RU2086240C1 - Agent for stimulation of natural resistance and prophylaxis of gastroenteric diseases in calves - Google Patents

Abstract

FIELD: veterinary science, cattle breeding. SUBSTANCE: xymedone is administrated to newborn calves (on the 2-d and 10-th days after delivery) intravenously at dose 0.15 g in 10 ml physiological solution. Preparation stimulates organism resistance, increases protective function of gastroenteric and respiratory mucosa, inhibits opportunistic and pathogenic microflora, provides prophylaxis effect and increases animal productivity. EFFECT: enhanced effectiveness of agent.

Description

 The invention relates to animal husbandry, in particular to means of immunostimulation and prevention of gastrointestinal diseases of newborn calves.

Known methods for increasing the natural resistance of the animal organism, which include the use of novocaine blockade [1,2] by subcutaneous administration of T and B activin preparations [3,4] using gamma globulin, protein hydrolysates, citrated blood, autohemotherapy [5,6,7] for the prevention and treatment of gastrointestinal diseases, antibiotics, sulfonamides and nitrofuran series drugs are used inside and intramuscularly [8,9] To normalize digestion, acidophilus-broth culture (ABA), propionic-acidophilic broth are used culture (PABA), acidophilus, acidophilus milk [10,11,12] horse’s stomach juice, calf rennet and their artificial analogues [13,14, 15]
The disadvantage of the above funds is the one-sidedness of their action, which requires their complex application. As a result, the duration and cost of prophylactic and treatment courses are increased with insufficient effectiveness due to the adaptation of conditionally pathogenic microflora to them.

Цель изобретения расширение ассортимента средств иммуностимуляции и профилактики желудочно-кишечных заболеваний новорожденных телят.The known drug is xymedon-N- (β-hydroxyethyl) -4,6-dimethyldihydropyrimidone 2; composition C ₈ H ₁₂ N ₂ O ₂ , as an anti-burn agent. Xymedon structural formula:

The purpose of the invention is the expansion of the range of immunostimulation and prevention of gastrointestinal diseases of newborn calves.

 The goal is achieved by using Xymedon as a means of stimulating natural resistance and preventing gastrointestinal diseases of newborn calves.

 The essence of the use of Xymedon is as follows. On the 2nd (after 2/3 receptions of colostrum) and 10th day after birth, 0.15 g of the drug is administered intravenously in 10 ml of physiological saline to newborn calves.

 The stimulating effect of xymedon on the natural resistance of the body of newborn calves is determined in production experiments.

 Example. Newborn calves on the basis of analogues formed in two groups (experimental and control) of 30 animals each. The conditions of feeding, care and maintenance in both groups are the same. On the 2nd and 10th day after birth, 0.15 g of xymedon was administered intravenously in 10 ml of physiological solution to the calves of the experimental group, calves of the control group were injected intramuscularly and internally with verified antibiotics (the technique used in the district farms). On the 1st and 20th days, blood samples were taken from experimental and control calves and the following indicators of the body's natural resistance were determined: total protein, calcium, phosphorus, IIIP, II oxycorticosteroids, phagocytic (FA), bactericidal (BA) and lysozyme blood activity , immunoglobulins and aspartate dehydrogenase.

The results obtained indicate that the use of xymedon in experimental calves causes an increase in blood total protein by 26% (from 6.02 to 7.63 g), in control calves the growth of this indicator was only 4% (from 5.92 to 6.14 ) g The quantitative indicator of calcium when using Xymedon increases by 31% in control calves, the indicator of this blood component remains at the same level. Phosphorus in experimental calves increases by 9% and in control calves even decreases by 5%
The use of xymedon led to an increase in the alkaline reserve index by 8% phagocytic activity by 31% bactericidal and lysozyme blood activity, respectively, by 38 and 29%
In control calves, these indicators remained at one low level against the physiological norm.

 The quantitative indicator of II-ox in experimental calves is reduced to a physiologically hormonal level (from 5.6 to 4 mg), which indicates good adaptive capabilities of the animal organism. In control calves, this indicator increases to 5.7 mg, which characterizes the high tension of metabolic processes and the depletion of the adaptive mechanisms of the calf’s body.

 In experimental calves, the quantitative indicator of immunoglobulins exceeds 15 mg / ml, which determines the development of effective immunity to the surrounding microflora. In control calves, this indicator is below 5 mg / ml, as a result of which they become susceptible even to opportunistic microorganisms. Consequently, Xymedon has a well-defined stimulating effect on the natural resistance of the calves, which determines their resistance to diseases and increase productivity.

 The prophylactic effect of xymedon in gastrointestinal diseases is determined in the same production experiment.

 Clinical observations of experimental calves and control are carried out during the month, taking into account the condition of the animals (temperature, pulse, respiration), cases of infectious and non-communicable diseases, weight gain of animals were recorded.

 Example. The average weight gain of calves in the daily age in the experimental group was 26.4 kg, in the control 26.7 kg. At the age of one month, the calves of the experimental group averaged 40.8 kg (average daily gain of 480 g), in the control group 30 kg (average daily gain of 110 g). Minus the weight of the dead calves, the total weight gain in the experimental group was 391.2 kg, in the control only 39 kg. In the experimental group, no cases of colibacillosis were reported. There was one case of salmonellosis (3%) and two cases of parainfluenza (6%). The use of appropriate serums and treatment provided calves with healing. Six goals in this group suffered from dyspepsia. The use of an appropriate diet ensured the normalization of digestion without the expense of medications.

 In the control group, 3 cases of colibacteriosis, 6 cases of salmonellosis and 12 cases of infectious rhinotracheitis were registered and confirmed by bacteriological examination. All calves suffered from gastrointestinal upsets, bronchopneumonia was recorded in 12 animals. Despite timely treatment measures, 9 calves died.

 Production tests of the proposed product were carried out on the Seminsky collective farm of the Koverninsky district during the winter-stall periods of 1991-92, 1992-93.

Sources of information
1. Shakurov N.Sh. The suprapleural novocaine blockade of the pectoral sympathetic nerves. In the book. materials of reports of the All-Union Conference dedicated to the 100th anniversary of K.V.I.

 2. Novocainic therapy in veterinary practice. Kirov, 1979

 3. Interim guidance on the use of T-activin. Approved by the Main Directorate of the State Agro-Industry of the USSR, N 433-7, dated 04.01.88.

 4. Interim guidance on the use of B-actin. Approved by the GUV Gosagroprom of the USSR, N 434-7, dated 04.01.88.

 5. Kashnin V.G. Gamma globulin preparations prevent calf dyspepsia. Veterinary, 3, 1970

 6. Chernukha V.K. The use of non-specific gamma globulin for dyspepsia in newborn calves. In the book. "Prevention and treatment of non-communicable diseases of young farm animals", M. 1968

 7. Movsun-Zade K.K. The use of protein hydrolysates in the treatment and prevention of internal non-communicable diseases of young animals. In the book. "Prevention and treatment of non-communicable diseases of young animals of agricultural animals", M. 1968

 8. Alikaev V.A. Dyspepsia. In the book. "Internal non-communicable diseases of agricultural animals", M. 1964

 9. Podkopaev V.N. Determination of the antibiotic dose for toxic dyspepsia of calves. Veterinary Medicine, 4, 1965

 10. Aizattulov M.I. Prevention and treatment of toxic calf dyspepsia. Veterinary Medicine, 2, 1966

 11. Zion R. A. Dyspepsia of calves. In the book. "Achievements of Veterinary Science", ed. "The Ear", M. 1966

 12. Mironova V.D. The effect of acidophilic corn silage on rennet secretion in calves. Izv. AN Kazakh SSR, 1964, N 6.

 13. Smirnov A. M. Natural gastric juice of a horse is a highly effective remedy for gastrointestinal and other diseases of young animals of agricultural animals. In the book. Prevention and treatment of diseases of agricultural animals. M. 1968

 14. Karamov H.K. Mushin M.N. The effectiveness of the use of gastric juice. Veterinary Medicine, 11, 1966

 15. Khayrutdinov H.S. and coauthors. Getting and using cattle rennet juice. Veterinary, 10, 1967

 16. Xymedon. Scientific collection of materials of experimental and clinical trials, IOFH them. A.E. Arbuzova and Kazan Medical Institute. V.V. Kurashova, Kazan, 1986

Claims (1)

 The use of N- (β-hydroxyethyl) -4,6-dimethyldihydropyrimidone-2 as a means to stimulate natural resistance and prevent gastrointestinal and respiratory diseases of calves.