-0,08 Sodium complexonate with ethylenediamine-N, N'-dianthara acid 42.0-44.0 Calcium complexonate with ethylenediamine-N, N'-dianthara acid 12.0-13.0 Iron complexonate with ethylenediamine-N, N'-dianthara acid Rest