RU2230505C2 - Method for preventing tuberculosis in cattle - Google Patents

Abstract

FIELD: agriculture, veterinary science.

SUBSTANCE: the method deals with subcutaneous injection of tuberculous anatoxin and, additionally, one should subcutaneously inject BCG vaccine at interval of 10-14 d by the following scheme: tuberculous anatoxin 0.05-0.07 mg/kg, and BCG vaccine 0.05-0.1 mg/kg body weight. As a result, immunity is increased and tuberculosis sickness rate is decreased in cattle.

EFFECT: higher efficiency of prophylaxis.

2 ex, 1 tbl

Description

The present invention relates to veterinary medicine and can be used for the prevention of tuberculosis of farm animals.

A known method for the prevention of tuberculosis in cattle by subcutaneous administration of BCG vaccine. The method includes: administering to calves between 2 weeks and 2 months of age a vaccine intradermally in the neck in an amount of 0.3 cm ³ (10 mg of dry matter is diluted with 3.0 cm ^{3 of} physiological saline). 1.5-2 months after vaccination, the calves are examined for intradermal tuberculin breakdown. Calves that do not respond to tuberculin after the first injection of the vaccine are re-administered.

However, protection against the disease of cattle tuberculosis with the help of the BCG vaccine exists for a short time and is characterized by insufficiently long immunity, a breakthrough of immunity is often observed (Khamzin R.A. Enzyme-linked immunosorbent assay and improvement of specific prophylaxis of cattle tuberculosis. Author. Diss. Cand. Vet . Sciences, Kazan, 1988, 22 pp.).

There is also known a method for the prevention of tuberculosis in cattle by subcutaneous injection of tuberculous toxoid (A. A. Evlevsky. Experimental justification and practical aspects of the diagnosis and prevention of infectious and allergic diseases of animals. Author. Diss. Doctor of Vet. Sciences, L., 1990, 48 s .).

The method includes subcutaneous administration of tuberculous toxoid at a dose of 5.0 cm ³ twice with an interval of 14 days. The disadvantage of this method is that tuberculous toxoid slightly increases the life of laboratory animals. And tuberculous changes in parenchymal organs remain in 5-10% of experimental animals.

The technical effect of the proposal is to increase the efficiency of the method by increasing immunity and reducing the incidence of tuberculosis in farm animals.

The delivered technical effect is achieved in a method for the prevention of cattle tuberculosis by subcutaneous administration of tuberculosis toxoid by the fact that BCG vaccine is additionally administered subcutaneously with an interval of 10-14 days at the rate of: tuberculous toxoid - 0.05-0.07 mg / kg, and BCG vaccine - 0.05-0.1 mg / kg of animal body weight.

The introduction of BCG vaccine into the body against the background of the animal’s immune response to tuberculous toxoid causes an increase in the generation of active oxygen radicals in the macrophage system and the production of antitoxic antibodies by the immune system. The protein concentration in component No. 1 is 2.8 mg / cm ³ . A high concentration of particle particles and low molecular weight proteins induce an active immune response of immunocompetent cells to the antigen.

With intensive stimulation of immunocompetent cells through the cooperative action of both components (tuberculous toxoid and BCG vaccine), the animals are protected against tuberculosis infection.

The proposal is illustrated by the following examples.

Example 1. In the experiment took 40 heads of cattle 1.0-1.5 years of age, which were distributed to 10 goals in the experimental and control groups.

Animals of the first experimental group were immunized with a tuberculous toxoid at a dose of 0.05 mg / kg of body weight of the animal, after 14 days they were re-immunized with BCG vaccine at the rate of 0.05 mg / kg of body weight of the animal subcutaneously in the lower third of the neck.

Animals of the second experimental group were vaccinated as well as the first, only twice with tuberculosis toxoid at the same interval and in the same dose. The third experimental group of guinea pigs was vaccinated twice with BCG vaccine at the same interval as in the first group, and in the same dose.

Animals of the 4th group served as a control (vaccination was not carried out).

2 months after immunization, the animals were infected with the bovine tuberculosis causative agent of the Vallae strain at a dose of 0.00001 mg / cm ³ subcutaneously in the region of the inner thigh. Animals 2 months after immunization were placed in a herd with animals sick with tuberculosis. 3 months after infection, animals from the control and experimental groups were killed in order to conduct pathological, anatomical and bacteriological studies.

The protective properties of vaccines were determined by the degree of damage to the internal organs and the excretion of the causative agent of tuberculosis (see table data). The results of pathological and anatomical studies were confirmed bacteriological (a culture of tuberculosis pathogens was isolated).

Example 2. In the experiment took 80 goals of calves 3-6 months of age, which were distributed to 20 goals in the experimental and control groups.

The animals of the first experimental group were immunized with a tuberculosis toxoid at a dose of 0.07 mg / kg of the animal’s body weight, after 10 days they were re-immunized with BCG vaccine at the rate of 0.1 mg / kg of the animal’s body weight subcutaneously in the lower third of the neck.

Animals of the second experimental group were vaccinated as well as the first, only twice with tuberculosis toxoid at the same interval and in the same dose. The third experimental group of calves was vaccinated twice with BCG vaccine at the same interval as in the first group, and in the same dose.

Animals of the 4th group served as a control (vaccination was not carried out).

2 months after immunization, calves were flocked with animals sick with tuberculosis. 6 months after contact with sick animals, the calves of the control and experimental groups were killed in order to conduct pathological, anatomical and bacteriological studies.

The protective properties of vaccines were determined by the degree of damage to the internal organs and the excretion of the causative agent of tuberculosis (see table data). The results of pathological and anatomical studies were confirmed bacteriological (a culture of tuberculosis pathogens was isolated).

Thus, the proposed drug protects 90-100% of cattle from infection with the causative agent of tuberculosis compared with the prototype, where these indicators were 70%.

Claims (1)

A method for the prevention of tuberculosis of farm animals by subcutaneous injection of tuberculous toxoid, characterized in that they additionally subcutaneously administer BCG vaccine with an interval of 10-14 days from the calculation: tuberculous toxoid 0.05-0.07 mg / kg, BCG vaccine 0.05-0, 1 mg / kg body weight of the animal.