RU133833U1 - MICROBIOLOGICAL NEEDLE - Google Patents

Abstract

A microbiological needle containing a handle on one side and a removable working element on the other hand in the form of a pointed metal spire fixed in the handle with a sleeve, characterized in that a through oval hole is made in the metal spire closer to its free end to accommodate a sufficient amount of microbiological material .

Description

The utility model relates to microbiology, namely, laboratory tools for the cultivation of microorganisms.

Known microbiological needle, consisting of a handle on one side and a removable working element on the other hand in the form of a metal spire, designed for inoculation of various cultures of microorganisms by injection in test tubes with an MPA column (Workshop on Microbiology. - 2nd ed., Revised. And additional ./N.R. Leonov. -M .: Agropromizdat, 1988. - P. 59-60. - [1]).

The main disadvantage of the known microbiological needle is that as it is introduced into the agar, the concentration of microorganisms in the puncture channel decreases. With a small initial number of microorganisms in the starting material, after introducing 2/3 of the MPA column height at the final point of advancement of the microbiological needle, the concentration of microorganisms can be so minimal that it will be difficult to take into account the results of sowing in the future. That is, the disadvantage of the prototype is not always the full amount of microbiological material necessary for the manifestation of the characteristic results of the study, which is important when cultivating undetected or weakly growing microorganisms.

This reduces the possibility of a visual assessment of the results of the growth of microorganisms on a nutrient medium, and also puts different samples in different conditions during experimental studies. All this can distort research results. As a rule, such results are not taken into account and the work is performed repeatedly. The latter is often impossible to duplicate under experimental conditions, for example, when analyzing the microbial contamination of a wound discharge at certain times after surgery, for timely and justified postoperative antibiotic therapy.

The objective of the proposed solution is to increase the volume of the sample and increase the accuracy of the results of laboratory tests.

The technical result is to increase the accuracy of research results by providing the possibility of transferring into the nutrient medium an increased volume of microbiological material.

The task and the specified technical result is achieved due to the fact that the well-known microbiological needle containing a handle on one side and a removable working element on the other hand in the form of a pointed metal spire, fixed in the handle with a sleeve, according to a utility model, in a metal spire is closer to its free end a through oval hole is made to accommodate a sufficient amount of microbiological material in it.

The technical essence of the proposed solution is illustrated by the drawing, which shows the microbiological needle.

The microbiological needle consists of a handle 1, a removable working element in the form of a pointed metal spire 2, fixed in the handle by a sleeve 3. At the same time, a through oval hole 4 is made in the metal spire 2. For one reason, the shape of the hole is determined by the technological conditions of manufacturing the product.

The proposed microbiological needle works as follows: the microbiological needle is held by the handle 1 with the right hand, the test tube with the microbiological material is held in the left hand. In this case, the cork is pressed with the little finger of the right hand to the palm of the hand, and after removing it from the test tube, it is held in the hand. Before taking microbiological material, the working element of the microbiological needle is carried out above the burner flame, i.e. they are flaming her. When reseeding from one tube to another, a shaped metal spire 2 of a microbiological needle is inserted into the tube and it is cooled. Then they come in contact with the culture, which lingers not only on the surface of the metal spire 2, but also in its through oval hole 4. After that, the culture is taken out of the test tube so that it does not pass over the flame of the burner.

To sow the culture of microorganisms, a microbiological needle is inserted with a metal spike 2 into the tube with an MPA column by injection. Since its free end is pointed, the microbiological needle freely passes into the depth of the nutrient medium. Microbes remain on the path of the needle, they can grow by injection. Moreover, due to the through oval hole 4, the number of microorganisms is sufficient for the visual growth of colonies throughout the injection.

After using the microbiological needle, it is sterilized both assembled and disassembled. In the latter case, the clutch 3 is unscrewed and the metal spire 2 is released from the handle 1. The collapsible microbiological needle is also designed to replace its worn out elements. So, for example, flaming of the working element of the microbiological needle can lead to wear (burning out) of the metal spire 2.

Multiple tests of the proposed microbiological needle revealed not only its unhindered passage into the interior of the MPA, but also the transfer of sufficient microbiological material into this nutrient medium for the expanded and visible growth of its colonies.

Using the proposed utility model provides the following advantages:

- compliance with the technique of cultivating microorganisms;

- improving the readability of laboratory research results;

- improving the accuracy of research results;

- elimination of the need for repeated studies;

- determination of timely and justified postoperative antibiotic therapy.

These benefits significantly increase the repeatability of laboratory test results. This significantly increases the effectiveness of the research, as can be seen from the table.

Table. Comparative indicators of the use of microbiological needles Microbiological needles Number of crops Doubtful Results Proposed 25 - Famous 25 6

The proposed utility model was successfully applied in the cultivation of microorganisms on the basis of the Department of Epizootology and Therapy FSBEI HPE Orel GAU and the Department of Clinical Veterinary Medicine FSBEI HPE "Peoples' Friendship University of Russia".

Claims (1)

A microbiological needle containing a handle on one side and a removable working element on the other hand in the form of a pointed metal spire fixed in the handle with a sleeve, characterized in that a through oval hole is made in the metal spire closer to its free end to accommodate a sufficient amount of microbiological material .

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