KR20190017522A - The Circular Polymer Cell Culture Apparatus for the Vascular and Stem Cell of the Saliivary Glands Based on Dual Perfusion and its System - Google Patents

Abstract

The present invention relates to culture of duct cells and stem cells of the salivary gland based on dual perfusion culture using a biocompatible round polymer, having a plurality of media for culturing a target cell to allow the media to be perfused. The present invention comprises: a cell culture unit (100) for culturing at least one subject cell; an inner tube unit (200) having an inner medium for flowing the subject cell of the cell culture unit; and an outer tube unit (300) having an outer medium flowing adjacent to the subject cell of the cell culture unit. The cell culture unit is characterized by being close to a circular shape. It is an object of the present invention to provide a culture system capable of simulating in vivo through perfusion culture by collecting salivary duct tissues in the human body and transplanting cells into the circular biocompatible polymer.

Description

Technical Field [0001] The present invention relates to a dual-perfusion-based salivary duct cell and a stem cell culture apparatus and system using the biocompatible circular polymer,

The present invention relates to a dual perfusion-based salivary duct cell and a stem cell culture apparatus and system using a biocompatible circular polymer, and more particularly, to a three-dimensional culture system and a double perfusion cell culture system using a biocompatible polymer .

  Existing cell culture experiments can be said to be experiments in environments that are different from the in vivo in which cells are grown and observed while periodically changing the culture medium in a general culture vessel. Such a two-dimensional cell culture technique can not simulate a living body or construct an equivalent three-dimensional histological characteristic, and can not maintain the characteristics possessed by the cell in the body. On the other hand, perfusion culture supplies the cells with nutrition through the flow of the culture fluid and gives sustained stimulation similar to in vivo. The perfusion culture provides a physical environment similar to that of a living body by using a culture medium and various scaffolds and semi-permeable meshes to provide an environment suitable for a living body rather than a general cell culture for cell growth and subsequent experiments. There are advantages. Since cells respond sensitively to changes in the surrounding environment, research on cell culture in 3D environment is an important issue. In the present invention, a biocompatible polymer is made into a conduit shape, and a cell which is a conduit is transplanted and cultured, so that a completed conduit tissue can be directly implanted in a living body. In addition, the three-dimensional cell culture technique allows various stimuli to be given to the salivary duct cells through the perfusion culture technique to observe and analyze the cells in various phenomena appearing in the human body. There is an advantage that research can be systematically studied by simulating the living body. The salivary gland consists of an acinar unit that generates saliva and a ductal compartment that discharges the saliva. Because the ductal cells constantly generate saliva and are stimulated by the flow of saliva, culture with the perfusion system may well reflect the environment of the salivary duct, providing valuable information for the study.

  It is an object of the present invention to provide a culture system capable of simulating in vivo through perfusion culture by harvesting salivary duct tissue of a tissue in a human body and transplanting cells into a circular biocompatible polymer. Other objects and further features of the present invention will become more apparent from the following detailed description of the present invention when taken in conjunction with the accompanying drawings.

It is an object of the present invention to provide a perfusion culture system similar to in vivo conditions after collecting salivary duct cells and stem cells. To this end, the present invention provides a dual perfusion culture system. The present invention provides precise nutrients to the cell culture system through such a dual perfusion culture system to enable control and evaluation of the perfusion cell culture system. The perfusion cell culture system of the present invention has a dual culture medium injection channel and an outlet channel through which nutrients and / or oxygen necessary for cell culture are supplied and the cells are cultured in the culture vessel. The perfusion cell culture system of the present invention is noted for observing and evaluating the response of the ductal cells, which can be controlled and controlled for providing accurate nutritional components and stimulating factors and therapeutic factors of ductal cells.

According to the present invention, it is intended to increase the value of salivary gland conduit research by implementing an environment similar to in vivo conditions through three-dimensional double perfusion culture of salivary gland duct cells.

      According to the present invention, by culturing the duct cells and the lineage cells, it is possible to simulate both the line cells that generate saliva, which is the most important cells of the salivary gland, and the duct cells that move the saliva. Accordingly, it is possible to expect a significant therapeutic and research effect by providing cells cultured in a biocompatible environment having a structure similar to that of actual salivary glands to patients and subjects requiring the cells.

In addition, in the conventional case, there is a limitation that only the change of the electrolytes and the components of the saliva produced through the conduit can be seen by locating only the conduit cells. However, according to the present invention, when the duct cells and the stem cells or stem cells are cultured, the saliva is produced and the entire life cycle of the saliva can be seen. Thus, the possibility of research and treatment of the culture can be widened.

     In addition, according to the present invention, when a duct cell and a stem cell are co-cultured, a part of the stem cell may differentiate into a duct cell, and a medicinal study in which a duct cell can be functionally strengthened with the help of a stem cell growth factor So that the effect can be expected.

  In addition, according to the present invention, the stem cells can be differentiated into stem cells and the function of the stem cells can be strengthened functionally with the help of the stem cell growth factor, . ≪ / RTI >

BRIEF DESCRIPTION OF THE DRAWINGS Figure 1 is a representative diagram of an overall apparatus and system according to the present invention.
2 is a cross-sectional view of a cell culture unit according to the present invention.
FIG. 3 is a cross-sectional view showing the interaction of the subject cells in the cell culture part according to the present invention.
4 is a perspective view of a cell culture unit according to the present invention.
5 is another perspective view and a cross-sectional view of the cell culture unit according to the present invention.
6 is a cross-sectional view showing an enlargement of the area and diameter of the cell culture part, inner and outer tube part according to the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1, there is a cell culture unit 100 close to a circular shape similar to a body fluid tube such as a saliva tube and a blood vessel of an object to be cultured or living organism in order to culture one or more subject cell 110. [ Ideally, the cells to be cultured in the cell culture section are at least one of stem cells 111, duct cells 112 and precursor cells 113, and the stem cells 111 and the duct cells 112 are cultured Function. At this time, one or more of the stem cells 111, the duct cells 112, and the stem cells 113 may be mixed with the cell culture unit 100 and cultured. The near-circular cell culture unit 100 is ideally made of a polymer that is a biocompatible material, and is a circle similar to a living environment. Thus, it reflects influences of the saliva and blood which contribute to cell culture, And the surrounding environment of the cells generated from the cells. Thereby enabling more effective cell culture and research. In addition, compared to the existing invention, the present culturing apparatus can be used as it is, and can be biocompatibly transplanted to the cultured object or organism.

In addition, according to the present invention, the basic structure is that at least one medium of saliva, saliva component mimic, blood, blood component simulant, and culture stimulating drug flows along the inner tube 200 or the outer tube 300 . Ideally, the saliva or saliva component simulating liquid is injected into the inner mouth 400 as the inner media 210 and 220 of the inner tube 200 , and circulates the title cell 110 to the inner outflow 410 I go out as an outlet. Also outside medium (310, 320) as the blood to the blood component simulating liquid is introduced into the outer ipro 500 is the heading cell (100) circulating in an adjacent state, and the outer chulro 510 of the outer tube portion 300 .

At this time, the at least one subject cell 110 cultured in the cell culture unit 100 can be cultured in a biomimetic culture environment by physical, chemical, and biological actions of the inner medium of the inner tube. In addition, the permeable structure 120 is present on one side of the cell culture unit 100 . The cultured heading cells 110 continuously interact with the outer media 310 and 320 flowing in the outer tube 300 through the permeable structure 120 . In this case, the cultured cells heading 110 retrieves the component from the outer medium (310, 320), and interacts with the medium as an exporting 310,320 outside their components. Accordingly, the subject cell 110 can be cultured in a form more suitable for a living body.

In addition, according to the present invention, the inner tube portion 200 includes an inner analysis outlet 420 on one side of the circuit. In order to analyze the state and components of the inner medium 210 and 220 flowing through the subject cell 110, the inner tube 200 is connected to the inner medium 210 , 220).

In addition, according to the present invention, the outer tubular part 300 also includes an outer analysis outlet 520 on one side of the circuit. The outer tube 300 is connected to the external analyzer of the apparatus according to the present invention in order to analyze the state and components of the external medium 310 and 320 flowing adjacent to the subject cell 110, (310, 320).

In addition, according to the present invention, in order to create a biomimetic environment in culturing the subject cell 110, at least one of the velocity, dose, and components of the inner medium 210, 220 of the inner tube 200 Through the inner pipe control unit (600) . In this case, when the inner medium 210 or 220 is a saliva or a saliva component simulating liquid, the controlled component of the inner medium 210 and 220 to be controlled is an electrolyte concentration, a hydrogen ion concentration, a growth factor, One or more. Accordingly, the subject cell 110 is naturally exposed to the physical, chemical, and biological actions of the inner media 210 and 220 by simulating the saliva composition environment of the object to be cultivated or living organisms, And can be suitably cultured.

In addition, according to the present invention, in order to create a biomimetic environment in culturing the subject cell 110, at least one of the speed, amount, and component of the outer medium 310, 320 of the outer tube 300 And is controlled through the appearance control unit 700 . At this time, when the outer medium 310 or 320 is a blood or blood component simulating liquid, the regulated components of the outer medium 310 and 320 to be controlled are electrolyte concentration, hydrogen ion concentration, growth factor, One or more. Thus, by simulating the saliva composition environment of an object to be cultivated or living organism, the subject cell 110 can organically interact with the blood or blood simulant, which is the outer medium 310 or 320, It becomes possible to cultivate more biocompatibly.

In addition, according to the present invention, in order to smoothly culture the subject cell and to study culture application, the environment control unit 800 may control the cell culture unit 100, the inner tubular part 200, the outer tubular part 300, The culture environment can be changed. At this time, the environment control unit 800 controls the temperature of each of the cells in the culture environment of at least one of the cell culture unit 100, the inner tube unit 200, and the outer tube unit 300, The subject cell should be cultured in accordance with changes in body temperature due to exercise, disease, and natural fever, and accordingly, changes in salivary cells, salivary glands and blood vessels.

Further, the environment control unit 800 controls the illuminance and brightness of each angle to cultivate the subject cell to reflect the change of salivary cells, salivary vessels and blood vessels according to the natural light and artificial light of the actual cultured object or living organism .

Further, the environmental control unit 800 reflects changes in the actual salivary cells, salivary vessels, and blood vessels due to the dynamic state, the stationary state, and the gravity change of the object to be cultivated or the living body by controlling the tilt, To carry out cultivation of the subject cell.

Also, by controlling the diameter area of each angle, the environment control unit 800 reflects changes in actual salivary cells, salivary vessels, and blood vessels due to dynamic conditions, living conditions, temperature changes, gravity changes, Culturing of the heading cell is performed.

In addition, the apparatus and the system according to the present invention are directly implanted into the cultured object or living organism directly, thereby directly solving the saliva-related problems of the cultured object or organism.

1: Dual perfusion-based biomimetic monolayer salivary duct cell culture device
100: Cell culture section 110: Heading cell
111: stem cells (duct formation) 112: duct cells 113: linear cells 114: duct formation auxiliary cells
120: permeable structure
200: inner tube part 210: inner tube inner part flow 220: inner tube inner part (out flow)
300: Outer part 310: Outer part of the outer part 320: Outer part of the outer part
400: inner mouth 410: inner outflow 420: inner pipe analysis outlet
500: Outside mouth 510: Outside out 520: Outside analysis outlet
600: inner pipe control unit 700: outer pipe control unit
800: environment control unit

Claims (17)

A method for culturing salivary duct cells and stem cells based on dual perfusion culture using a biocompatible circular polymer having a plurality of mediums for culturing a target cell,

A cell culture unit (100) for culturing at least one subject cell ;
An inner tube 200 having an inner medium for flowing the subject cells of the cell culture unit ;
And an outer tubular part (300) having an outer medium adjacent to the subject cell of the cell culture part,

Wherein the cell culture unit forms a shape close to a circle, and a dual perfusion-based salivary duct cell and a stem cell culture apparatus and system using the biocompatible circular polymer
The method according to claim 1,
Wherein the subject cell 110 of the cell culture unit is composed of at least one cell of a stem cell, a duct cell, or a stem cell.
3. The method of claim 2,
Wherein the stem cell of the subject cell includes at least one of a ductal stem cell, an artificial pluripotent stem cell, a mesenchymal stem cell, a hematopoietic stem cell, and a cell differentiated into the cells. Dual perfusion-based salivary ducts and stem cell culture devices and systems
The method according to claim 1,
Wherein the cell culture unit (100) further comprises a permeable structure (120) capable of interacting with the outer medium on one side of the cell culture unit (100). Stem cell culture device and system
5. The method of claim 4,
Wherein the permeable structure (120) further comprises at least one structure selected from the group consisting of a mesh having a selective permeability and a membrane when the host cell interacts with the outer medium. The biocompatible circular polymer according to claim 1, Based salivary duct catheter and stem cell culture device and system
The method according to claim 1,
The inner tube is characterized in that it comprises an inner chulro 410 to export an inner medium throughflow ipro an inner (400) and said heading cell to commit to the throughflow cell culture section heading cell Dual perfusion-based salivary ductal cell and stem cell culture device and system using biocompatible circular polymer
8. The method according to any one of claims 1 to 6,
The inner tube portion has an inner analysis outlet 420 for analyzing the inner medium on one side of at least one of the inner mouth 400 and the inner outlet 410 A dual perfusion-based salivary duct catheter cell and a stem cell culture device and system using the biocompatible circular polymer
The method according to claim 1,
The exterior portion is characterized in that the configuration outwardly ipro 500 and the outer chulro 510 to export the flows outside the medium adjacent to the heading cell to commit to flow adjacent to the heading that the outer medium, the cell culture unit cell Dual perfusion-based salivary ductal cell and stem cell culture device and system using biocompatible circular polymer
10. The method according to any one of claims 1 to 8,
Wherein the outer portion includes an outer analyzing outlet (520) for analyzing the outer medium on one side of at least one of the outer inlet (500) and the outer outlet (510) . The biocompatible circular polymer Salivary duct cell and stem cell culture device and system
8. The method according to any one of claims 1 to 6,
Wherein the at least one of the inner velocity of the inner medium of the inner tube, the amount of the inner medium, and the amount of the inner medium is controlled. [7] The biocompatible circular polymer according to claim 1, Devices and systems

10. The method of claim 9,
Wherein the component of the inner medium controlled by the inner conduit control part comprises at least one of an electrolyte concentration, a hydrogen ion concentration, a growth factor, at least one bioactivity factor, and a drug. The biocompatible circular polymer- Cell and stem cell culture devices and systems
8. The method according to any one of claims 1 to 6,
Wherein the external control part controls at least one of a speed, an input amount, and a component of the outer medium of the outer tubular part, and the appearance control part controls the outer tubular tubular salivary duct cell and the stem cell culture using the biocompatible circular polymer. Devices and systems
13. The method of claim 12,
Wherein the composition of the outer medium controlled by the outer appearance control part comprises at least one of an electrolyte concentration, a hydrogen ion concentration, a growth factor, one or more bioactivity factors, and a drug. The biocompatible circular polymer- Cell and stem cell culture devices and systems
The method according to claim 1,
Wherein the biocompatible circular polymer further comprises an environment control part (800) for changing the culture environment of at least one of the cell culture part, the inner tube part and the outer part. Cell culture devices and systems
15. The method of claim 14,
The environmental control unit 800 controls at least one of temperature, illuminance, brightness, tilt, rotation degree, low altitude, diameter, and area of each culture environment in changing the culture environment. Dual perfusion-based salivary duct catheter cell and stem cell culture device and system using conformal circular polymer
The method according to claim 1,
The present invention relates to a device and system for cultivating salivary duct cells and stem cells based on dual perfusion using a biocompatible circular polymer, wherein the whole or a part thereof can be implanted into the body of a human body or an experimental body. The method according to any one of claims 1 to 15,
Wherein at least one of the inner tube portion and the outer tube portion has a diameter or an area thereof changed so as to allow the medium to flow therethrough, wherein the biocompatible circular polymer is used for a dual perfusion-based salivary duct catheter cell and a stem cell culture device and system

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