SU771158A1 - Unit for tissue and cell culturing - Google Patents

Description

The invention relates to the field of microbiology, namely to installations for the cultivation of tissues and cells. A plant for cultivating tissues and cells is known, comprising a cultivator associated with a pipeline with a collection of culture fluid, and a device for aerating the AE. This plant is closest to this invention in its technical nature. A pipette pump controlled by a generator of pneumatic pulses is used to ensure the circulation of the culture fluid in a known installation. The disadvantage of the known installation. is the pulsation of the flow of fluid flowing through the cultivator, which leads to disturbances in the process of normal development of the explant. Aeration in the installation is not sufficiently effective, since the contact between the gas and liquid phases occurs on a relatively small surface, and smooth control of the flow rate through the cultivator, which is especially important at low speeds. impossible due to the impulse response characteristics of the fluid flow rate boosters used in them. The aim of the invention is to create a uniform flow of the culture fluid through the cultivator and improve its aeration. For this, the installation is equipped with a manometric tank, in the upper part of which a tube is placed for sucking the liquid, the lower part of which is connected to a collector through a cultivator to form a system of communicating vessels, and its gas space communicates with the gas space of the collector. The aeration is a gas-jet pump, and the tube for suction of fluid is connected to the pump, with the outlet of the collector in the form of a capillary. The drawing shows a plant for culturing cells and tissues. It contains a collection of 1 culture fluid, the outlet of which is made in the form of a capillary 2, a cultivator 3, a manometric tank 4, a tube 5 for sucking the liquid, a gas-jet pump 6 and a device 7 for

installation movement of the tube 5, made in the form of a screw drive

Collector 1 and gauge tank 4 are closed with stoppers, and tube 8 serves to equalize the pressure in them.

In the stopper closing the collector 1, there is an opening 9 for the gas to escape.

The installation works as follows.

The liquid is poured into the collector 1 and through the capillary 2, which serves to stabilize the flow of liquid, enters the cultivator 3 and the manometric tank 4, from which the liquid is sucked through the tube 5 by a gas-jet pump 6. where is its saturation with gas, after which it falls into collection 1.

The flow rate of the fluid is controlled by moving the tube 5 vertically inside the gauge tank 4 using the device 7. In this case, due to the fact that the fluid suction from the gauge tank 4 is more intense than the inflow, the meniscus of the fluid in the gauge tank tracks the position of the tip of the tube 5 and the change in the ratio of liquid levels in the collector 1 and the manometric tank 4 leads to a change in the speed of the flow of the liquid.

Due to the fact that the installation is equipped with a manometric tank 4, inside of which is placed a tube 5 for sucking liquid connected to a gas-jet pump 6, the gas-jet pump 6 with constant flow characteristics serves as a fluid flow booster, and the fluid supply system cultivator 3 is supplied. through the capillary p 2 in the cultivator 3 there are no pulsations of the fluid flow. In the gas-jet pump 6, finely dispersed liquid in the gas stream occurs, which leads to an increase in the contact surface between the liquid and gas phases, as a result of which the efficiency of aeration is increased.

Thus, the proposed installation allows the cultivation of tissues and cells in 6ojjee favorable conditions, which will lead to their longer viability under the conditions of a biological experiment.

Claims (1)

1. USSR author's certificate 335977, cl. From 12 to 1/10, 1970.