RU2668124C1 - Treatment-and-preventive agent for young farm animals; and method for prevention of respiratory diseases among calve and its application - Google Patents

Abstract

FIELD: veterinary science; biotechnology.SUBSTANCE: invention relates to the field of veterinary and biotechnology and is a preparation for the prevention of respiratory diseases of calves, which is a biological inactivator of toxic gases in deep litter, containing concentrated cultures of effective microorganisms in a stable inactive form and capable of long-term storage, characterized in that as cultures of effective microorganisms, adsorption dried microorganism cultures such as micromycetes of the Trichoderma genus, yeasts of the Saccharomyces cerevisae species, a probiotic culture of B. subtillus and lactobacteria of the Lactobacterium genus with a living microorganism content of at least 10…10CFU in 1 gram of the preparation, and as an auxiliary substance – biopolysaccharide, as well as a method for preventing respiratory diseases of calves, including treatment of a litter material on which animals are kept by a preparation according to p. 1 once in a dose of 25 grams per 1 mlitter material, in the form of an aqueous solution which is prepared by diluting the preparation according to p. 1 in 1 liter of non-chlorinated water, the temperature does not exceed +50 °C.EFFECT: inventions ensure an increase in the effectiveness of preventive measures for respiratory diseases of calves, the safety of livestock, a reduction in the number of diseased calves and a decrease in the percentage of chronization of respiratory pathologies in calves.2 cl, 4 ex, 6 tbl

Description

The invention relates to veterinary medicine and biotechnology, namely to veterinary microbiology and is intended for the prevention of respiratory diseases of calves.

In connection with the worsening epizootological state in many farms of the Russian Federation for diseases of young farm animals, there is a need to reconsider ways to solve this problem. It is worth considering that among the diseases of young animals, the leading place is occupied by diseases of viral etiology, complicated by a bacterial onset. The growth trend of recurrent and chronic respiratory diseases of calves and the variety of immune disorders in these diseases determine the relevance of developing new therapeutic and prophylactic drugs that act on the etiopathogenesis of respiratory diseases. The main factors in the etiology of calf respiratory diseases are biogenic and abiogenic factors. Aggressive abiogenic factors include, as a rule, the negative effect of toxic gases. Toxic gases such as ammonia, accumulating in large quantities in the air of the bedding layer, enter the body of the calves through the upper respiratory tract. In this case, the functions of the surfactant membrane of the respiratory tract, which is one of the factors of the natural resistance of the animal organism, are violated. Ammonia also inhibits the function of erythropoiesis, the mechanism of synthesis and excretion of immune complexes from the calf’s body, which provokes the manifestation of an immunodeficiency state that dramatically reduces the body’s natural resistance and the active penetration of pathogens of specific viral diseases such as infectious rhinotracheitis in cattle and parainfluenza-3 ( Dzhupina S.I., Epizootic process and its control in factor infectious diseases (Part 1., 2002). For the treatment and prevention of respiratory diseases of calves, a large number of drugs of various mechanisms of action have been proposed, but due to the widespread spread of respiratory diseases on farms and frequent bacterial complications, the search for optimal preventive agents is still relevant.

Known methods for the prevention of respiratory diseases of calves, based on the creation of an immune background through the introduction of various serums and vaccines in combination with treatment with substances created on the basis of compositions of medicinal herbs (patent No. 2464999 IPC; A61K 36/21; A61K 36/484; A61K 39 / 12; A61K 11/00). The disadvantages of these methods are insufficient knowledge of the occurrence of side effects in the form of hypersensitivity to the components of these serums and substances (increasing the maximum therapeutic dose increases the risk of bronchospasm and edema in animals).

There is a method for the prevention of respiratory diseases of calves using aerosol treatment of rooms with 3% potassium permanganate solution.

The disadvantage of this method is that potassium permanganate inhibits the reproduction of beneficial microflora (K. Konovalov, the Use of potassium permanganate aerosol for the prevention of calf bronchopneumonia and treatment of patients / K.P. Konovalov, VB Novikov // Prevention and treatment of non-communicable ruminant diseases in special farms: Collection of scientific papers / MVA. - 1987).

Many methods for the prevention and treatment of calf respiratory diseases are based on the use of broad-spectrum antibiotics.

Despite the convenience of using antibiotics and their relative effectiveness, the big disadvantage of this method is the appearance of antibiotic-resistant forms of microflora, usually putrefactive. It leads to bacterial infections and chronic respiratory infections. Also, one of the significant drawbacks of such methods is that, when applied in young animals, the growth of normoflora is suppressed, which plays a crucial role in the formation of the body's immune reactivity, functional stability of such body systems as the gastrointestinal tract, bronchopulmonary system, etc.

The closest to the claimed invention is a preparation consisting of concentrated cultures of effective microorganisms that changes the microbiological processes in the litter for pigs with low-cost production technology (patent No. 2524815; IPC A01K 1/02). This biological product has a high antagonistic activity against putrefactive microflora.

The disadvantage of this biological drug is that it is used several times with a frequency of 2-4 weeks. Also, the implementation of this method requires the addition of sawdust, husk, since microorganisms work only with a dense layer of sawdust, husk and straw not less than 30 cm, which is economically inefficient.

The aim of this invention is the development of a biological preparation with high antagonistic activity against putrefactive microflora. As a result of reduced reproduction of putrefactive microflora, the synthesis of toxic gases is disrupted.

To increase the effectiveness of treatment and prevention of respiratory diseases of calves, it was proposed to use the developed biological inactivator of toxic gases in a deep litter containing concentrated adsorption-dried cultures of effective microorganisms in a stable inactive form and capable of long-term storage such as Trichoderma micromycetes, Saccharomyces cerevisae yeast, and probiotic Culture Bac.subtillus species and genus Lactobacillus Lactobacterium the content of living microorganisms for at least 10 ⁵ -10 ⁷ cfu (colony constituent units) in 1 gram of the drug, and as excipients - biopolysaccharides.

воды и

сухого вещества, как раз в состав которого входят неорганические и органические вещества (биополимеры, азот, белки, жиры). Дрожжи широко используются в пищевой и медицинской промышленности благодаря своей высокой ферментативной активности и отсутствию токсичности. Лактобактерии относятся к роду Lactobacterium, грамположительным, микроаэрофильным палочковидным микроорганизмам, которые продуцируют молочную кислоту и тем самым проявляют антагонистические свойства по отношению к патогенным микроорганизмам таким, как бактерии семейства Staphylococcaceae, вирулентные штаммы E.coli, бактерии рода Salmonella. Среди грибов-антагонистов особое место занимает гриб рода Trichoderma, который выделяет различные метаболиты такие, как цитокины, этилен, антибиотики, витамины, аминокислоты, органические кислоты, также из этого гриба можно получить фермент целлюлазу, которая активно расщепляет сложные сахара до мономеров (Trichoderma-plant-pathogen interactions / F. Vinale, K Sivasithamparamb, E.L. Ghisalberti, R. Marra, S.L. Woo, M. Lorito // Soil Biology and Biochemistry. 2008. Vol. 40). Каждый компонент по отдельности и в совокупности изменяют биохимические процессы в подстилке, содержащей фекалии и мочу животных.This goal is achieved by a single treatment of the bedding material, which contains calves with the developed biological inactivator of toxic gases in a deep bedding, which is used at a dose of 25 grams per 1 m2 of bedding material, in the form of an aqueous solution, which is prepared by diluting in 1 liter of non-chlorinated water, at a temperature not above + 50C °. The justification for the selected microorganisms was published data on their high antagonistic activity against putrefactive microflora, participation in the biosynthesis of protein, vitamins, organic acids, antitoxic effects, which are manifested in the detoxification of certain exogenous substances, biochemical activity by which these microorganisms are able to affect the temperature of the substrate, in which they breed. Also, these microorganisms are physiological and not toxic, which was established during the experiment. Bacillis subtillis is one of the brightest representatives of the species of spore-forming soil aerobic microorganisms (Ashlee M., Losick R, Kolter R. Bacillus subtilis Genome Diversity // Journal of Bacteriology. 2007. No. 189). They possess chemo-organo-heterotrophism, break down biopolymers, ammonify protein residues, and are able to qualitatively reduce the negative effects of various representatives of putrefactive microflora and pathogenic microorganisms such as yeast-like fungi Candida, bacteria of the genus Salmonella, Proteus, Streptococcus. According to the sanitary and epidemiological rule SP 1.3.2322-08 “Safety of work with microorganisms of 3-4 pathogenicity groups and pathogens of parasitic diseases” (Appendix No. 1) (2008, edition 2011), valid in the Russian Federation, hay bacillus does not apply pathogens for humans microorganisms. The absence of pathogenic strains in hay bacillus gave rise to the assignment of GRAS (generally considered as safe) status to the US Food and Drug Administration, that is, biologically safe organisms. Preparations containing Bacillus subtilis are prescribed for violations of the microbiocenosis of the gastrointestinal and respiratory tract. The lower non-mycelial fungi, which include the yeast Saccharomyces cerevisiae have a rich composition, contain

water and

dry matter, just the composition of which includes inorganic and organic substances (biopolymers, nitrogen, proteins, fats). Yeast is widely used in the food and medical industries due to its high enzymatic activity and lack of toxicity. Lactobacilli belong to the genus Lactobacterium, gram-positive, microaerophilic rod-shaped microorganisms that produce lactic acid and thereby exhibit antagonistic properties against pathogenic microorganisms such as bacteria of the family Staphylococcaceae, virulent strains of E. coli, bacteria of the genus Salmonella. Among antagonistic fungi, a special place is occupied by the Trichoderma fungus, which secretes various metabolites such as cytokines, ethylene, antibiotics, vitamins, amino acids, organic acids, and from this fungus you can get the cellulase enzyme, which actively breaks down complex sugars into monomers (Trichoderma- plant-pathogen interactions / F. Vinale, K Sivasithamparamb, EL Ghisalberti, R. Marra, SL Woo, M. Lorito // Soil Biology and Biochemistry. 2008. Vol. 40). Each component individually and collectively alters the biochemical processes in the litter containing feces and urine of animals.

A method for the prevention of respiratory diseases of calves consists in a single treatment of bedding material containing calves with a biological inactivator of toxic gases in deep bedding at a dose of 25 grams per 1 m2 of bedding material in the form of an aqueous solution, which is prepared by diluting in 1 liter of non-chlorinated water, temperature not higher than + 50 °.

The effectiveness of this method of prevention was determined in the farm LLC "Uysky" Uysky district of the Chelyabinsk region in the presence of animals with a clinical picture of respiratory damage. The essence of this method of prevention is illustrated by several examples.

Example 1. For the implementation of the method, groups of animals were taken according to the principle of analogs in the amount of 15 animals in each group. To establish the effect of the biological preparation and the effectiveness of the prophylactic method, ammonia concentrations were determined using a universal gas analyzer UG-2 in the under-bed layer of air where animals are kept (table 1).

* P <0.05; ** P <0.01; *** P <0.00

According to the analysis of the data, a decrease in ammonia in the supra-litter layer of air was observed in the experimental group of calves 30 days after the application of the drug by 2.3 and after 60 days by 3.6 times relative to the maximum permissible concentration. This confirms the validity of the proposed method of prevention (respiratory diseases of calves using the developed drug by reducing the synthesis of one of the most toxic gases - ammonia, which is released in large quantities during putrefactive decay of feces and urine.

Example 2. In order to study the removal of cold stress in calves by the claimed method for the prevention of respiratory diseases of calves using the developed biological preparation, the temperature regimes were determined; litter in calves of the control and experimental groups (table 2).

* P <0.05; ** P <0.01; *** P <0.00

When a biological preparation was added to the litter, an increase in temperature was observed inside the litter of the experimental group of calves, 30 times 2.7 times more than in the control group and 60 times after the introduction of the preparation, 2.5 times more than in the control group. Such dynamics of the processes of rapid self-heating in the litter of the experimental group confirms the active enzymatic activity of the selected microorganisms that are part of the developed biological product with the claimed method for the prevention of respiratory diseases of calves.

Example 3. During the experiment, hematological and immunological status was determined in control and experimental animals, (table 3-5).

* P <0.05; ** P <0.01; *** P <0.001

30 days after the drug was added to the litter in the blood of the experimental group of calves, there was an increase in hemoglobin by 14.2% and the number of red blood cells by 7.3% relative to the control group. This indicates the normalization of erythropoiesis in the experimental group of calves. The decrease in the number of red blood cells and the amount of hemoglobin in the control group of calves is due to disturbances in gas exchange in tissues and organs, intensified by hypoxia, due to disruption of the cardiovascular system due to the presence of cold stress in animals, complicated by the negative impact of increased ammonia concentrations. In a study in the control group of calves, an increase in ESR (erythrocyte sedimentation rate) was found to be 1.2 times higher than in the experimental group of calves, which indicates the development of respiratory tract pathology.

* P <0.05; ** P <0.01; *** P <0.001

According to the table, it can be seen that in the leukogram of the control group of calves, as compared with the experimental group, on the 30th day of the study, the number of basophils and stab neutrophils increases by an average of 5.2 and 10.3%, the number of lymphocytes and monocytes decreases by 9, 8 and 9.3% respectively. On the 60th day of the study, there is an increase in the number of basophils and stab neutrophils by 7.8 and 13.4% and a decrease in the number of lymphocytes and monocytes by 10.2 and 9.7%, respectively. When studying the leukocyte profile in the experimental group of animals, a change in the cell morphology is observed: badophilic cells disappeared, the number of stab cells decreased on average by 9.6% after 30 days relative to the control and by 11.8% after 60 days relative to the control group. This characterizes the physiological norm, that is, the absence of an acute inflammatory process in calves of the experimental group. An increase in lymphocytes by an average of 8.2% after 30 days and 12.9% after 60 days relative to the control group indicates an increase in the number of immunocompetent white blood cells and, accordingly, an increase in the natural resistance in the calves of the experimental group.

When studying the immunological status of calves, first of all, attention is paid to indicators characteristic of the presence and active development of the inflammatory process in the body of calves and a decrease in natural resistance. The bactericidal activity of blood serum, phagocytic number and phagocytic activity of blood cells of both groups of animals were determined (table 5).

* P <0.05; ** P <0.01; *** P <0.001

According to the table, the calves of the experimental group after 30 days showed a significant increase in the phagocytic number (PS) by an average of 12.5% compared with the calves of the control group and by 16.1% after 60 days compared with the control group of animals. This proves the presence in the blood of calves of an experienced group of complete phagocytosis. The increase in phagocytic number in comparison with the control group of calves is due to an increase in immune reactivity in calves of the experimental group. An increase in the phagocytic activity of leukocytes (FAL) was observed in the experimental group of calves 30 days after the drug was introduced into the litter by an average of 17.1% and 25.2% after 60 days. The bactericidal activity of the blood serum of experimental animals also tended to increase after the use of the drug. So on the 30th day after the first study of BASK (bactericidal activity of blood serum) in the experimental group of calves increased by 7.25%, and in the control group there was a decrease in BASK by 0.8%, on the 60th day in the blood of experimental calves an increase in BASK by 15.1% compared with the initial data. In the control group of calves, BASK decreased by 2.5% 60 days after the initial study.

Example 4. To determine the effectiveness of the proposed method for the prevention of respiratory diseases of calves using the developed biological product, the prophylactic effect of chronicity of the inflammatory process in the respiratory tract of animals was studied.

According to studies, 5 animals (38.4%) fell ill in the experimental group of animals, of which all calves recovered according to the results of a bronchopulmonary test. From the control group of calves, 13 animals (86.6%) fell ill, 1 animal fell, and the remaining sick animals (12 animals) had a positive bronchopulmonary test for 30 days. The data obtained allow us to conclude that the therapeutic and prophylactic effect of respiratory diseases of calves by the claimed method using a biological preparation, which is manifested in a decrease in the concentration of ammonia in the litter layer of the air, an increase in temperature inside the litter, which ensured the exclusion of cold stress in the calves of the experimental group, this confirms the achievement of the claimed result.

Information sources

1. Dzhupina S.I. Epizootic process and its control in factor infectious diseases. Part 1. M, 2002. 70 p.

2. Ashlee M.E., Losick R, Kolter R. Bacillus subtilis Genome Diversity // Journal of Bacteriology. 2007. No.189 (3). P. 1163-1170.

3. Konovalov K.P. The use of an aerosol of potassium permanganate for the prevention of calf bronchopneumonia and the treatment of patients / K.P. Konovalov, V.B. Novikov // Prevention and treatment of non-communicable ruminant diseases in special farms: Sat. scientific tr / MBA. - 1987. - S. 41-45.

4. patent No. 2524815 of 08/10/2014.

5. patent No. 2464999 dated 10.27.2012.

6. Trichoderma-plant-pathogen interactions / F. Vinale, K. Sivasithamparamb, E.L. Ghisalberti, R. Marra, S.L. Woo, M. Lorito // Soil Biology and Biochemistry. 2008. Vol. 40. P. 1-10.

7. On the approval of the sanitary-epidemiological rules of SP 1.3.2322-08 (as amended and additional): Resolution Ch. state nurse, doctor of the Russian Federation dated January 28, 2008 No. 4. URL: http://base.garant.ru/12160681/.

Claims (4)

1. The drug for the prevention of respiratory diseases of calves, representing is a biological inactivator of toxic gases in a deep litter containing concentrated cultures of effective microorganisms in a stable inactive form and capable of long-term storage, characterized in that adsorption-dried cultures of microorganisms such as Trichoderma micromycetes, Saccharomyces cerevisae yeast are used as effective microorganism cultures probiotic culture of the species B. subtillus and lactobacillus of the genus Lactobacterium with a content of living microorganisms of at least 10 ⁵ –10 ⁷ CFU per 1 gram preparation a, and as an excipient - a biopolysaccharide. 2. A method for the prevention of respiratory diseases of calves, including treatment litter material, which contains animal preparations according to claim 1, once at a dose of 25 grams per 1 m ^{2 of} litter material, in the form of an aqueous solution, which is prepared by diluting the preparation according to claim 1 in 1 liter of non-chlorinated water, with a temperature not exceeding + 50 ° FROM.