RU190367U1 - Device for the cultivation of mammalian cells on tissue-engineering structures - Google Patents

Abstract

The invention relates to the field of biotechnology, in particular to devices for growing mammalian cells and can be used in biotechnology and tissue engineering. The technical problem solved by this utility model is the creation of a bioreactor that allows mammals to be cultured in 3D models, which would increase or maintain the viability and distribution of cells on a biomaterial substrate, with the ability to observe the behavior of the cell culture on the tissue engineering structure using an inverted light microscope or visual method. The essence of the utility model lies in the fact that in a device for cultivating mammalian cells on tissue-engineering structures, including a transparent bioreactor chamber with a hermetic lid, an outlet tube for discharging nutrient fluid from it and a means for gas exchange with the environment on the lid, an overalter pump in an airtight plastic is additionally installed housing with a lid, connecting the input and output tubes in the longitudinal direction with the ends of the rectangular chamber of the bioreactor, while on a sealed the case has an on / off button, connected to a peristatic pump and a plug, and the gas exchange means is made in the form of a bacterial filter.

Description

The invention relates to the field of biotechnology, in particular to devices for growing mammalian cells and can be used in biotechnology and tissue engineering.

Physiological conditions for the growth and proliferation of cultured cells creates for them the constant circulation of fluid in the sample area / Wang, L., Hu, N., Yang, J., Wang, F., Kaisermayer, S., & Zhou, P. High yield Docophila Schneider 2 cells in perfusion culture using wave bioreactor. Molecular biotechnology, vol. 52 no. 2, pp. 170-179. 2012 /. Special devices - bioreactors, and ensure the circulation of the nutrient medium / M. Sladkova and G. de Peppo, "Bioreactor Systems for Human Bone Tissue Engineering," Processes, vol. 2, no. 2, pp. 494-525, Jun. 2014./

As a result of the patent information search, three analogues of the proposed device were identified.

Bioreactor for the cultivation of suspension cell cultures in the conditions of the earth and in microgravity conditions / application for US patent 2002/0146816, IPC С12М 1/00, publ. 10.10.2002 /, consisting of a cylindrical tank, capable of rotating around its axis through an electric drive, and a system that ensures continuous recirculation of the nutrient medium or the flow of fresh aliquots of it. On the bioreactor tank there are two covers and openings for tubes. There is a gas exchange system, represented by a gas-permeable pipeline. Fresh nutrient medium is stored in a polymer container and is fed into the cavity of the bioreactor through a peristaltic pump.

An important disadvantage of this bioreactor for cell culture is its use exclusively for suspension cell cultures, which makes it impossible to use it for the cultivation of mammalian cells in a 3D biological model.

Another analogue is a bioreactor consisting of a cylindrical tank with a lid and nozzles for supplying and discharging gas, a device for aerating and mixing the medium / Patent of the Russian Federation No. 2299903 /. The bioreactor contains a paddle wheel mounted on a drive shaft located in the upper part of the body. There are holes around the shaft for gas inlet and outlet connections. The disadvantages of this bioreactor include: the impossibility of its use for the cultivation of adhesion cultures of mammalian cells in 3D biological models, as well as a large volume of the cavity of the bioreactor, intended for the production of large amounts of biological mass.

The closest analogue (prototype) is a bioreactor designed for growing tissue-engineering structures, consisting of a tank with transparent walls and a tightly closed lid. The body is placed biological matrix with fixation using the spokes. There are special pneumatic acoustic nozzles that provide the flow of the gas mixture and fresh nutrient medium. On the body of the bioreactor there is a valve for relieving overpressure and nutrient medium / Patent RF №2482180 /.

The known device does not imply the recirculation of the nutrient medium, which, being in the conditioned state, contains a large number of biologically active substances, primarily paracrine factors, which play an important role in the processes of cell proliferation and differentiation. In addition, the large size and round shape of the proposed device does not allow to visually assess the state of the cultured cell culture in vitro using light microscopy, which negatively affects the performance of the work.

The technical problem solved by this utility model is the creation of a bioreactor that allows mammals to be cultured in 3D models, which would increase or maintain the viability and distribution of cells on a biomaterial substrate, with the ability to observe the behavior of the cell culture on the tissue engineering structure using an inverted light microscope or visual method.

The essence of the utility model lies in the fact that in a device for cultivating mammalian cells on tissue-engineering structures, including a transparent bioreactor chamber with a sealed lid, an outlet tube for discharging nutrient fluid from it, and a device for gas exchange with the environment on the lid, an overalt pump in an airtight plastic housing with a lid, connecting the input and output tubes in the longitudinal direction with the ends of the rectangular chamber of the bioreactor, while on the sealed The body has an on / off button connected to a peristatic pump and a plug, and the gas exchange device is made in the form of a bacterial filter.

The utility model is presented in FIG. 1 is a general side view, and in FIG. 2 is a front sectional view.

A device for cultivating mammalian cells on tissue-engineering structures consists of a sealed plastic housing 1, closed with a lid, in which a peristaltic pump 8 is installed, a rectangular transparent chamber of a bioreactor 2 with a sealed lid, a bacterial filter 3 for gas exchange between the bioreactor chamber and the environment, on / off buttons 4, plugs 5 for inclusion in the network, the input tube 6 and the output tube 7.

The operation of the device is as follows. In a sterile chamber of the bioreactor 2, a Petri dish with a tissue engineering design of the dermis of the skin, populated with cells, is placed in it. After that, the chamber of the bioreactor is filled with nutrient medium above the rim of the Petri dish, so that the nutrient medium completely covers the tissue-engineering design. Then the entire device is sterilized outside, and placed in standard cell incubator conditions (37 ° C, 5% CO2). Gas diffusion into the chamber of bioreactor 2 is ensured by a bacterial filter 3 mounted on the lid of the chamber of the bioreactor. Next, plug 5 connected to the peristaltic pump and the on / off button is connected to the electrical network, providing power to the device. Turn on the device using the on / off button 4. Further circulation of the liquid is provided by means of a perlstatic pump 8, located in an insulated sealed enclosure 1 with a lid. It is connected to the ends of the bioreactor chamber with two tubes - inlet 6 and outlet 7, through which the nutrient medium circulates in the chamber, in the longitudinal direction.

The technical result of using the utility model is that it is possible to cultivate mammalian cells in a 3D model, with the ability to observe the behavior of cell culture on the tissue engineering structure using an inverted light microscope or visual method, since the size and shape of the bioreactor chamber allow it to be placed into an inverted light microscope. Due to the fact that the design of the device is small and compact, it can be used for scientific purposes, and not in the conditions of industrial cultivation of the mass.

Claims (1)

A device for cultivating mammalian cells on tissue-engineering structures, including a transparent bioreactor chamber with a sealed lid, an outlet tube for discharging nutrient fluid from it, and a means for gas exchange with the environment on the lid, characterized in that the peristaltic pump is additionally installed in a sealed plastic case with a lid, the connecting input and output tubes in the longitudinal direction with the ends of the rectangular chamber of the bioreactor, with a button mounted on the sealed enclosure on / off switch, connected to the perlustat pump and plug, and the gas exchange means is made in the form of a bacterial filter.

Images