SU734280A1 - Flow chamber for culturing - Google Patents

Description

one

The invention relates to the cultivation of cells and tissues of living objects, as well as mammalian embryos, namely cultivation flow-through chambers, and can be used in animal husbandry, medicine, and biology.

A known cultivation flow chamber is for cells and tissues of living objects, comprising a housing with tubes for connection and a trunk with a nutrient medium and tubes for handling the cultured object, cover glasses installed through sealing gaskets on the walls of the shell with the formation of a cultivation cavity between them, and a nut for adjusting the height of said cavity 1.

The known chamber is the closest to the invention in its technical essence and the achieved result.

However, in the known chamber it is difficult to ensure sterility when introducing and manipulating bioobjects into the cultivation cavity, it is impossible to regulate the flow rate of the medium over a wide range due to

washing out small bioobjects with a fluid flow, / it is not possible to quickly reduce the temperature in the cultivation cavity or keep it constant without increasing the volume of the nutrient medium flowing through it.

The aim of the invention is to provide the most favorable conditions for the growth and development of a cultured object.

To achieve this goal, the chamber is provided with an additional gasket installed in the cultivation cavity, providing, together with a nut, the height adjustment of this cavity and an insert to prevent the object from leaching

20 cavities, and tubes for connecting to the line, before entering the cultivation cavity, are connected to manipulation tubes, while the body is hollow and has connections for supplying and discharging the thermal agent.

FIG. 1 shows a cultivation flow chamber, a vertical section in FIG. 2 - section AA

AP of FIG. one.

The cultivation flow chamber contains a hollow annular body 1, through the walls of which the tubes 2 pass to connect to the nutrient line and the tube 3, gu1 manipulate with the cultured object.

On the inner surface of the walls of the housing 1, a protrusion 4 is made to place on it a sealing insert 10 of the lower cover 6, an upper cover glass 7 on which the same sealing strip 5 is located. A cultivation cavity is formed between the cover glasses b and 7 and the walls of the housing 1. Before entering the cultivation cavity, the tube 2 for connecting to the trunk with the nutrient medium is connected to the tubes 3 for handling the cultured object. An additional elastic band 9 is installed in the cultivation cavity, having corresponding cuts in the tube outlets.

In order to prevent the object from washing out of the cultivation cavity, a liner 10 is placed in it. The hollow body 1 has nozzles 11 for the supply and removal of the thermal agent. Handle-holding tubes 3 are closed from the outside with a plug 12 or with a nozzle with any necessary tool.

The chamber is assembled by placing a sealing gasket 5, glass 6, gasket 9, glass 7 on the protrusion 4 and screwing the nut 8 to a certain depth, with the necessary equipment installed in the handling tubes 3. For example, if 10 were deposited into the cultivation cavity, it was necessary to do it only after it was formed and sterilization, then the necessary equipment would be a micropipette filled with the material from which the liner 10 would be made. glasses 6 and 7 with the help of a nut 8. The spread of the liner and its shape can determine which of the channels will be used for the inflow and flow of the medium.

The work in the chambers is carried out as follows.

After assembly, washing and sterilization of all elements, a nutrient flow is organized through the cultivation cavity, the flow of which is carried out through the tubes 2. The manipulation tubes 3 are closed with plugs 12 or nozzles with appropriate testing or manipulation equipment, such as micropipettes, light guides, micro-needles , radioisotope micro-devices, etc. The procedures for the insertion and removal of bioobjects can be performed without a three-way attachment. To do this, increase the flow rate of the medium, remove one of the plugs 12. Into the current of the medium, which begins to pour out of the external opening of the manipulation tube 3, add a sterile pipette with a liquid and a biological object, advance it to the cutout in the additional gasket 9 and then into the desired place the insert 10. Carefully inject the liquid with the bioobject into the cultivation cavity, at the same time reducing the speed of flow through the chamber. The pipette is removed. On the tube 3 put on the cap 12,

 As the biological object develops, as well as with some manipulations, the distance between cover glasses b and 7 can be changed by moving 1 and nut 8 and the elasticity of the gasket Y, moreover, the bio object can be clamped between glasses 6 and 7 for temporary fixation. For this fixation, transparent plates of non-toxic material can be inserted into the cultivation tank, onto which the biological object is placed.

Upon reaching the desired stage of development, the bioobject is removed without compromising sterility. During cultivation, the temperature in the cultivation cavity is required to be maintained by filling the hollow KOpiTyca 1 with a thermal agent.

Claims (1)

Invention Formula A cultivation flow chamber for cells and tissues of living objects comprising a housing with tubes for connecting to a trunk with a nutrient medium and with tubes for manipulating a cultured object with it, cover glasses installed through sealing strips on the walls of the shell to form a cultivation cavity between them, and nut, characterized in that, in order to provide the most favorable conditions for the growth and development of the cultivated object, the chamber is equipped with the ones installed in the cultivation cavity noy gasket providing together with the nut height adjustment of the cavity, and the liner to prevent elution of an object from the cavity, and a tube for connection to the pipeline in front of the cavity cultivation sub- they are connected to dp manipulation tubes, while the casing is made of polm and has connections for the supply and removal of a thermal agent. Sources of information taken. In attention during the examination 1, USSR Author's Certificate 248900, cl. From 12 to 9/00,: 19b7.