RU2288003C1 - Vaccine against enterococcus infection in nutrias - Google Patents

Abstract

FIELD: veterinary medicine.

SUBSTANCE: the suggested vaccine as an antigen contains the suspension of cells of pure culture of Streptococcus fecalis agent obtained due to selecting affected organs in dead nutrias from local epizootic focus to prepare the suspension followed by inoculation onto differentially-diagnostic media; then one should isolate pure culture of Streptococcus fecalis agent to be grown in beef-infusion-peptone broth at addition of glucose at the titer being about 5-6 bln. microbial cells/cu. cm followed by inactivation due to introducing formalin and aluminum hydroxide at the following ratio of components, weight%: suspension of cells of pure culture of Streptococcus fecalis agent 78.0-86.0; glucose 1.0-2.0; formalin 1.0-2.0; aluminum hydroxide - the rest. The vaccine is safe and highly efficient.

EFFECT: higher efficiency.

5 ex, 1 tbl

Description

The invention relates to veterinary medicine, in particular to vaccines, and can be used in institutions involved in the design of biological products, as well as in enterprises of the biological industry.

A known vaccine against salmonellosis of chickens and a method for the prevention of salmonellosis of chickens containing a suspension of cells of the vaccine strain Salmonella enteritidis VGNKI 204 with a concentration of live microbial cells of 175-250 billion in 1 cm ³ in the following ratio, vol.%:

strain cell suspension Salmonella enteritidis VGNKI 204 with a concentration of live microbial cells 175-250 billion in 1 cm ³ 42.0-55.0 sucrose 5.0-7.5 gelatin 1.5-2.0 distilled water rest

To prevent chicken salmonellosis, this vaccine is administered to chickens of 2-3 days of age with water by drinking 0.5-1.0 billion microbial cells per chicken, twice with an interval of 48 hours after an 18-24 hour fast exposure (patent RF №2030916 dated 04/07/92), for nutrias it is not applied.

Known vaccine against streptococcosis of nutria (RF patent for the invention No. 2099082 from 09/30/94). This vaccine contains as antigen a suspension of strain Streptococcus zooepidemicus VGNKI No. K-DEPT with a titer of 4.0-6.0 billion microbial cells in 1 cm ³ in culture medium, glucose, formalin and aluminum hydroxide.

This vaccine is used to prevent streptococcosis of nutria. The raw material is obtained by culturing a strain of the causative agent of streptococcosis nutria in a nutrient medium with low activity. This vaccine can cause various vaccine complications in vaccinated animals (inflammatory processes, abscesses at the injection site, lameness, etc.)

The technical solution to the problem of the invention is to eliminate the above disadvantages, in particular increasing the specificity, immunogenicity and effectiveness of the vaccine against enterococcal infection in nutria, by introducing a new pathogen, components, eliminating the negative and side effects.

The solution to this problem is achieved by the fact that the vaccine against enterococcal nutria infection, including the inactivated antigen, adjuvant, as an antigen, contains a suspension of cells of a pure culture of the pathogen Streptococcus fecalis obtained by selecting the affected organs from fallen nutrias from the local epizootic focus, preparing the suspension, plating on differential diagnostic media, isolation of the pure culture of the pathogen and cultivation, which is carried out in meat and peptone broth with glucose in the titer of 5-6 billion microbial cells in 1 cm ³ , making t formalin and aluminum hydroxide in the following ratio, wt.%:

pure culture cell suspension pathogen Streptococcus fecalis, isolated from affected organs from fallen nutria from the local epizootic focus in meat and peptone broth with a titer of 5-6 billion. microbial cells in 1 cm ³ 78.0-86.0 glucose 1.0-2.0 formalin 1.0-2.0 aluminum hydroxide rest

The novelty of the claimed technical solution is due to the fact that, in contrast to the known vaccines, raw materials are selected from the fallen nutria from the local epizootic focus, suspension is prepared, plated on differential diagnostic media, and a pure culture of the Streptococcus fecalis pathogen is grown and grown in meat and peptone broth , this improves the specificity and immunogenicity of the vaccine.

When cultivating a pure culture of the pathogen Streptococcus fecalis in meat and peptone broth with the addition of glucose to 0.2% concentration, it is possible to obtain a concentration of microbial cells of at least 5-6 billion in 1 cm ³ for 12-14 hours of incubation. Inactivation of a pure culture with formalin in a 0.4-0.5% final concentration at a temperature of 37 ° C for 72-96 hours allows to suppress the pathogenicity of the pathogen and preserve immunogenic properties for 12 months. The introduction of aluminum hydroxide in an amount of 20% by volume and thorough mixing does not cause post-vaccination complications after vaccination in the vaccinated nutria, it allows ensuring the formation of intense immunity 12-15 days after a single injection of at least 9 months (observation period).

The use of a pure culture of the pathogen Streptococcus fecalis, isolated from fallen nutria from the local epizootic focus during enterococcal infection, can significantly increase the specificity and immunogenicity of the vaccine, after a single vaccination provides reliable protection of animals from enterococcal infection (table 1).

According to the patent and scientific and technical literature, not found a similar set of features, components, which allows to judge the inventive step of the claimed technical solution.

Regarding the criterion of "industrial applicability", the components that make up the vaccine are known and widely used in veterinary practice in the manufacture of inactivated vaccines: instructions for the manufacture and control of polyvalent aluminum hydroxide formol vaccine against colibacteriosis (escherichiosis) of piglets, calves and lambs, approved by the GUV of the Ministry of Agriculture USSR 04/26/1984; instructions for the manufacture and control of a vaccine against bradzot, infectious enterotoxemia, malignant edema of sheep and lambs dysentery, multivalent concentrated aluminum hydroxide, approved by the General Directorate of Veterinary Medicine with the State Veterinary Inspection on 10.10.1991.

Methods of isolation and characterization of streptococci are presented in the Methodological Instructions for the Laboratory Diagnosis of Animal Streptococcosis, approved on September 25, 1990, by the Main Veterinary Administration with the State Inspectorate under the State Commission of the USSR Council of Ministers for Food and Procurement, and also in the reference book “Identifier of zoopathogenic microorganisms” Edited by Professor Sidorov M.A., M.: Kolos, 1995, pp. 90-95.

The proposed vaccine against enterococcal nutria infection is simple to implement, affordable and is industrially applicable.

The vaccine against enterococcal nutria infection contains a formalin-inactivated pure culture of the pathogen Streptococcus fecalis adsorbed on alumina hydrate. In appearance, the vaccine is a light yellow liquid with a loose precipitate, which, when shaken, easily breaks up into a homogeneous suspension. Shelf life in a dry, dark place at a temperature of 2 to 10 ° C for 1 year. The vaccine against enterococcal nutria infection is intended for the prevention of this dangerous infectious disease of nutria. It causes the formation of specific immunity against enterococcal nutria infection. The vaccine is harmless and areactogenic. Immunity in nutria vaccinated with the vaccine against enterococcal infection is formed 12-15 days after vaccination and lasts at least 9 months. The vaccine is used in farms that are safe, dysfunctional and endococcal threatened by enterococcal infection. In farms that are safe and threatened by enterococcal infection, the vaccine is administered once intramuscularly to the thigh area of young animals from 2 months of age at 1.0 cm ³ , and for adult animals at 1.5 cm ³ . In dysfunctional farms, the vaccine is administered intramuscularly in the thigh area from 2 months of age twice with an interval of 7-10 days: the first vaccination at a dose of 1.0 cm ³ , the second at a dose of 1.5 cm ³ . Slaughter products of vaccinated nutria are used without restrictions, regardless of the timing of vaccination.

The factors that determine the receipt of a vaccine of a given property include the sequence of manufacture and the percentage ratio between the components included in the preparation. Five examples are given containing components in various proportions per 100 ml of vaccine.

Example 1

The affected organs are taken from the fallen nutria from the local epizootic focus, a suspension is prepared from pathological material, inoculated on differential diagnostic media, a pure culture of the causative agent of enterococcal infection Streptococcus fecalis is isolated, the meat and peptone broth is infected, cultivated, inactivated and the microbial suspension is mixed (wt.%) cells of a pure culture of the pathogen Streptococcus fecalis 76.0 with a titer of 5-6 billion and a glucose content of 0.9, inactivate by adding formalin 0.9, then add aluminum hydroxide - the rest, thoroughly mixed and receive a vaccine of the following composition in the following ratio of components, wt.%:

cell suspension clean pathogen culture Streptococcus fecalis isolated from affected organs from fallen nutria from the local epizootic focus in meat-peptone broth with a caption 5-6 billion microbial cells in 1 cm ³ 76.0 glucose 0.9 formalin 0.9 aluminum hydroxide rest

With this ratio of components, the vaccine against enterococcal infection nutria has immunogenic activity.

Example 2

The affected organs are taken from the fallen nutria from the local epizootic focus, a suspension is prepared from pathological material, inoculated on differential diagnostic media, a pure culture of the causative agent of enterococcal infection Streptococcus fecalis is isolated, the meat and peptone broth is infected, cultivated, inactivated and the microbial suspension is mixed (wt.%) 78.0 cells with a titer of 5-6 billion and a glucose content of 1.0, inactivate by adding formalin 1.0, then add aluminum hydroxide - the rest, mix thoroughly and get a vaccine the composition in the following ratio of components, wt.%:

cell suspension clean pathogen culture Streptococcus fecalis isolated from affected organs from fallen nutria from the local epizootic focus in meat-peptone broth with a caption 5-6 billion microbial cells in 1 cm ³ 78.0 glucose 1,0 formalin 1,0 aluminum hydroxide rest

At this ratio of components, the vaccine against enterococcal nutria infection has little immunogenic efficacy.

Example 3

The affected organs are taken from the fallen nutria from the local epizootic focus, a suspension is prepared from pathological material, inoculated on differential diagnostic media, a pure culture of the causative agent of enterococcal infection Streptococcus fecalis is isolated, the meat and peptone broth is infected, cultivated, inactivated and the microbial suspension is mixed (wt.%) 82.0 cells with a titer of 5-6 billion and a glucose content of 1.0, inactivate by adding formalin 2.0, then add aluminum hydroxide - the rest, mix thoroughly and get a vaccine the composition in the following ratio of components, wt.%:

cell suspension clean pathogen culture Streptococcus fecalis isolated from affected organs from fallen nutria from the local epizootic focus in meat-peptone broth with a caption 5-6 billion microbial cells in 1 cm ³ 82.0 glucose 1,0 formalin 2.0 aluminum hydroxide rest.

With this ratio of components, the vaccine against enterococcal infection nutria has a weak immunogenic activity.

Example 4

The affected organs are taken from the fallen nutria from the local epizootic focus, a suspension is prepared from pathological material, inoculated on differential diagnostic media, a pure culture of the causative agent of enterococcal infection Streptococcus fecalis is isolated, the meat and peptone broth is infected, cultivated, inactivated and the microbial suspension is mixed (wt.%) cells of a pure culture of the causative agent of enterococcal infection Streptococcus fecalis 86.0 with a titer of 5-6 billion and a glucose content of 2.0, inactivated by the introduction of formalin 2.0, then hydroxide is added aluminum - the rest is thoroughly mixed and a vaccine of the following composition is obtained in the following ratio of components, wt.%:

cell suspension clean Streptococcus fecalis isolated from affected organs from fallen nutria from the local epizootic focus in meat and peptone broth with a titer of 5-6 billion. microbial cells in 1 cm ³ 86.0 glucose 2.0 formalin 2.0 aluminum hydroxide rest

At this ratio of components, the vaccine against enterococcal infection nutria has immunogenic activity, forms a pronounced intense immunity after vaccination, does not cause post-vaccination complications, is stable during storage for 12 months (table).

Example 5

The affected organs are taken from fallen nutria from the local epizootic focus, a suspension is prepared from pathological material, inoculated on differential diagnostic media, a pure culture of the causative agent of enterococcal infection Streptococcus fecalis is isolated, the meat and peptone broth is infected, cultured, obtained, inactivated and mixed (wt.%) a suspension of microbial cells 88.0 with a titer of 5-6 billion and a glucose content of 2.0, inactivated by the introduction of formalin 2.0, then add aluminum hydroxide - the rest, mix thoroughly and get tsinu following composition in the following ratio, wt.%:

pure culture cell suspension pathogen Streptococcus fecalis, isolated from affected organs from fallen nutria from the local epizootic focus in meat and peptone broth with titer of 5-6 billion microbial cells in 1 cm ³ 88.0 glucose 2,5 formalin 2,5 aluminum hydroxide rest

At this ratio of components, the vaccine against enterococcal infection nutria has a weak immunogenic activity, forms a tense immunity, in some animals the injection of the drug causes slight irritation at the site.

Thus, these tables show the advantages of the proposed vaccine against enterococcal nutria infection compared to the prototype.

Claims (1)

A vaccine against enterococcal nutria infection containing a suspension of cells of a pure culture of the pathogen Streptococcus fecalis obtained by selecting the affected organs from fallen nutrias from a local epizootic focus, preparing a suspension, plating on differential diagnostic media, isolating a pure culture of the pathogen and growing in glucose meat and peptone broth in titer of 5-6 billion microbial cells in 1 cm ³ formalin and aluminum hydroxide in the following ratio of components, wt.%: Cell suspension clean pathogen culture Streptococcus fecalis isolated from affected organs from fallen nutria from the local epizootic focus to meat-peptone broth with a caption 5-6 billion microbial cells in 1 cm ³ 78.0-86.0 Glucose 1.0-2.0 Formalin 1.0-2.0 Aluminum hydroxide Rest