RU2650625C1 - Method for determination of equilibrium humidity of liquid dry vaccine containing residual humidity - Google Patents

Abstract

FIELD: biotechnology.

SUBSTANCE: invention relates to biotechnology and can be used to optimize processes, related to production of live dry vaccines containing residual moisture. Determination of equilibrium moisture is carried out for 10-12 hours at given relative air humidity by estimating amount of moisture adsorbed in vaccine, containing residual moisture, which is uniformly by means of screen with mesh size of 250 μm and porcelain balls with diameter of 3 to 7 mm, with layer height of 20 mm is distributed by monolayer at bottom of Petri dish after establishing an equilibrium, determined by stopping increasement in weight of vaccine in dish.

EFFECT: technical result is increase in accuracy and reliability of results obtained.

1 cl, 4 tbl

Description

The invention relates to methods for assessing equilibrium humidity in live dry vaccines and can be used in biotechnology to optimize processes associated with the production of live dry vaccines containing residual moisture.

The known method [Development of a method for comparing the moisture exchange properties of threads and paintings / V.V. Sodovsky, V.I. Ivantsov / http://www.kstu.edu.ru/flax/Jen 2004/42. AS], based on a comparison of moisture return by materials differing in fibrous composition and structure (web threads). The method consists in moistening samples of the same mass to a certain moisture content, placing them in a suspended state in an environment with a relative humidity close to 0%, and keeping them until a dynamic adsorption equilibrium is established (reaching equilibrium humidity), such a state in which the number of molecules water retained on the surface of the material is equal to the number of molecules emanating from it.

The disadvantages of this method include: the difficulty of creating a relative air humidity close to 0%, and its maintenance at this level when placing moistened samples; the need for preliminary construction of isotherms of desorption of moisture from samples to determine the time to reach equilibrium humidity in the samples.

The known method [Course of physical chemistry / Ya.I. Gerasimov, V.P. Dreving, E.N. Eremin et al. - M .: Chemistry, 1964. - P. 457] determining the adsorption value by weight of the adsorbent using a McBen-Bakr balance. The method consists in using an installation where a cup with an adsorbent is suspended on a quartz spiral in a sleeve connected to a steam source. The lengthening of the spring directly shows the mass of adsorbed vapor, and the moment of establishment of the adsorption equilibrium is fixed by pressure gauges.

The disadvantages of this method include: temperature, affecting the process of adsorption of moisture, in this case is not controlled and not regulated; the complexity of calibration with a small mass of adsorbent and inaccuracy of measurement associated with visual inspection.

Closest to the technological nature of the claimed invention is a method [Method for determining the equilibrium dust moisture (sorption isotherms) / P.A. Kouzov, L.Ya. Scriabin // Methods for determining the physicochemical properties of industrial dusts. - L .: Chemistry, 1983. - S. 84-87], which consists in determining the amount of moisture absorbed by dry dust when it is kept to a constant mass in an atmosphere with a known relative humidity.

The method includes: the distribution of the investigated dust in glass boxes with a layer of 2 to 3 mm; drying of dust to constant weight at a temperature of (105 ± 2) ° С; placing boxes in a desiccator above a solution of sulfuric acid in an atmosphere with a given relative humidity; moisture adsorption at atmospheric pressure or in a rarefied medium with a pressure of 40 to 53 Pa; determination by gravimetric (weight) method, at certain intervals, of the increase in dust mass; determination of the moment of establishment of dynamic adsorption equilibrium by stopping the increase in dust mass.

In common with the claimed method are: carrying out adsorption of moisture in the atmosphere with a given relative humidity; determination of equilibrium moisture by the gravimetric method at certain intervals until the cessation of the mass increase of the sample.

The disadvantages of this method are: preliminary drying of the investigated dust at a temperature of (105 ± 2) ° C, which leads to a change in its structure and adsorption properties; the process of moisture adsorption by dust in the form of a layer includes not only adsorption, but also absorption and capillary diffusion, which at atmospheric pressure takes from 7 to 10 days, and in a rarefied medium from 2 to 3 days; the creation of vacuum in the desiccator can lead to the entrainment of dust from the boxes, as well as to a change in the initial value of the relative humidity in the inner volume of the desiccator; the use of sulfuric acid is not safe for humans [Labor protection in the food industry / G.D. Sereda, V.I. Dashevsky. - M .: 1983, S. 50].

The objective of the invention is to develop a method that allows you to determine the equilibrium humidity of a live dry vaccine containing residual moisture distributed by a monolayer at a given relative humidity for 10-12 hours.

The problem is achieved by the fact that in the method for determining the equilibrium humidity of a live dry vaccine (hereinafter the vaccine), the use of:

- Petri dishes with a diameter of 40 mm;

- a laboratory sieve made of stainless steel with a diameter of 30 mm, a height of 50 mm and a mesh size of 250 microns, equipped with a lid;

- porcelain balls with a diameter of 3 to 7 mm, placed in a sieve, providing a slow uniform sifting of particles of dry microbial culture to the bottom of the Petri dish;

- potassium phosphate disubstituted three-water solutions of various concentrations to create a relative humidity of 20 to 80%.

In addition, the proposed method is characterized in that the equilibrium moisture content of the vaccine is achieved in 10-12 hours due to the distribution of particles along the bottom of the Petri dish with a monolayer.

The essence of the proposed method is as follows.

The vaccine (weighing 1.0 to 1.5 g) is placed on porcelain balls poured into a sieve with a layer of 20 mm, and by shaking it is applied as a monolayer to the bottom of pre-marked and weighed Petri dishes. The cups are closed with lids, weighed and the mass of the vaccine in the cup is determined by the gravimetric method with an accuracy of 0.0001 g. Then the cups without lids are placed in a desiccator with a given relative humidity. After every two hours of exposure, the weight gain of the microbial culture is determined, for which the plates are removed from the desiccator, closed with lids and weighed.

The moisture adsorption process, under these conditions, ends with the establishment of a dynamic adsorption equilibrium, as indicated by the absence of an increase in the mass of the vaccine. Equilibrium humidity is determined by the formula [Method for determining the equilibrium dust moisture (sorption isotherms) / P.A. Kouzov, L.Ya. Scriabin // Methods for determining the physicochemical properties of industrial dusts. - L .: Chemistry, 1983. - S. 84-87]

where ϕ is the equilibrium humidity,%;

m is the mass of the sample, g;

m ₁ - the mass of adsorbed moisture, g

The presence of a causal relationship between the set of essential features of the claimed object and the achieved technical result is shown in table 1.

The possibility of carrying out the claimed invention is shown on a plague live dry vaccine with the following examples.

Example 1. The values of the equilibrium humidity of the plague live dry vaccine were determined when exposing it in an atmosphere with a relative humidity of 20, 40, 60 and 80%. The determination was carried out at atmospheric pressure and air temperature of 24 ° C. The residual moisture content of the vaccine before determination was 2%.

For each relative humidity, at least 5 clean and sterile Petri dishes were used, which, together with the lids, were numbered and weighed to the nearest 0.0001 g. Porcelain balls were poured into a sieve with a layer of 20 mm. 1-1.5 g of vaccine was placed on porcelain balls. The sieve was closed with a lid, shaken, and vaccine particles were applied to the bottom of the Petri dishes with a monolayer. The cups were closed with lids and the mass of the vaccine in the cup was determined by the gravimetric method with an accuracy of 0.0001 g. After that, cups without lids of 5 pieces were placed in desiccators with a relative air humidity of 20, 40, 60 and 80% and the time of the start of moisture adsorption by the vaccine particles was recorded . Determination of the mass gain of the vaccine was carried out every two hours of exposure. To do this, the cups were removed from the desiccator, quickly closed with lids and weighed. Then the open cups were again placed in desiccators. Measurements were repeated until the mass of the vaccine plate stopped increasing.

The obtained average values of the determination results are shown in table 2.

The data presented in table 2 indicate that the equilibrium humidity was reached after 10 hours of exposure, and its value depends on the relative humidity.

Example 2. The values of the equilibrium humidity of the plague live dry vaccine were determined when exposed to it in an atmosphere with a relative humidity of 20, 40, 60 and 80%. The determination was carried out at atmospheric pressure and air temperature of 24 ° C. The residual moisture content of the vaccine before determination was 4.7%.

The determination of equilibrium humidity is carried out in accordance with the procedure given in example 1. The results obtained are presented in table 3.

Example 3. The values of the equilibrium humidity of the plague live dry vaccine were determined when exposing it in an atmosphere with a relative humidity of 20, 40, 60 and 80%. The determination was carried out at atmospheric pressure and air temperature of 24 ° C. The residual moisture content of the vaccine before determination was 8%.

The determination of equilibrium humidity is carried out in accordance with the procedure given in example 1. The results obtained are presented in table 4.

The data presented in tables 2-4 indicate that there is a relationship between the equilibrium moisture value and the initial residual moisture of the plague live dry vaccine. The higher the residual moisture of the vaccine, the lower the value of its equilibrium moisture. The residual moisture content of the vaccine (in the range under consideration) did not affect the time to reach equilibrium moisture content in the vaccine.

In General, from the data obtained, we can conclude that the inventive method can be applied in practice.

Claims (1)

The method for determining the equilibrium moisture content of a live dry vaccine containing residual moisture, which consists in adsorbing moisture in the atmosphere with a given relative air humidity, using the gravimetric method to determine the weight of the sample to its constant value at specific intervals, characterized in that the vaccine with the initial residual moisture is previously not dried to constant weight, not changing its structural and fractionally dispersed properties, using a sieve with a mesh size of 250 μm, containing its porcelain balls with a diameter of 3 to 7 mm and a height of 20 mm layer deposited monolayer on the bottom petri dish that achieves equilibrium moisture content in the vaccine for 10-12 hours.