RU2535086C1 - Method for oxidative stress correction in preventing and treating iron-deficiency anaemia in calves exposed to chronic incorporated radiation - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: invention refers to veterinary science, namely to clinical pharmacology and veterinary therapy. The method consists in administering the complex iron-dextran preparation Ferranimal-75M intramuscularly on the 5th day of calf's life in a dose of 3 ml in a combination with an intramuscular injection of the preparation Hydropeptone in a dose of 10 ml. Ferranimal-75M is injected 10 days later in a dose of 2 ml in a combination with an injection of Hyropeptone 5 ml intramuscularly in different points.

EFFECT: method provides higher antioxidative activity of calf's blood serum, reduced pro-oxidant action of iron and incorporated radionuclides, as well as higher iron accessibility in treating and preventing iron-deficiency anaemia in calves exposed to the chronic incorporated radiation.

Description

The invention relates to the field of veterinary medicine, namely to clinical pharmacology and animal therapy, relates to a method for the treatment and prevention of animal diseases caused by a lack of iron in their body, and correction of side effects of iron preparations.

Iron plays an important role in the life of humans and animals. Changes in its content can lead to various pathological conditions: with iron deficiency, iron deficiency anemia develops, while an excess of it leads to hemochromatosis and hemosiderosis with severe lesions of various organs and systems. The causes of iron deficiency anemia are diverse. These may be: “poverty” of the iron depot with insufficient intake of it from food; increased body need for iron; insufficient absorption of iron in the gastrointestinal tract; excess iron loss by the body and other causes. It is also known that in animals under constant incorporated exposure (ingestion of radionuclides into the animal’s body with food, living in areas contaminated with radionuclides), a significant decrease in the concentration of iron in bone marrow proteins occurs, resulting in impaired hemoglobin synthesis and, therefore, the hemoglobin content in erythrocytes decreases, while the number of red blood cells decreases, which leads to the development of alimentary (iron deficiency) anemia [1].

Iron-containing drugs are used to treat and prevent nutritional anemia in farm animals. It is known to use Ferranimal-75 (a synonym for Ferroglukin-75), a colloidal solution of a complex of ferric hydroxide with low molecular weight dextran in water, for the prevention and treatment of iron deficiency anemia in all types of farm animals and fur animals [2]. The disadvantage of this drug before the drug proposed in the method is the absence in its composition of trace elements of copper and cobalt, contributing to a more active absorption of iron, and also stimulating hematopoiesis, and the absence of selenium with antioxidant properties.

The prior art method for the correction of antioxidant activity of the liquid part of the blood in newborn calves with iron deficiency anemia, including the use of Ferroglukin-75 solution intramuscularly, once in combination with the release of glycopine [3]. The disadvantage of this method, selected as a prototype, is its use only on newborn calves with already developed anemia, which does not allow using this method on other age groups of calves and using this method for the prevention of anemia, and this method does not take into account the prooxidant properties of iron, part of the drug. In the claimed method, correction is possible both in the prophylaxis and in the treatment of anemia, and is applicable on calves of different age groups (newborn calves, milk calves). In addition, our proposed method for the correction of oxidative stress concerns animals under conditions of chronic incorporated exposure.

Also one of the disadvantages of this method is the lack of essential amino acids contained in the soy protein hydrolyzate used in the claimed method.

The technical result of the claimed invention is to increase the antioxidant activity of blood serum of calves, a decrease in the prooxidant effect of iron and incorporated radionuclides, as well as an increase in the absorption of iron in the treatment and prevention of iron deficiency anemia in conditions of chronic incorporated radiation.

The objective of the invention is to provide a method for correcting the level of antioxidant activity of blood serum and lipid peroxidation in the prevention and treatment of iron deficiency anemia in calves under conditions of chronic incorporated exposure.

To correct oxidative stress during the prevention and treatment of calf iron deficiency anemia under conditions of chronic incorporated exposure, Ferranimal-75M was used (Composition of the preparation: iron (III) 75 mg in the dextran complex, 0.10 mg of copper (II) in the dextran complex, 0.20 mg cobalt (II) in the dextran complex, 0.05 mg stabilized selenium (IV) [4]) in combination with Hydropepton, a hydrolyzate of soy protein compensated for methionine in the form of a solution for injection use, which contains all the essential amino acids you and lower peptides. The simultaneous administration of a protein hydrolyzate activates the protein synthesizing function of the body, contributing to the assimilation of the trace elements that make up the Ferranimal-75M preparation, while reducing their prooxidant effect and increasing the antioxidant activity of blood serum. An additional prescription of vitamin B1 at a dose of 2.5 mg and vitamin PP at a dose of 3.7 mg is also possible.

The specified technical result is achieved as follows. In order to increase the antioxidant activity of blood serum, reduce the level of lipid peroxidation and increase the digestibility of iron, Ferranimal-75M is injected intramuscularly on the 3-5th day of life at a dose of 3 ml, then the injection is repeated after 10 days at a dose of 2 ml, simultaneously with the first by injection of Ferranimal-75M, the drug Hydropeptonum in a dose of 10 ml is administered intramuscularly at a different time simultaneously with the second injection of Ferranimal-75M, the drug Hydropeptonum in a dose of 5 ml is also administered intramuscularly in another place.

The method is as follows. The calf is injected intramuscularly on the 3-5th day of life with the iron-iron preparation Ferranimal-75M in a dose of 3 ml, then the injection is repeated after 10 days in a dose of 2 ml, at the same time as the first injection of Ferranimal-75M, the drug is injected intramuscularly into another place a dose of 10 ml, which is a protein hydrolyzate compensated for methionine, at the same time as the second injection of Ferranimal-75M, the drug Hydropepton in a dose of 5 ml is also administered intramuscularly at another place.

As a result of the application of this method, it was found that at a dose of 12-18 mGy / year for internal irradiation of ¹³⁷ Cs each, on the 15th and 25th day of calf life, the level of antioxidant activity of blood serum significantly increased, and the number of primary lipid peroxidation products. So the number of diene conjugates on the 15th amounted to 0.6 units of opt.pl / ml, and in the control of 1.1 units of opt.pl / ml, on the 25th day the number of diene conjugates was 0.7 units of opt. pl / ml, and in the control of 1.3 u.opt.pl / ml. The number of triene conjugates on the 15th was 0.3 units of opt. Pl / ml, and in the control of 0.8 units of opt. Pl / ml, on the 25th day the number of triene conjugates was 0.4 units of opt. / ml, and in the control of 0.9 units of opt.pl / ml. The number of oxodiene conjugates on the 15th was 0.5 units of opt. Pl / ml, and in the control 1.1 units of opt. Pl / ml, on the 25th day the number of oxodiene conjugates was 0.5 units of opt. / ml, and in the control of 1.0 unit opt.pl / ml. The number of Schiff bases on the 15th was 0.5 units of opt.pl / ml, and in the control of 1.3 units of opt.pl / ml, on the 25th day the number of Schiff bases was 0.6 units of opt. / ml, and in the control of 1.4 u.opt.pl / ml. The level of antioxidant activity on the 15th day of life in the blood serum of calves of the experimental group was 18.0 ± 1.2%, while in the control group of calves the level of antioxidant activity was significantly lower and amounted to 13.6 ± 0.9% . After the second administration, the level of antioxidant activity continued to increase and amounted to 24.6 ± 3.6% in the experimental group and 15.3 ± 1.1% in the control group.

As can be seen from the data presented, in animals treated by the proposed method compared with the control, the level of antioxidant activity of blood serum is significantly higher and the level of primary peroxidation products is lower, which indicates a high activity of the claimed method for use in the treatment and prevention of iron deficiency anemia in chronic incorporated exposure.

Using the proposed method for correcting the level of antioxidant activity of blood serum and lipid peroxidation in the prevention and treatment of iron deficiency anemia in calves under conditions of chronic incorporated exposure will help to avoid the negative effects of ferrotherapy and reduce the effect of chronic incorporated exposure, which interferes with the normal absorption of iron and promotes lipid peroxidation, which improves health , productivity and growth of animals, prevents the onset of slaughter Levania and shortens recovery time.

Literature

1. D.N. Urazaev, A.A. Deltsov, L.P. Parasyuk, R.D. Urazaeva. The biological role of iron. The use of iron-containing drugs in veterinary medicine: a monograph. - M .: Kolos, 2010, - 17 p., 41 p., 50 p.).

2. Found on the Internet: http://webmvc.com/vet/leki/17/abio/ferran.php.

3. Patent for invention RU 246910 C1, publ. 12/20/2012.

4. Found on the Internet: http://www.vetlek.ru/directions/7icH646.

Claims (1)

A method for the correction of oxidative stress in the prevention and treatment of calf iron deficiency anemia under conditions of chronic incorporated exposure, including the administration of a complex iron-dextran preparation Ferranimal-75M, intramuscularly, on the 5th day of a calf’s life, at a dose of 3 ml, simultaneously with an intramuscular injection of Hydropepton at a dose of 10 ml, while the injection of Ferranimal-75M is repeated after 10 days at a dose of 2 ml, also simultaneously with the injection of 5 ml of Hydropeptone, intramuscularly in different places.