RU2699353C1 - Method for preventing lactation mastitis in cows - Google Patents

Abstract

FIELD: veterinary medicine.SUBSTANCE: invention refers to veterinary science, particularly to preventing lactation mastitis in cows. For this purpose, on the skin of the mammary gland in the area of milk mirror 5 days before calving daily apply a thin layer of a composition containing in wt%: Dimexidum in amount of 1 %, liquid soap containing sodium lauryl ether sulphate – 85–95 %, staphylococcal anatoxin – the rest.EFFECT: invention provides more effective prevention of lactation mastitis in lactating cows and reduced incidence of dyspepsia in newborn calves in industrial dairy production.1 cl, 2 tbl

Description

It is known that for the prevention of mastitis it is necessary to strictly observe the technology of machine milking of cows, and it is also recommended to carry out planned and ongoing disinfection of livestock yards, walking yards where pathogenic microflora can be preserved (K. Plemyashov in the book “Cattle: keeping, feeding, Diseases: Diagnosis and Treatment ”Publ. Doe, 2018). However, even with these measures, the incidence of mastitis is quite high - 20-30% of cows of the dairy herd.

Known for the closest in technical essence and the problem being solved is a method for the prevention of mastitis in cows using the Startvak vaccine (manufactured in Spain). The use of the Startvak vaccine is based on the introduction of a killed culture of staphylococcus and Escherichia coli. The disadvantage of this method is the lack of protection of cows from mastitis - the effect of the vaccine is limited to 3 months after calving.

The objective of the invention is to increase the effectiveness of prevention of lactation mastitis in lactating cows and reduce the number of cases of dyspepsia in newborn calves in the conditions of industrial dairy production, through the use of drugs with directed antistaphylococcal action.

The technical result of the task is achieved by the fact that in the method of prevention, the anti-mastitis drug was applied to the cows on the skin of the udder in the milk mirror 5 days before the expected calving date, 1 time per day, for 5 days.

Blood and colostrum samples were taken from the cows of the studied groups 5 days before the expected calving date, on the day of calving, and 3 days after calving. Colostrum was squeezed into sterile disposable plastic tubes. Blood was taken from the tail vein (vena coccygea) using vacuum disposable tubes.

Blood samples were applied to clean, previously defatted glass slides, then dried in air and fixed with a Nikiforov mixture for 15 minutes, then smears were stained with Romanovsky-Giemsa and the blood cell composition was counted using an immersion optical microscope optical system. Colostrum samples were applied to clean, pre-fat-free glass slides, then dried in air and fixed with formaldehyde vapor. Gram and Romanovsky-Giemsa smears were stained, then the colostrum cell composition was counted using an immersion optical system of a light microscope.

Blood serum and colostrum were also obtained by centrifugation at 1500 rpm., For 20 minutes on a laboratory centrifuge "ELECON" TsLMN-P10-01 to further determine the level of immunoglobulins IgG, IgA, IgM in blood serum and colostrum from all cows of the three studied groups at the Department of Biochemistry and Physiology of the Federal Budgetary Educational Institution of Higher Professional Education "St. Petersburg State Academy of Veterinary Medicine". Blood samples were also taken from newborn calf calves (n = 8) born by cows from 3 study groups. Sterile disposable laboratory tubes were used for blood sampling. Blood samples were taken from the external jugular vein (vena jugularis anterior).

The composition of the anti-mastitis drug includes: 1. Staphylococcal toxoid obtained by the factory method [instructions for use of TSA (anti-staphylococcal drug), registration No. PVR 1.03.0154 - 96]. ASP provides stimulation of a specific immune response to various exotoxins and somatic antigens of staphylococci and provides rapid death of the pathogen in the body. 2. Sodium laureth sulfate is a surface-active substance (surfactant) in concentration and with additives included in the composition of liquid soap (in particular, My Sun soap manufactured by Avanta Rossiya OJSC can be used). 3. Dimexide (full name - dimethyl sulfoxide) - non-polar solvent has the ability to penetrate through biological membranes, including through skin barriers and mucous membranes without damaging them. It shows a pronounced local analgesic activity in pain syndromes of various etiologies, and has anti-inflammatory and antimicrobial effects. Dimexide acts as a conductor of the toxoid (antigenic determinant) inside the cell. We made a composition based on TSA with the addition of dimexide, which is prepared as follows: components are placed in a sterile glass vessel with a capacity of 0.5 liter in the sequence: anatoxin is added to the surfactant (you can use liquid soap “My Sun”), it is thoroughly mixed with a wooden spatula. Dimexide is poured into the resulting homogenized mixture slowly, with constant stirring, mixed thoroughly.

Composition Composition:

- Laureth sulfate with additives (surfactant) 85% (400 ml)

- Staphylococcal toxoid 14% (56 ml)

- Dimexide 1% (4 ml)

In case of mastitis, which in most cases is caused by S. aureus, a composition with 14% toxoid content should be used, with other types of staphylococci we recommend using a composition with 4% toxoid content. The composition is hermetically sealed and ready for use. It is stored in a cool place. The proposed composition has the properties of activating a specific immune response, conducting the active substance of AMP through intact skin, has analgesic, anti-inflammatory and antimicrobial effects.

The aim of the study was to study the possibility of preventing mastitis with the use of an antimastitis drug (AMP) based on staphylococcal toxoid by applying it in the area of the elevated lymph nodes.

It was formed 3 groups of cows selected on the basis of analogues (live weight, age, origin). The first group included clinically healthy cows. The second group included cows using the Startvak vaccine as a prophylactic drug. In accordance with the instructions for use of the vaccine, immunization with the Startvak vaccine used the classic immunization program. The first injection was carried out 45 days before the expected date of calving at a dose of 2 ml per head in the neck, intramuscularly. The second - 35 days after the first injection (i.e. 10 days before the expected calving date) at a dose of 2 ml in the neck, intramuscularly. The third - 62 days after the second injection at a dose of 2 ml in the neck (which was equivalent to 52 days after calving), intramuscularly. The third group included cows, which were applied to a preparation containing staphylococcal toxoid, dimethyl sulfoxide (dimexide) and surfactant. Within 3 days, colostrum samples were taken by application to a glass slide, followed by fixation of colostrum cells, which was carried out with formaldehyde vapor. Investigated blood and colostrum. Blood tests were carried out on days 1 and 2 of the colostrum. Colostrum studies were performed; on days 1, 2 and 3 of the colostrum. Due to the fact that the humoral immune response is provided by antibodies (AT), or immunoglobulins, we studied three classes of immunoglobulins A, M, G in the blood and colostrum of experimental cows. In addition, we studied the clinical picture of blood and leukocyte formula. According to hematological analysis, the action of a drug containing staphylococcal toxoid leads to an active migration of white blood cells into milk. The following are tables with the results of studies of the content of immunoglobulins of all three classes in blood serum and colostrum of cows (after calving) of all test groups. The research results are presented in tables 1 and 2. It was found that the content of IgG 3.9 ± 0.24 g / l / IgM 0.21 ± 0.05 g / l and IgA 1.14 ± 0.3 g / l in serum the colostrum of the Startvak immunized vaccine group is significantly lower than in the intact group (not ^: immunized with nothing), which was 6.5 ± 1.3 g / l, 0.56 ± 0.19 g / l and 3.0 ± 0 , 94 g / l, respectively.

It is noteworthy that during immunization with the drug AMP for all three classes of immunoglobulins, a significant excess of the antibody content was noted compared with the antibody content in the control and intact groups.

The IgG content in the experimental group was 8.59 ± 0.9 g / L, the IgM content was 1.1 ± 0.13 g / L and the IgA content was 5.42 ± 0.9 g / L. In the blood serum of cows immunized with the Startvak vaccine, the IgG content is 14.31 ± 2.6 g / l, the Ig M content is 1.21 ± 0.36 g / l, the IgA content is 4.8 ± 0.59 g / l (P ...) and exceeds the level in the intact group, where the content of IgG is 9.3 ± 0.18 g / l, the content of Ig M is 0.45 ± 0.1 g / l, the content of IgA is 4.4 ± 0.78 g / l, and also exceeds in the group immunized with the drug AMP, where the IgG content is 9.5 ± 2.1 g / l, the IgM content is 0.68 ± 0.06 g / l, the IgA content is 3.66 ± 0.9 g / l. However, the resulting content of immunoglobulins in colostrum was lower, which indicates a violation of the transport of immunoglobulin through the secretory alveolar epithelium.

As a result of the study, it was found that the treatment of indented lymph nodes of the AMP based on staphylococcal toxoid promotes more active production of immunoglobulins in the mammary gland and in the blood. An increase in the content of immunoglobulins is a powerful factor in humoral defense, and also contributes to the treatment of mastitis in sows and, as a result, the reduction of diarrhea in piglets. Along with this, the content of leukocytes, which carry out protective and antimicrobial function, increases in milk. As a result of the study, it was found that external treatment in the area of the elevated lymph nodes of the AMP based on staphylococcal toxoid promotes the activation of humoral defense factors and prevents the occurrence of mastitis in highly productive cows, thereby providing a preventive protective effect.

To conduct this study of male calves (n = 8), blood was taken from the jugular vein (vena jugularis). Blood sampling was performed at the age of 3 days. Smears of blood samples were stained according to Romanovsky-Giemsa methods, viewing was carried out using immersion optics (lens × 100). White blood cells and lymphocytes with the content of Barra Taurus inclusions in the nuclei were found in the test smears. The presence in the blood of male calves of blood cells with the presence of sex chromatin (Barra bodies) allows us to judge that the mother's white blood cells are able to leave the mammary gland and penetrate into the bloodstream of a cub.

Claims (1)

A method for the prevention of lactational mastitis in cows, which consists in the fact that on the skin of the mammary gland in the milk mirror area 5 days before calving a thin layer is applied daily to a composition containing in wt.%: Dimexide in an amount of 1%, liquid soap containing sodium laureth sulfate - 85-95%, staphylococcal toxoid - the rest.