RU2168983C2 - Method of hemopoiesis correction and prophylaxis of deficient anemia and dyspepsia in newborn calves - Google Patents

Abstract

FIELD: veterinary science. SUBSTANCE: method involves administration the composition as powder that is fed with milk or colostrum to calves beginning from the 1-st day of life for 10 days, once per a day. Composition has the following components, mg: cobalt chloride, 5; copper sulfate, 20; zinc sulfate, 20; glucose, 500; abomasum mucosa dried extract, 250-300 and polfamix C, 1500-2000. Also, vitamin B₁₂ and ferroglucin-75 are administrated by intramuscular route in the dose 15.0 mg/kg on 1, 3 and 5 days of life in combination with indicated composition. Method ensures to diminish the disease period on an average by 3-5 days, to decrease calves morbidity with noninfectious diseases later on, to enhance safety of young stock. EFFECT: enhanced effectiveness of method. 2 tbl

Description

 The invention relates to veterinary medicine and relates to the prevention and treatment of anemia in combination with dyspepsia.

The use of vitamins, mineral salts, enzymes for the treatment of dyspepsia is known. Their use was mainly aimed at restoring the water-electrolyte balance during dyspepsia. However, the importance of using vitamins, minerals and enzymes lies not only in compensating for their deficiency, but also in that they have a pharmacological effect on the course of physiological processes and exhibit the properties of medicinal substances. In the first weeks of life under the influence of riboflavin Vit. B ₁₂ , folic acid improves clinical and physiological parameters, increases the content of Hb and red blood cells. All this indicates the normalizing and stimulating effect of drugs on the animal organism, increasing resistance and accelerating growth and development [1].

Vitamins B ₆ and B ₁₂ increase the incorporation of Fe into nuclear red blood cells, increase the low rate of erythron proliferation.

 For the treatment of anemia, iron-containing drugs are used both for parenteral management and for oral administration. The method of iron therapy is limited by strict indications due to malabsorption in the gastrointestinal tract, intolerance to the drugs when taken orally, and severe forms of iron deficiency anemia [3, 4]. Parenteral drugs are mainly iron complexes with dextrin (ursoferran, dextrofer, ferroglukin, etc.). Enteral preparations are mainly iron salts, and aloe syrup with iron chloride is also used. Abroad, there are iron preparations based on gluconate, fumarate. Almost all available iron-containing drugs for oral administration are poorly tolerated, causing dyspepsia. In this case, the severity of diarrhea is stronger, the more will remain in the intestines of non-absorbed iron. In connection with adverse events, it is impossible to complete the course of treatment and achieve the desired results [5]. In addition, the therapeutic efficacy of iron preparations is called into question because of the possible insufficient absorption of iron as a result of a deficiency or disruption in the production of biologically active hemostatic stimulants. In the literature there is evidence that changes in the content of hemoglobin, hematocrit and red blood cells with the use of iron sulfate were not observed [1]. Therefore, the search for new treatments for deficient anemia and their prevention remains relevant.

As a result of the lack of biologically active substances-hemostimulants, disturbances of redox processes, cellular respiration, disturbances in lipid peroxidation occur. Structural changes gradually occur in tissues that have high proliferative activity, primarily in the bone marrow and gastric mucosa. Violation of synchronism in maturation and hemoglobinization. With a lack of vitamin B ₁₂ , folic acid, cobalt, pernicious anemia further develops. In the development of the disease, a certain role is played by the underdevelopment of the gastrointestinal tract, a violation of the production of Castle's internal factor, a gastromucoprotein produced by additional cells of the glands of the fundus of the stomach due to underdevelopment. Further, with lesions of the stomach or small intestine, the absorption of iron, vitamin B ₁₂ , folic acid, and other biologically active substances is disrupted. There is a combined deficit.

 As a rule, in vivo anemia is rarely found in any particular form. Due to the combination of etiological reasons and the close relationship of physiological processes in the body, this pathology has a mixed character.

 The objective of the invention is to provide a method for the treatment and prevention of deficiency anemia and dyspepsia, which combines high therapeutic and prophylactic efficacy, good tolerance, low toxicity compared to existing drugs.

Based on the results of the study and on literature data, a therapeutic and prophylactic method for correcting blood formation and preventing dyspepsia in calves from 2 to 15 days of age is proposed. Its composition includes salts of trace elements cobalt chloride - 5.0 mg; copper sulfate - 20.0 mg; zinc sulfate - 20.0 mg; glucose (powder) - 0.5 g; dried abomasum mucosa extract (powder) - 250.0 mg - 300.0 mg; polfamix "C" - 60 mg / kg, containing bacitracin, vit. A, D ₃ , E, B ₁ , B ₂ , B ₆ , C, nicotinamide, Ca pantothenate, core phosphate.

This composition was used for calves from the 1st day of life inside for 10 days daily. The powder was drunk with colostrum and milk 1 time per day. In combination with the specified tool used vit. B ₁₂ intramuscularly on days 1, 3 and 5; ferroglukin - 75 intramuscularly at a dose of 15 mg / kg.

As a result of applying this method, the hemoglobin level did not decrease by the 15th day of the study and corresponded to 128.0 g / l; the average volume of red blood cells is 51.34 μm ³ , the Hb content in the red blood cell is 16.42 pg.

 In the process of applying this method, 80% of the calves of the experimental group did not get dyspepsia. In 20%, the disease manifested itself on days 1–3 in a mild form and lasted less than a day. Thus, the high hematocrit level in animals at the end of the experiment reflects the activation of erythropoiesis, the physiologically normal volume of red blood cells relative to blood plasma, the absence of acidosis, the absence of deviations in the functioning of buffer systems, carbon dioxide transport, sufficient oxygenation, and the balance of water-electrolyte balance.

 Thus, the use of this method provides an increase in the safety of young animals by 20-30%, a reduction in the duration of the disease by an average of 3-5 days, reduces the incidence of non-communicable diseases in the future, significantly reducing treatment costs and losses from a decrease in productivity and mortality, is economically beneficial .

Sources of information
1. Idelson L.M. Hypochromic anemia. - M .: Medicine, 1989.

 2. Mashkovsky M.D. Medicines Part 2. - M .: Medicine, 1988.

3. Zavoloka A.A., Berezhnoy A.F. Diagnosis and prevention of iron deficiency anemia in calves and piglets. - Veterinary medicine. - issue. 63. - p. 43 to 47;
4. Gusel V.A., Markova I.V. Handbook of a pediatrician in clinical pharmacology. - L .: Medicine, 1989 .-- 320 p .;
5. Ryss E.S. Anemia and gastrointestinal tract.

 6. Shchedrunov V.V., Petrov V.N., Zhuravskaya I.N. The functions of the stomach with iron deficiency in the body. - L .: Nauka, 1989 .-- 128 p.

 7. Brock C., Curry H., Charles H. Advirse effects iron supplementation: a conparative trial of wax-matrix iron preparation and conventional ferrous sulfate tablets // Clin. Hur. - 1985, v. 7, N 5, p. 568 - 573.

Claims (1)

A method for correcting hematopoiesis and preventing deficient anemia and dyspepsia of newborn calves, including the introduction of biologically active substances, trace elements and vitamins, characterized in that the calves from the 1st day of life for 10 days 1 time per day with milk and colostrum fed means containing trace elements, mg: cobalt chloride 5, copper sulfate 20, zinc sulfate 20; as biologically active substances - glucose (powder) 500 mg, dried mucosal extract of the abomasum 250-300 mg and polfamix C-1500 2000 mg, and as vitamins, calves are injected intramuscularly with vitamin B ₁₂ for 1, 3 and 5 days of life and ferroglukin -75 intramuscularly at a dose of 15.0 mg / kg.

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