SU1650693A1 - Devices for cultivating and investigating suspension cultures of cells - Google Patents

Abstract

The invention relates to biotechnology, in particular to devices for the cultivation and study of suspension cell cultures. The purpose of the invention is to improve the accuracy of research by providing more uniform and stable conditions for cell cultivation and control. The device is equipped with a rotating drum 6 with slots 7 for containers 2. Inside the drum 6, a source 3 of light is installed, and outside is a photocell for recording the optical density of suspensions. The containers 2 when the drum 6 is moving intersect the optical axis between the source 3 and the photocell, thus mixing the medium in the containers 2. The device provides the same cultivation conditions in all the containers and stable conditions for removing the photometric indicators of cell suspension. 2 Il. sl oo o 00

Description

The invention relates to biotechnology, namely, devices for the simultaneous cultivation of cells in separate containers and their research.

The aim of the invention is to improve the accuracy of research by providing more uniform and stable cell culture conditions and their control.

FIG. 1 shows a device, a longitudinal section; in fig. 2 shows section A-A in FIG. one.

The device for cultivating and studying cell suspension cultures contains a sealed housing 1 and containers 2 for cell suspension, light source 3, and a photocell 4 for optical control of cell suspension. The housing 1 is provided with a translucent shell 5, located therein and serving to cool the internal volume of the housing 1, and a drum 6 placed in the housing 1 coaxially around the shell 5 with a gap b between them, installed rotatably and having slots 7 evenly spaced around the circumference .

The containers 2 are installed in the slots 7, and the light source 3 is placed inside the shell 5 along its axis for passing a stream of light through the containers 2. The photocell 4 is mounted outside the drum 6 and fixed in the housing 1 on the same horizontal line as the light source 3.

In addition, the device comprises a drive 8 of the drum 6 and a fan 9 for blowing cooling air through the shell 5.

The device works as follows.

The containers 2 with the cell suspension are placed in the sockets 7 of the drum 6 and then the drive 8 is turned on. When the drum 6 is rotated, the medium in the tanks 2 is stirred, their thermostatisation and gas exchange is carried out.

Due to the fact that different test substances are added to each bioassay, the growth rate of cells in different bioassays is different from the control (without any additives), which is reflected in the optical density of the bioassays. When the drum 6 rotates, all the containers 2 pass successively between the light source 3 and the photocell 4 installed outside the drum 6, and the light flux from the light source 3 is attenuated by each of the containers 2 in proportion to the optical density of the bioassay in them, which is detected by the photocell four.

The location of the photocell 4 in the horizontal plane passing through the source 3 of the light is due to the fact that when the photocell 4 is located in the vertical

The plane does not provide the standard thickness of the optical layer of the suspension due to fluctuations in the variation of the liquid level. With a horizontal arrangement, the light to the photocell 4 always passes through a layer of liquid bounded by the walls of the tank 2. The optical density of all bioassays is recorded by the same photocell 4 in combination with the uniformity of the bioassay growing conditions due to

the location of the light source 3 in the center of the rotating drum 6 and the simultaneous use of the light source 3 for both photometric bioassays and for providing them with light energy for growth

provides objectivity, reproducibility and accuracy of measurements. Such a combination of the design features of the proposed device provides the possibility of automated collection and

data processing, increases the speed and efficiency of search research in proportion to the number of cells, since it is equivalent to the number of parallel experiments. The proposed device

allows you to speed up the search processes of biologically active substances and optimization of biotechnological processes.

Claims (1)

Invention Formula A device for cultivating and studying cell suspension cultures, containing a sealed enclosure and containers for cell suspension, a light source, and a photocell for Optical control of the suspension, characterized in that, in order to increase the accuracy of the research by providing more uniform and stable conditions for the cultivation and control of the cells, provided with a translucent shell, located in it and used to cool its internal volume, and a drum placed in the housing concentric to the shell with a gap between them, mounted rotatably and having slots evenly spaced around the circumference, while the containers are installed in these slots, and the light source is placed inside the shell on its axis to pass the flow of light through the tank, and the photocell is installed outside the drum and mounted in the housing on the same horizontal line with the light source. Fig: -2