WO2022075888A1

WO2022075888A1 - Aqueous anti-bacterial composition for treating infectious diseases of the hoof

Info

Publication number: WO2022075888A1
Application number: PCT/RU2021/050303
Authority: WO
Inventors: Людмила Александровна ТИХОНОВА; Дмитрий Александрович ПРОКОПОВ; Михаил Викторович РЫЖОВ
Original assignee: Людмила Александровна ТИХОНОВА; Дмитрий Александрович ПРОКОПОВ; Михаил Викторович РЫЖОВ
Priority date: 2020-10-08
Filing date: 2021-09-21
Publication date: 2022-04-14
Also published as: RU2764178C1

Abstract

The group of inventions relates to veterinary science and is intended for the treatment and prophylaxis of infectious diseases of the hoof in animals. Proposed is an aqueous anti-bacterial composition for the prophylaxis and/or treatment of infectious diseases of the hoof in animals which is based on a copper salt and contains the following ratio of ingredients: 1.8-18 wt% copper sulphate, 0.05-0.5 wt% zinc glycinate, 0.1-1.0 wt% sulphuric acid, 0.15-1.5 wt% citric acid, 0.11-1.1 wt% lactic acid, 0.11-1.1 wt% hydroxyacetic acid, 0.03- 0.3 wt% brilliant green, 0.03- 0.3 wt% polyvinyl alcohol, 0.1-1.0 wt% surfactant, and the remainder water. Also proposed is a method for applying the claimed composition. The inventions provide for the creation of a disinfectant with an excellent ability to penetrate into diseased tissue in animals as a result of the high biological effectiveness of the chelated form of a biogenic element of one of the functional ingredients of the anti-bacterial composition, namely zinc glycinate, which has a biologically stable ring structure formed by a coordinate covalent bond between the amino group and the carboxyl group of the amino acid and an ion of the metal, the latter also exhibiting high anti-microbial activity, for the purpose of providing more effective prophylaxis of infectious diseases of the hoof, particularly foot rot.

Description

WATER BACTERICIDAL COMPOSITION FOR THE TREATMENT OF INFECTIOUS DISEASES OF THE HOOVES

The invention relates to veterinary medicine and is intended for the treatment and prevention of infectious diseases of animal hooves.

The formation of large livestock complexes contributed to the spread of infectious diseases such as necrobacteriosis, foot rot (interdigital phlegmon) and persistent foot rot (interdigital dermatitis). This was due to the replenishment of farms with animals, including those received from abroad.

These infectious diseases of the hooves of animals turned out to be the biggest threat to the economic efficiency of livestock farms. It has been shown that during the period of illness, cows can lose up to 40% of their body weight and up to 900 liters of milk.

Necrobacteriosis is an infectious disease characterized by purulent-necrotic lesions of the skin and underlying tissues (more often on the lower parts of the extremities), mucous membranes, and sometimes parenchymal organs. The disease is found everywhere, but especially often in areas of developed sheep and reindeer breeding. The causative agent of this disease is the bacterium Fusobacterium necrophorutn - a polymorphic microbe, immobile, gram-negative, does not form spores and capsules, is a strict anaerobe, grows well on nutrient media. Widely distributed in the environment. Sources of the causative agent of infection - sick, ill and clinically healthy animals-bacteria carriers. Necrosis bacteria - permanent inhabitants of the rumen and intestines of ruminants - remain in the body of rodents for months. They are excreted into the external environment with feces, with saliva, and from patients - with necrotic tissues. Infection of animals usually occurs through damaged skin and mucous membranes (in young animals during teething, through the umbilical cord). Infection is facilitated by grazing on stubble, on damp, swampy pastures, long hauls, feeding dry and prickly roughage.

Foot rot, or interdigital cellulitis, is an infection of the soft tissue between the toes. Footrot is caused by the anaerobic bacterium Fusobacterium necropborum. The anaerobes Dicbelobacter (Bacteriodes) nodosus and Prevotella melaninogenicus are also involved in the development of the disease. The bacteria infect the skin of the damaged areas of the feet and initially cause painful swelling between the toes. In sick animals, lameness is noted on one or more limbs, swelling of the skin of the interdigital gap. With the development of the inflammatory process, erosions and ulcers appear in the tissues of the interdigital fissure, detachment and putrefactive decay of the horn of the hoof wall and sole begin, sometimes the coffin bones are exposed. The exudate released at the same time has a specific fetid odor. As it dries, it forms a crust. With such damage to tissues, animals lie more, they develop exhaustion, and wool productivity decreases.

Persistent footrot, or interdigital dermatitis, is a chronic inflammation of the skin between the toes (in the interdigital gap). Caused by the bacterium Dichelobacter nodosus. The affected area of the skin takes on a swollen appearance due to the drying exudate that forms a crust. This condition causes lameness, heel cracks, or erosion. Infectious diseases are one of the main causes of lameness in an animal, which, if not properly treated, can lead to increased lameness and subsequent death.

At the same time, in practice, it was revealed that the most common disease is necrobacteriosis.

Prevention of hoof diseases requires regular hoof trimming, use of hoof baths to control infectious diseases, which most often helps to prevent disease, rather than long-term treatment.

Various veterinary preparations have been developed for the prevention of animal hoof diseases.

The most effective drugs are antibiotics, such as tetracycline, penicillin, lincomycin, oxytetracycline, etc. The drugs are used by aerosol spraying, foot baths, animal foot wraps. Antibiotics are highly effective in the treatment of infectious diseases, however, their use has several disadvantages. With prolonged use, the risk of the presence of antibiotic residues in the meat and milk of animals is likely, and a strain of bacteria resistant to these antibiotics may appear.

Two-component foam agents are known, which include hydrogen peroxide and peracetic acid, with the addition of a surfactant and a dye. Foaming agent, convenient for use in the preparation of hoof baths, is clearly visible on the hooves of animals after passing through the hoof bath.

However, this remedy has a pungent smell, it covers only the front part of the hoof, does not affect the back part and does not get into the interdigital space, it is poorly stored. Of the known disinfectants for the prevention of infectious diseases of the hoofs of animals, the most common preparations are based on copper salt.

For the treatment of animal hooves, hoof baths with a 10% aqueous solution of copper sulphate are used, while the copper salt is dissolved immediately before use in the hoof bath (20 kg of copper sulphate per 200 liters of water).

The disadvantages of this method of disinfecting animal hooves include: the laboriousness of work when diluting copper sulfate powder in a hoof bath, reducing the effectiveness of the disinfectant when animals pass through a bath with an aqueous solution of copper sulfate, because. faeces and dirt get into the bath, which leads to the formation of additional organic material and, as a result, to a decrease in the acidity of the disinfectant solution, as a result of which the disinfectant precipitates and the disinfectant properties of the bath are reduced.

Known bactericidal composition for the prevention and treatment of infectious diseases of animal hooves, which includes as pharmacologically active agents a stabilized Sol of nanoparticles of copper, zinc and silver, as an antiseptic - methylene blue, as the basis of the composition - polyethylene glycol-4000, polyvinylpyrrolidone, cellulose, lactic acid, formic acid and purified water (RU 2414902 C1). Treatment of animal hooves is carried out by external applications and / or foot baths.

The disadvantages include the complexity and laboriousness of manufacturing a bactericidal agent. The technological process takes place at a temperature of 50 to 20 °C with continuous homogenization and vacuuming. The packaging of the product is carried out on a filling machine in plastic tubes of 200 g.

A known method for the treatment of purulent pododermatitis of cattle, which consists in the mechanical, surgical treatment of hooves with further treatment with the preparation "Biohelatgel", consisting of the following components: a pharmacologically active agent - copper complexonate - 3.75 g, excipients - zinc sulfate, thickener polyvinylpirollidone EP, BP, water extract "Bionorm V", purified water - 95.5-97.0 g (RU 2011105269 A). A napkin impregnated with Biochelate gel is applied to the treated area of the skin and fixed with a bandage. However, this method is very long and laborious.

Known means and method for the treatment of purulent-necrotic diseases of the limbs of animals, such as necrobacteriosis, foot rot, purulent pyodermatitis, laminitis, Rooster char ulcers, etc. The drug is a nanostructured composition in the form of a suspension containing (wt.%): didecyldimethylammonium halide clathrate with carbamide - 2-10%, copper sulfate - 1-10%, tar - 2-10%, monohydric alcohol - 2-10%, water - 60-93%.

The limbs are treated by external applications and/or foot baths (RU 2391110 C2).

The method of obtaining the agent consists in sequential mixing of the components with intensive stirring of the mixture. Then, to obtain a nanostructured composition, the average particle size of which is in the range from 10 to 100 nm, it is necessary to use methods known in the field of nanotechnology, for example, ultrasonic processing, homogenization at high pressure, i.e. This method is multi-stage, time-consuming, and requires special functional equipment.

Closest to the claimed disinfectant, selected as a prototype, is an aqueous bactericidal composition for the prevention and treatment of infectious diseases of the hooves of animals and a method for the prevention and treatment of infectious diseases of the hooves in animals based on copper salt, containing, wt.%: copper sulfate, 15- 20%; a quaternary ammonium compound (a mixture of trialkylbenzylammonium chloride and dimethylethylbenzylammonium chloride under the trade name BTC 2125 M) 0.5-2%; hydrogen peroxide, 1-4%; while additionally contains citric acid, 0.5 -2.0%; lactic acid, 05-2.0%, triarylmethane dye 0.1%, organic or inorganic bases 0-3%; water 71-97% (RU 2235546 C2). When combined, bactericidal preparations act synergistically, increasing the antibacterial effectiveness of each component, and individually, bacterial preparations are not effective or weakly effective. The desired pH value of the aqueous germicidal composition is in the range from 1.6 to 2.0.

The disadvantage of this bactericidal composition is the limitation of the time of its use, due to a decrease in efficiency due to chemical reactions occurring between the bactericidal preparations of the composition.

The technical result of the invention is to create a disinfectant:

- having a high penetrating ability into the affected tissues of animals due to the high biological effectiveness of the chelate form of the biogenic element of one of the functional components of the bactericidal composition - zinc glycinate with a biologically stable ring structure formed by a covalent-coordination bond between the amino and carboxyl groups of an amino acid and a metal ion, which also has a high antimicrobial activity, in order to increase the effectiveness of the prevention of infectious diseases of the hooves, especially necrobacteriosis.

The technical result is achieved using an aqueous bactericidal composition for the prevention and/or treatment of infectious diseases of the hooves in animals based on a copper salt, characterized in that the composition contains the following ratio of components, wt.%: copper sulfate 1.8-18 zinc glycinate 0.05 -0.5 sulfuric acid 0.1-1.0 citric acid 0.15-1.5 lactic acid 0.11-1.1 hydroxyacetic acid 0.11-1.1 brilliant green 0.03-0.3, polyvinyl alcohol 0.03-0.3

Surfactant 0, 1-1, 0 water the rest.

The aqueous germicidal composition has a pH of 1 to 5.

The surfactant in the aqueous bactericidal composition is sodium lauryl sulfate.

The aqueous bactericidal composition additionally contains a thickener.

The aqueous bactericidal composition is intended for the prevention and/or treatment of infectious diseases of the hooves of large and small cattle, which are selected from the group: necrobacteriosis or interdigital phlegmon, or interdigital dermatitis.

Also proposed is a method for the prevention and treatment of infectious diseases of the hooves of large and small cattle, which consists in applying the specified aqueous bactericidal composition. When this composition is applied in the form of a form selected from a spray, foam, foot bath or foot wrap.

The composition of the disinfectant for the prevention of infectious diseases of the hooves, containing a copper salt, lactic acid, citric acid, hydroxyacetic acid and water, additionally includes active agents:

- zinc glycinate - an antiseptic, a drug that has wound healing properties,

- brilliant green (triarylmethane dye) - an antiseptic and indicator that marks wounds and controls the application of a disinfectant to the surface of the hoof;

- sulfuric acid - disinfectant activity enhancer;

- hydroxyacetic acid - provides acceleration of the processes of restoration of damaged skin areas, promotes rapid cell renewal; polyvinyl alcohol is a film-forming drug that contributes to the prolonging action of antiseptic drugs by increasing the viscosity.

The composition described by this invention must have a pH sufficient to completely dissolve the copper salt. The pH of the composition should therefore be from 1 to 5, preferably from about 1.6 to about 4.0. The aqueous germicidal composition must also be stable under normal storage conditions. The viscosity of the composition may vary depending on its intended use and can be increased if desired using any known thickeners.

Other components may also be included in the aqueous germicidal composition of the present invention. For example, to bring the pH of the composition to the desired value, pH regulators are used. For this purpose, both mineral and organic acids and their mixtures can be used. Suitable organic acids include hydroxyacetic acid, citric acid and lactic acid, while inorganic acids are suitable phosphoric acid, sulfuric acid and hydrochloric acid. It is preferable to use an organic acid or a mixture of an organic and a mineral acid. The amount of pH adjuster depends on the desired pH. Typically, the pH adjuster should be present in an amount of from about 0.1 to 2.0% by weight of the composition.

The aqueous composition of this invention may also contain a pH fixer or buffer to ensure that all components of the composition remain soluble throughout the shelf life of the composition. Organic bases such as amines can be used, as well as inorganic bases such as sodium hydroxide and potassium hydroxide. Typically, the buffer is present in an amount of from about 0 to 3% by weight of the composition. The optimal amount varies depending on the specific components of the composition.

The composition described in this invention may also contain other additives, which may be any substance that improves the properties of the composition in terms of improving the solubility or dispersion properties of other components, improving the adhesion of the composition to the affected area of the hoof, adjusting wetting characteristics and improving durability, which can be related, among other factors, to characteristics such as surface tension and viscosity. In addition, the composition may contain other substances such as emollients that reduce skin irritation when applied topically.

The acids that make up the disinfectant are acidity regulators to prevent the precipitation of copper salts during the passage of animals through a hoof bath, and also create a buffer stabilizing system with active copper and zinc ions, the mechanism of action of which is to denature the proteins of the microbial cell and tanning effect on the epithelium of the skin and hoof horn.

Copper is involved in the growth and formation of blood vessels, bones, ligaments and tendons.

Zinc glycinate is an antiseptic, a drug that restores and stimulates the growth of the hoof horn. The chelated form of zinc provides a high penetrating ability of active substances into the hoof tissue, resistance to the negative effects of adverse environmental factors. The disinfectant has good adhesive properties. Its activity is preserved after contact with manure and in conditions of high humidity.

These advantages of the components and the composition as a whole allow us to speak about the obtained positive properties of the proposed disinfectant, providing an increase in the effectiveness of the prevention and/or treatment of infectious diseases of the hooves.

The proposed disinfectant is manufactured in a reactor equipped with a stirrer, a heating/cooling jacket, by successively dissolving the components in water with stirring. The ratio of components, wt.%: copper sulfate 1.8-18 zinc glycinate 0.05-0.5 sulfuric acid 0.1-1.0 citric acid 0.15-1.5 lactic acid 0.11-1.1 hydroxyacetic acid 0.11-1.1 brilliant green 0.03-0.3 polyvinyl alcohol 0.03-0.3

Surfactant 0, 1-1, 0 water the rest.

The process temperature is reduced from 80°C to 20°C.

The finished disinfectant concentrate is poured into plastic canisters with a volume of 5, 10, 20 liters.

A method for the prevention and treatment of infectious diseases of the hooves of large and small cattle, consists in applying the specified aqueous bactericidal composition in the form of a spray or foam, or a foot bath, or a foot wrap.

The possibility of implementing the present invention is illustrated by the examples below with different content of components in the composition of the aqueous bactericidal composition, wt.%.

Example 1

Concentrate of aqueous bactericidal composition, wt.%:

Citric acid 1.5

Lactic acid 1.1

Sulfuric acid 1.0

Copper sulfate 18

Glycinoplex zinc 0.5

Brilliant green 0.3

Polyvinyl alcohol 0.3

Surfactant 1.0

Hydroxyacetic acid 1 , 1

Water 75.2

Example 2

Diluted aqueous bactericidal composition, wt.%:

Citric acid 0.15

Lactic acid 0.11

Sulfuric acid 0.10

Copper sulfate 1.80

Glycinoplex zinc 0.05

Brilliant green 0.03

Polyvinyl alcohol 0.03

Surfactant 0.1

Hydroxyacetic acid 0.11

Water 97.52 Example 3

Determination of antibacterial activity against Fusobacterium necrophorutn.

The study of the antibacterial activity of the proposed disinfectant was carried out by diffusion into agar on dense nutrient media by analyzing the zones of inhibition (growth retardation) of test microorganisms (ATCC) used for the antimicrobial action of drugs. The studies were carried out in relation to the standard strain of Fusobacterium necrophorutn. Paper disks impregnated with the composition according to example 1 and example 2 were applied to the surface of the agar, and for comparison - disks impregnated with the composition of the prototype - an aqueous bactericidal composition, which contains, wt.%: copper sulfate pentahydrate - 20.0; quaternary ammonium compound (a mixture of trialkylbenzylammonium chloride and dimethylethylbenzylammonium chloride under the trade name BTC 2125 M) - 1.0; hydrogen peroxide - 5.0; hydroxyacetic acid - 05; Barlox 12 (surfactant) - 1.0; 75% phosphoric acid - 0.6; water - 71.9. Then all samples were incubated in a thermostat for 24 hours at 37°C. After incubation, the surface of the medium and the grown culture was examined in oblique transmitted light, and the zones of inhibition of the growth of the studied microorganism around the disk were measured.

As a result of the research, it was found that the zone of inhibition of the growth of the test microbe when using the proposed agent according to example 1 was 44-45 mm, according to example 2 was 36-38 mm, when using the composition of the prototype - 24 mm, which shows the high antibacterial activity of the proposed agent against Fusobacterium necrophorutn. Example 4

Tests of the therapeutic activity of the proposed agent for the prevention of infectious diseases of the hooves in animals.

The proposed aqueous bactericidal composition according to examples 1 and 2 was tested in the field on dairy cows.

Four groups of dairy cows were created: three experimental groups of 55 heads and a control group (12 heads). Selected cows in all groups were subjected to a daily full clinical examination. The cows of the experimental groups were subjected to preventive measures: cleaning and, if necessary, trimming the hooves, running through a foot bath filled with a disinfectant according to examples 1 and 2, for cows of the first and second experimental groups. Foot bath for running the third experimental group was filled with bactericidal agent-prototype.

The cows in the experimental groups were driven 6 times, once every 6 days.

During the tests, the general condition of cows and hooves was monitored: the presence of injuries, lameness, swelling on the limbs of animals.

As a result of the tests, it was found that during the observation period in the control group of 12 cows, 3 cows fell ill, which amounted to 25%.

In the first experimental group, 3 cows fell ill, which amounted to 5.5%.

In the second experimental group, 5 cows fell ill, which amounted to 9%.

In the third experimental group, 8 cows fell ill, which amounted to 14.5%.

The test results showed the effectiveness of preventive treatment of cows' hooves by driving animals through a foot bath when using the proposed disinfectant: the number of sick animals from 14.5% (prototype) decreased to 5.5% and 9% (proposed disinfectant). Example 5

Testing the therapeutic activity of the proposed agent for the treatment of already existing infectious diseases of the hooves in animals.

Four groups of dairy cows were also created: three experimental groups of 3 cows each, with 1 cow in each group with the presence of necrobacteriosis, interdigital phlegmon and interdigital dermatitis.

Selected cows in all groups were subjected to a daily full clinical examination. Cows of 1 and 2 groups were subjected to a run through a foot bath filled with a disinfectant according to examples 1 and 2, and a foot bath for running the third experimental group was filled with a bactericidal agent prototype.

Additionally, cows of groups 1 and 2 were treated with a spray containing a disinfectant prepared according to examples 1 and 2 on damaged surfaces. Cows of the 3rd group were treated with a prototype agent.

During the tests, the general condition of cows and hooves was monitored: an increase in the area of damage, increased lameness and swelling on the limbs of animals.

In the first and second experimental groups, all 6 cows showed signs of improvement in the condition of the hooves, as well as the animals themselves during the first week of treatment, which amounted to 100%.

In the third experimental group, the condition improved only in one of the cows, while the consolidation of the process on the hooves differed significantly against the background of the 1st and 2nd groups after a week, namely, the process healing was less pronounced. In 2 other cows of the third group, practically no changes were detected after a week.

Thus, the test results showed the effectiveness of both the preventive treatment of cow hooves and the therapeutic activity of this agent in the treatment of already existing injuries.

Claims

Formula

. Water bactericidal composition for the prevention and/or treatment of infectious diseases of the hooves in animals based on copper salt, characterized in that the composition contains the following ratio of components, wt.%: copper sulfate 1.8-18 zinc glycinate 0.05-0.5 sulfuric acid 0.1-1.0 citric acid 0.15-1.5 lactic acid 0.11-1.1 hydroxyacetic acid 0.11-1.1 brilliant green 0.03-0.3 polyvinyl alcohol 0.03- 0.3

Surfactant 0, 1-1, 0 water the rest.

2. An aqueous germicidal composition according to claim 1, wherein the composition has a pH of 1 to 5.

3. An aqueous germicidal composition according to claim 1, wherein the surfactant is sodium lauryl sulfate.

4. An aqueous germicidal composition according to claim 1, which further comprises a thickener.

5. An aqueous bactericidal composition according to claim 1, where infectious diseases of the hooves of large and small cattle are selected from the group: necrobacteriosis or interdigital phlegmon, or interdigital dermatitis.

6. A method for the prevention and treatment of infectious diseases of the hooves of cattle and small ruminants, which consists in applying an aqueous bactericidal composition according to claim 1.

7. The method of claim 5, wherein said composition is applied in a form selected from a spray, foam, foot bath, or foot wrap.

8. The method according to claim 5, where the infectious disease of the hooves of large and small cattle is selected from the group: necrobacteriosis or interdigital phlegmon, or interdigital dermatitis.