RU2067114C1 - Method of dry probiotic preparation preparing - Google Patents

Abstract

FIELD: biotechnology. SUBSTANCE: bifidobacterium or streptococcus culture grown under conditions of submerged cultivation is mixed with protective medium. Contact-sorption dehydration of the end product is carried out with sorbent cooled to -8-10 C, for example, with aluminium oxide at residual humidity less 1% at mass ratio (1:10)-(1:12), respectively. Then additional drying is carried out for 18-20 hr at 0-5 C in closed volume. Probiotic is used for prophylaxis and treatment of disbacteriosis in human and agriculture animals. EFFECT: improved method of preparing.

Description

 The invention relates to the field of medicine and veterinary medicine, namely to the preparation of drugs for the prevention and treatment of human and farm animal dysbacterioses caused by an imbalance in the intestinal flora of various etiologies.

Known methods for producing dry powders of probiotics (bifidum and lactobacilli, streptococci, etc.) intended for inclusion in the composition of mixtures, for example in the preparation of baby and diet food, concentrates of animal feed, manufacturing tablet formulations [1]
Traditionally, powders containing microbial materials are prepared in two ways by grinding a monolith of dry biomass or by drying microdroplets of a bacterial suspension in a stream of air or under vacuum. In all cases, complex, large-sized and low-productivity equipment is used, which requires special equipment to clean the air of dusty components of the drug. In the certificate of authorship [2] it is proposed to obtain powders of a bifid-containing preparation by spray drying in a stream of heated air, however, this method has a significant drawback with a relatively high level of loss of the dried material (from 3 to 30%), moreover, this method of drying causes environmental pollution. The creation of additional protective circuits increases energy consumption and the cost of production.

 The purpose of the invention is to increase the efficiency of the method and reduce the level of environmental pollution.

This goal is achieved in that the culture of strains of bifidobacteria and streptococcus grown in deep cultivation is mixed with a protective medium of the following composition (wt.):
sucrose 25 30
gelatin 2 3
milk powder 3 5
monosodium glutamate 0.5 1
contact-sorption dehydration of the target product is carried out with a sorbent cooled to minus 8-10 ^o C, for example aluminum oxide, with a residual moisture content of less than 1% at a mass ratio of 1: 10-12, respectively, and drying is carried out for 18-20 hours at a temperature of 0 -5 ^o C in a closed volume.

Example 1. To obtain a powder of a dry preparation, a veterinary strain of B. globosum BF-4, isolated from the intestines of piglets, was used. The native culture of bifidobacteria cells was obtained under conditions of deep cultivation in fermentation apparatus with a volume of 100 liters in a liquid nutrient medium. The resulting bacterial suspension (cell concentration of at least 10 billion / ml) is mixed with a drying medium: sucrose 30% gelatin - 3% milk powder 5% monosodium glutamate 1%
Then add aluminum oxide with a residual moisture content of at least 1.0% chilled to a temperature of minus 10 ^o C, in a ratio of 1:12. This ratio is determined from the calculation of the moisture content of the sorbent, its moisture-taking ability and the moisture content in the bacterial suspension.

The process of mixing the bacterial suspension and sorbent is carried out in the UKS installation for 3 minutes, after which the loose mixture is Packed in a sealed container and placed in a household refrigerator for 20 hours at 5 ^o C for drying.

The biological activity of the finished product, consisting of dried bacterial cells, components of the protective environment and a filler (in this case, aluminum oxide, which acts as a sorbent), amounted to 600 million living microbial cells per gram of the drug, its moisture content is 13%
Example 2. Veterinary strain of bifidobacteria Bifidumbacterium globosum pcs. BF-4 is grown in a deep way using a nutrient medium based on enzymatic casein hydrolyzate. A bacterial suspension with a cell concentration of 60 billion / ml is mixed with a protective medium of the following composition (wt.):
sucrose 25
gelatin 2
milk powder 3
monosodium glutamate 0.5
Then to the mixture was added a chilled to minus 8 ^o C aluminum oxide with a residual moisture less than 1.0% in the ratio of 1:10, respectively.

The process of mixing the bacterial suspension and sorbent is carried out in the UKS installation for 5 minutes, after which the bulk mixture is Packed in a sealed container and placed in a household refrigerator for 18 hours for drying at a temperature of 0 ^o C.

The biological activity of the finished product amounted to 3 billion live microbial cells per gram of the final product, its moisture content 11%
Example 3. To obtain a dry preparation used cultures of veterinary strains of bifidobacteria and streptococcus (Bifidumbacterium globosum Streptococcus facsium), grown separately in deep cultivation.

 A bacterial suspension containing 50 billion cells of each type is mixed with a protective medium, a sorbent and dried as described in example 1.

The biological activity of the finished product was 2.5 billion living cells of each species per 1 gram. The moisture content of the drug is 12%
Example 4. To obtain a dry preparation, a culture of the medical strain Bifidumbacterium bifidum was used, grown under deep cultivation conditions, as described in Example 1. The preparation was prepared as described in Example 1. The cell concentration in the bacterial suspension was 10 billion / ml.

 The biological activity of the finished product amounted to 0.5 billion / g, which corresponds to 50 therapeutic and prophylactic doses (1x10) for a person in one gram of the drug.

The probiotic preparations obtained in examples 1-4 were stored for 6 months at a temperature of 2 ± 2 ^o C and practically did not lose their activity. When stored under more severe conditions (temperature 25-28 ^o C in an atmosphere of air), the preservation of cells over the same period was 75-80%
Thus, the proposed method allows to obtain powders of probiotic preparations based on veterinary and medical strains of cultures of enterobacteria, with a sufficiently high biological activity and good preservation.

 The proposed method allows the process of dehydration and obtaining the finished form of the drug at the same time in a closed container, which guarantees the absence of the release of dry material into the external environment. The method does not require the use of low and high temperatures, deep vacuum and, accordingly, high energy costs. The productivity of the experimental equipment is up to 100 kg of product per hour in a continuous mode of operation, which is significantly higher than the productivity of the TG-50 drying unit used in the production of probiotics.

Claims (1)

A method of obtaining a dry probiotic preparation by mixing the culture with a protective medium followed by contact-sorption dehydration and drying of the target product, characterized in that the contact-sorption dehydration of the target product is carried out by a sorbent cooled to minus 8-10 ^o C, for example, aluminum oxide with residual humidity less than 1% with a mass ratio of 1: 10 1:12, respectively, and drying is carried out for 18-20 hours at a temperature of 0-5 ^o C in a closed volume.