RU2081667C1 - Material for preparing the agent for sampling for microbiological, serological, biochemical and chemical analysis - Google Patents

Abstract

FIELD: microbiology. SUBSTANCE: invention proposes zeolite for making agents for sampling. Invention can be used in medicine, veterinary science and biology for environment monitoring. EFFECT: improved quality of material.

Description

 The invention relates to microbiology and can find application in the field of medicine, veterinary medicine, biology, when using the state of the environment.

Known means of sampling for microbiological analysis in the form of gauze or cotton swab [1]
This known product is used due to its sorption properties. The sample is adsorbed on a swab, and then it is washed off and subjected to microbiological, biochemical or chemical analysis.

 However, the disadvantage of this known means is the impossibility of its multiple use and the associated large consumption of material (cotton wool, gauze).

Known means of sampling for microbiological, biochemical and chemical analysis, made of glass in the form of a tube, narrowed from one end of the pipette [2]
This known tool can be used repeatedly. However, the glass from which it is made is a brittle material and therefore pipettes quickly fail. In addition, the material itself, from which the pipettes are made, does not have sorption properties and, therefore, this known tool can be used to collect samples of only liquid materials entering the pipette channel.

Natural and artificial varieties of zeolite material with high sorption properties, with the ability to isolate and re-absorb water, exchange cations are known. This well-known material is used in industry for water treatment, sugar syrups, dyeing fabrics, etc. [3]
However, the use of zeolites as a material for sampling intended for microbiological, serological, biochemical or chemical analysis is not described.

 The technical result achieved by the implementation of the present invention is the possibility of sampling not only liquid material, but also from the surface of the dry material, as well as the possibility of layer-by-layer sampling.

 This is achieved by the fact that zeolite is used as a material for the manufacture of sampling means for microbiological, serological, biochemical or chemical analysis.

 Means of sampling can be made in the form of cylinders, cylindrical: or conical rods, plates, etc.

 The following are examples illustrating the invention.

Example 1. A sterile rod made of zeolite was attached with an end surface to the patient’s wet wound for 7 s. Then an imprint was made of the surface of the cylinder in contact with the wound on the surface of an agarized nutrient medium placed in a Petri dish. After incubation of the Petri dish with an imprint for 1 day at 37 ^° C, a colony of microorganisms identified as Staphylococcus aureus was found in it.

After receiving the first print on the same wound, in the same place was put another sterile rod made of zeolite. Contact lasted 45 s, after which a new imprint was made on an agarized nutrient medium. After incubation of the Petri dish with the imprint for 1 day at 37 ^° C, two types of colonies were detected at the site of the imprint. By identification, it was found that, in addition to Staphylococcus aureus, Botrytis cinerea cells were contained in the sample taken from the wounded fluid.

 Thus, it has been shown that sampling means made of zeolite, with short contact with the wound surface, make it possible to identify microflora contained in the liquid wound discharge. With a longer contact of the agent made of zeolite, it is possible to detect not only surface, but also deep microflora extracted on the surface of the wound due to the high sorption properties of the zeolite of the material from which the sampling agent is made. After the experiment, the spent rods were washed, cleaned, sterilized and used again.

 Example 2. From the wetting surface of the wound with a short 5 s and a long 35 contact, samples were taken with a plate made of zeolite. The prints were transferred to Petri dishes containing culture media with a set of antibiotics. After incubation of the Petri dishes with fingerprints, the sensitivity of the microflora contained in the wound to the tested spectrum of antibiotics was established, which made it possible to select the most effective treatment options.

 Studies have shown that upon contact with the wound surface, the fluid enters the sampling means, and the microflora is adsorbed on the contact surface, which facilitates its transfer to the culture medium by imprinting or shaking in a liquid culture medium.

 Example 3. To determine the contamination of the table surface by microflora, a cylinder made of zeolite was attached with it to the end. Then, on an agarized nutrient medium, the surface of the sampling means was imprinted, contaminated with the surface of the table. After incubation of the imprinted Peter's plate, the grown microflora was identified as Aspergillus niger and Escherichia coli.

 Example 4. According to the method of example 3, the fingerprints from the walls of the microbiological production workshop were transferred to Petri dishes with nutrient media containing a set of antiseptic agents for treating the walls of microbiological production, which made it possible to select the most effective means for processing the walls in this workshop.

 Thus, means for sampling made of zeolite turned out to be convenient and effective reusable agents and can be widely used in the practice of microbiological industries, in medicine, environmental surveys, hygienic examinations of premises, furniture, clothes, etc.

Claims (1)

 The use of zeolite as a material for the manufacture of means of sampling for microbiological, serological, biochemical and chemical analyzes.