RU203688U1 - Portable chamber for the cultivation of animal cells, as exemplified by GCT - cells - Google Patents

Abstract

The utility model relates to the field of experimental biology and medicine. It can be used to grow a culture of cells of all tissues of an animal organism. The technical problem in the proposed useful model is the emergence of the possibility of growing cells of all types of tissues of an animal organism, which can later solve many problems in experimental medicine. The technical problem is achieved due to the fact that glass is used. a box with a pre-created environment, with the ability to regulate the pressure, temperature and pH of the microenvironment created in the portable chamber, as well as the ability to disinfect this microenvironment, inside which the animal cells will be cultivated. Rubber interlayers are located between the lid and the glass box, which ensure tightness. For disinfection, a bactericidal lamp built into the lid body is used. The technical result of the utility model is to ensure the possibility of growing and culturing cells. The obtained cell culture, through several passages, makes it possible to grow tissue outside the animal organism, but completely identical to the given animal organism, with the further possibility of transplanting the obtained tissue to this organism. This technology will accelerate the regeneration of damaged tissues and reduce the length of stay of patients with extensive injuries in medical hospitals. The technical essence and principle of operation of the proposed utility model is illustrated by drawings. The technical result of the utility model is to provide the possibility of growing cells without using complex technology, which speeds up and simplifies work The proposed model is used as follows: a cell is placed in a Petri dish, from which a full-fledged tissue is grown under certain conditions. These conditions are created due to the fact that an environment is created in the glass room, consisting of pH, temperature, pressure. All of these factors can be adjusted without compromising the integrity of the underlying environment created in the room. For the convenience and accuracy of creating a biome, a thermometer, barometer, litmus are located inside.

Description

The utility model relates to the field of experimental biology and medicine. It can be used to grow animal cells in a Petri dish or directly on a living organism. With its help, it becomes possible to create a certain environment in which the cultivation of cells, and subsequently tissues of various organisms, will take place, which will significantly accelerate regeneration and therefore is a necessary model for experimental medicine.

A number of cell culture devices and devices are known. There are analogous devices, represented by various containers, in which cells can be grown under certain conditions. For example, "Apparatus for suspension cultivation of tissue cells and microorganisms" (Radikultsev Yu.V. et al.) Or "Apparatus for cultivating biological objects" (Soloviev BV et al.). But such inventions are technically and structurally complex, and therefore are not always convenient to use. In addition, these devices require rather high energy consumption, which is an economically disadvantageous prospect.

Closest to the claimed solution is "Bioreactor for growing cells" (Bader Augustinus RF Patent No. 2332448). However, when using this device, the following disadvantages appear: firstly, the cylinder-piston blocks for supplying pressure are located directly in the vessel itself, which does not provide sufficient convenience; secondly, the device is not equipped with measuring instruments, which does not provide the maximum accuracy of creating certain conditions for cultivation.

The technical result is the emergence of the possibility of growing cells of all types of tissues of an animal organism, without using complex technology, which speeds up and simplifies the user's work and helps to solve many problems in experimental medicine in the future.

The technical result is achieved by the fact that the portable camera consists of the following objects: thermometer; barometer; litmus paper for measuring the pH of the medium; Petri dishes, in which cells of various structures of the body are placed (at different heights); bactericidal lamp (for disinfecting the room); openings for air supply (in various ratios of nitrogen, oxygen, etc., necessary for creating a medium and regulating pressure).

The utility model is illustrated by the elements of Figures 1, 2, 3:

FIG. 1 Portable chamber for the cultivation of animal cells, for example GCT - cells (general view of the chamber).

Items shown - barometer, Petri dish holder 1, Petri dish holder 2, Petri dish holder 3.

FIG. 2 Portable chamber for the cultivation of animal cells using the example of GCT - cells, (front view of the camera)

The presented elements are a thermometer, an opening for regulating the pH of the medium (20 mm in diameter), an opening for oxygen supply (20 mm in diameter), an opening for regulating pressure (25 mm in diameter), a glass slide (55 mm long and 30 mm wide).

FIG. H. Portable chamber for the cultivation of animal cells using the example of GCT - cells (top view of the chamber).

The presented elements are a bactericidal lamp.

The device is a glass container, rectangular in shape - a portable camera. The dimensions of this chamber are 360 mm long, 220 mm high, 155 mm wide. A predetermined environment has been preliminarily created inside the chamber and it is possible to regulate: pressure (a barometer installed on the rear surface at a height of 50 mm), temperature (a thermometer installed on the front glass surface at a height of 60 mm), pH (litmus in a rubber cavity with multiple holes installed in the lid, the hole has a diameter of 20 mm), to decontaminate the medium (germicidal lamp located on the inner surface of the lid), inside which the cells will be cultured.

On the inner surface of the cover there are two holes: for regulating the air supply (diameter 20 mm) and for regulating the pressure (diameter 25 mm); and a mirror (55 mm long and 25 mm wide). The holes are rubberized, a sealed sterile tube is inserted into them, through which the medium is regulated. Between the lid and the glass walls of the container, there are rubber interlayers that ensure tightness. Petri dishes located at different heights from the bottom of the container and are not susceptible to the action of microorganisms. Petri dishes are at different heights thanks to rubber suction cups and glass tubes that ensure their stability.

The device works as follows:

A cell culture is placed in a Petri dish, from which a full-fledged tissue is subsequently grown under certain conditions. These conditions are created due to the fact that an environment is created in the glass room, consisting of pH, temperature, pressure. All of these factors can be adjusted without compromising the integrity of the basic environment created in the room. For the convenience and accuracy of creating a biome, a thermometer, a barometer, and litmus paper are located inside.

Claims (1)

Portable chamber for culturing animal cells, including a housing, a barometer for measuring pressure, an element for measuring pH, a thermometer for measuring temperature, an illumination source, characterized in that it is equipped with Petri dishes for placing a cell culture, the body is a glass box with a sealed lid, a barometer for measuring the biome pressure is installed on the back surface inside the glass box, a thermometer for measuring the air temperature is installed on the front glass surface inside the glass box, a bactericidal lamp installed on the inner surface of the lid is used as a light source to disinfect the air inside the glass box, and as an element pH - litmus paper placed in a rubber cavity with many holes installed in the lid, Petri dishes are placed on supports on the bottom of the glass box and on its side walls at different heights from the bottom by means of suction cups from the glass nny tubes, while in the inner surface of the lid there are two rubberized holes with the possibility of placing sealed sterile tubes in them to regulate the supply of air, nitrogen and oxygen in the required amount, and to regulate the pressure.

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