JP7216267B2 - Method for using culture vessel container, culture processing system, and culture container - Google Patents

Description

TECHNICAL FIELD The present invention relates to a container for a culture vessel, a culture processing system, and a method of using the container for culture , and more particularly, a container for a culture vessel that is provided with a ventilation part having a cleaning filter and accommodates a culture vessel containing cells. and a culture processing system comprising a culture container for culturing cells housed in an incubator and a working container having a glove for working from the outside, and a method of using the culture container .

In culturing cells used in regenerative medicine, it is required to prevent cells from being contaminated with bacteria and microorganisms due to external factors, and to prevent cross-contamination between cells from different patients.
Therefore, conventionally, an isolator system comprising an isolator for performing the work necessary for culture and an incubator for culturing tissues and cells has been known. Working and culturing are performed (Patent Document 1).
In this patent document 1, in order to perform the work necessary for culture such as medium exchange and passage for cells being cultured in an incubator, the incubator is moved and connected to an isolator, and the incubator is maintained in a sterile state. The interior and the interior of the isolator are communicated with each other, and then the culture vessel is moved into the isolator before the above operations are performed.
On the other hand, there is known a culture vessel storage box that has an internal space capable of storing an open-type culture vessel, has a filter that allows gas to pass through but does not allow microorganisms to pass through, and maintains the internal space in a sterile state. (Patent Document 2).

JP 2017-169502 A JP-A-2004-154099

Here, in Patent Document 1, when operations such as medium exchange and subculturing are completed in the isolator, the culture vessel is placed in the incubator again, the incubator is separated from the isolator, and the inside of the isolator from which the incubator is separated is continued. It is decontaminated in preparation for the work to be done.
On the other hand, even in the above incubator, when culturing the cells of one patient is completed and the cells of the next patient are cultured, the inside must be decontaminated to prevent cross-contamination.
A decontamination device is required for such decontamination, and the inside of the isolator must be decontaminated each time a different incubator is connected. There is a problem that is bad.
On the other hand, if the culture container storage box of Patent Document 2 is stored in the incubator, the inside of each culture container storage box is maintained in a sterile state, so there is no need to maintain the inside of the incubator in a sterile state. Even if the incubator is open to the surrounding environment, the culture container storage box can be accommodated.
In addition, if the culture container storage box is used, even if each culture container storage box contains a culture container for a different patient, there is no need to worry about cross-contamination. It becomes possible to culture.
However, even in the case of using the culture container storage box of Patent Document 2, the culture container storage box may be used as an isolator in order to perform the work necessary for culturing the cells during the culture period, such as medium exchange and subculturing. It is necessary to open it under a sterile environment and take out the stored culture vessel.
Therefore, it is necessary to decontaminate the outer surface of the culture container storage box before carrying the culture container storage box into the isolator. There is concern that the treatment may adversely affect cells.
In view of such problems, the present invention provides a container for culture vessels capable of more efficiently performing the work required for culturing cells, and a culture processing system using the container for the culture vessels. It has become.

That is, the container for a culture vessel according to claim 1 includes a ventilation part having a cleaning filter, houses a culture vessel containing cells, and has a connector for connecting to another container. A housing body of a container,
The containing body of the culture vessel is made of a flexible material, has a slit on the side surface of the flexible containing body, and includes a sealable two-ply strip-shaped member that opens and closes the slit,
The connecting portion is characterized by comprising a cylindrical body which is provided so as to surround the strip-shaped member and which can be connected to a cylindrical member provided in the other container.
The container for a culture container according to claim 2 includes a ventilation part having a cleaning filter, holds a culture container containing cells, and has a connector for connecting to another container. a containment body of
The containing body of the culture vessel is configured as a bag made of a flexible material, and is sealed by containing a rubber band inside,
As the connecting portion, a part of the bag is configured to cover the end of a tubular member provided in the other container, and the rubber band is attached to the portion of the bag that covers the tubular member. Hang it and hold it on the tubular member,
In the held state, the portion of the bag body covering the end of the tubular member is opened inside the rubber band, and the opened bag body is bundled outside to be sealed.
Further, the culture processing system according to claim 3 is a culture container for culturing cells by housing the container of the culture container according to either claim 1 or claim 2 in an incubator, Or provided as a work container with gloves for working from the outside,
As the other container, the container of the culture vessel according to claim 1 or claim 2 is provided as the container for culture or the container for work, and the tubular member is used as the container for culture. It is characterized in that it is provided as connecting means for connecting the containing body of the container and another containing body.
The method of using the container for culture according to claim 6 includes a ventilation part having a cleaning filter to accommodate a culture vessel containing cells , and a connecting part for connecting to another container. A method for using a container for culture, comprising:
Prepare a plurality of containers for culture made of a flexible material so that the inside is aseptic,
The container for culture is connected to an isolator whose inside is sterile or a container for work via the connection part, and a plurality of culture containers containing cells are housed in the culture container. is sealed and housed in the same incubator, the cells in each culture container are simultaneously cultured while being housed in the culture container.

According to the invention of claim 1, since the storage body of the culture vessel is provided with the sealable opening/closing part and the connection part formed by surrounding the opening/closing part, the culture vessel can be efficiently placed in the storage body. Cells can be cultured and treated immediately.
According to the third aspect of the invention, a culture container for culturing cells housed in an incubator, a working container having a glove for working from the outside, and airtightly connecting them. Since the culture processing system is provided with the connection means that can be used, cells can be efficiently cultured and processed while the culture vessel is accommodated in the container.

Configuration diagram of the cell culture facility according to the present embodiment Diagram for explaining the container for culture Diagram explaining the working container The figure which shows the connection state of the container for culture|cultivation, and the container for operation|work. The figure which shows the connection state of the housing body of a culture container, and an isolator. The figure explaining the container for operation|work concerning 2nd Example. The figure explaining the connection means concerning 3rd Example.

The present invention will be explained below with reference to the illustrated embodiments. FIG. 1 shows a cell culture facility 1, which is a facility for culturing cells collected from patients in a culture work chamber 2 whose interior is maintained at a required degree of cleanliness. .
In the culture work chamber 2, there are an isolator 3 whose interior is maintained in a sterile state and which performs culture work necessary for culturing cells, an incubator 4 which stores cells therein and cultures the cells, and an incubator 4, which will be described later. A working table 5 is provided for carrying out minor culturing work.

In this embodiment, the cells are cultured in a culture vessel 6 (see FIG. 2) such as a petri dish or flask. It is designed to be moved while stored in 7.
A plurality of the culture containers 7 can be housed in the incubator 4, and in the incubator 4, cells can be cultured while the culture containers 6 are housed in the culture containers 7. It has become.
Furthermore, in this embodiment, minor culture work such as culture medium exchange can be performed on the workbench 5 without using the isolator 3. The container 8 is prepared in advance in the culture working chamber 2, and the working container 8 is connected to the culture container 7 to perform the above operation.

Although the interior of the culture work chamber 2 is maintained at a required cleanliness level by an environment maintenance means (not shown), it is possible for workers to enter the chamber.
The interior of the isolator 3 can be decontaminated by decontamination means 9 for supplying a decontamination medium such as hydrogen peroxide vapor shown in FIG. A pass box 3a for bringing in from the outside and gloves 3b for workers to work in the internal space are provided.
The container 7 for culture can be connected to the outside of the isolator 3 , and the culture vessel 6 can be moved between the isolator 3 and the isolator 3 .
The inside of the incubator 4 is maintained at a temperature and humidity suitable for culturing cells, and is supplied with a gas effective for culturing, such as carbon dioxide gas. In addition, it is possible to accommodate a plurality of containers 7 for culture, and an opening/closing door 4a is provided on the front surface of the incubator 4 for taking in and out the containers 7 for culture.
The workbench 5 is a space for connecting the container for culture 7 and the container for work 8 to perform a required culture work. A maintained clean bench can be used.
Since the isolator 3 and the incubator 4 are conventionally known, further explanation will be omitted.

As shown in FIG. 2, the container for culture 7 includes a substantially rectangular container 11, a ventilation unit 12 having a cleaning filter provided on the upper part of the container 11, and a side part of the container 11. and a connecting portion 14 provided so as to surround the opening/closing portion 13 .
The accommodating portion 11 has a configuration in which a flexible transparent material such as vinyl is three-dimensionally molded so as to ensure a certain degree of rigidity. A plurality of culture vessels 6 can be accommodated in the accommodating part 11, and the shape and size are such that the operator can easily carry them.
An identification mark 15 such as an IC tag or a bar code is attached to a position of the container 11 that is easy to see. The culture container 6 that is housed and the cells that are housed therein can be specified, and the data thereof can be confirmed.
The cleaning filter provided in the ventilation part 12 is a cleaning filter such as a HEPA filter that allows air to pass between the inner space and the outside of the container for culture 7 but does not allow bacteria and microorganisms to pass through. It is
Therefore, when the internal space of the container for culture 7 is kept sterile, the ventilation part 12 is designed to allow gas flow while maintaining the sterile condition of the internal space by the cleaning filter. When the container for culture 7 is housed in the incubator 4, the internal space of the container for culture 7 is maintained at the same temperature and humidity as in the incubator 4, and gas such as carbon dioxide gas flows in. It has become.

The opening/closing part 13 has a slit 13a opened in the side surface of the housing part 11 and is provided along the slit 13a on the outer surface of the housing part 11 so as to close the slit 13a outside the housing part 11. It is composed of two-ply strip-shaped members 13b, 13b.
The strip-shaped members 13b, 13b are formed of a flexible material like the accommodating portion 11, and are joined at both ends in the longitudinal direction. A concave portion is formed continuously in the longitudinal direction, and by fitting the convex portion into the concave portion, the two-ply strip-shaped members 13b, 13b are sealed, and the opening/closing portion 13 is closed by sealing the slit 13a. is now possible.
Further, a connecting portion 14 is provided so as to surround the opening/closing portion 13 configured as described above. The connecting portion 14 is made of a flexible material like the accommodating portion 11, surrounds the strip-shaped members 13b, 13b, and stands on the outer surface of the accommodating portion 11 higher than the strip-shaped members 13b, 13b. It is composed of a cylindrical body 14a that is bent.
With such a configuration, the two-ply strip-shaped members 13b, 13b of the opening/closing part 13 are separated from the sealed state, and the convex part is pulled out from the concave part, so that the inside of the cylindrical body 14a of the connecting part 14 is closed. The opening/closing part 13 can be opened.

Further, as a container for the culture vessel of the present invention, a working container 8 is provided in addition to the culture container 7 .
As shown in FIG. 3, the working container 8 includes a substantially cylindrical container 21, a ventilation unit 22 having a cleaning filter provided on the outer peripheral surface of the container 21, and a ventilation unit 22 provided on the outer peripheral surface. an opening/closing portion 24 provided on the end surface 21a of the accommodating portion 21; and a connection portion 25 provided so as to surround the opening/closing portion 24.
The accommodating part 21 of the working container 8 is formed by three-dimensionally molding a flexible transparent material such as vinyl, and a plurality of culture vessels 6 can be accommodated inside the accommodating part 21. and is configured in a shape and size that can be easily carried by an operator.
The cleaning filter provided in the ventilation part 22 is a cleaning filter such as a HEPA filter that allows air to flow between the inner space and the outside of the working container 8 but does not allow bacteria and microorganisms to pass. Thus, the container 8 for working can maintain the sterile condition of the internal space in the same way as the container 7 for culture.
The glove 23 is provided in an opening formed on the outer peripheral surface of the container 21, and is worn by the operator by inserting his/her hand from the outside to perform minor work associated with culture in the inner space of the working container 8. It is possible.
It should be noted that the glove 23 may be omitted if the containing portion 21 is made of a more flexible material such as a bag and the material inside the containing portion 21 can be handled from the outside. is possible.

The opening/closing portion 24 and the connection portion 25 of the working container 8 are provided on the end surface 21 a of the cylindrical container 21 .
That is, the opening/closing portion 24 includes a slit 24a opened in the end face 21a of the housing portion 21, and a slit 24a which is closed inside the housing portion 21, and which extends along the slit 24a on the inner surface of the end face 21a. It is composed of two strip-shaped members 24b, 24b provided.
The strip-shaped members 24b, 24b are formed of a flexible material like the accommodating portion 21, and are joined at both ends in the longitudinal direction. is formed with recesses continuously in the longitudinal direction.
With such a configuration, by fitting the convex portion to the concave portion, the two-ply strip-shaped members 24b and 24b can be sealed, the slit 24a can be sealed, and the opening/closing portion 24 can be closed. .
Further, a connecting portion 25 is provided so as to surround the opening/closing portion 24 configured in this way. The connecting portion 25 is made of a flexible material like the accommodating portion 21, and is composed of a cylindrical body 25a that surrounds the slit 24a of the opening/closing portion 24 and stands on the outer surface of the end face 21a.
With such a configuration, the two-layer strip-shaped members 24b, 24b of the opening/closing section 24 are separated from the sealed state inside the housing section 21 via the glove 23, and the connecting section 25 is pulled out from the concave section by extracting the convex section. The closed opening/closing portion 24 can be opened inside the cylindrical body 25a.

In addition to the container 7 for culture and the container 8 for work, as shown in FIG. A processing system is configured.
The connecting means 26 is composed of a cylindrical member 26a made of metal or resin, and its outer diameter is formed to be smaller than the inner diameter of the cylindrical body 14a of the connecting portion 14 of the container 7 for culture. ing.
As a result, the tip of the cylindrical body 14a of the connecting portion 14 of the container 7 for culture is covered with one end side of the cylindrical member 26a, and a rubber band 26b attached to the connecting means 26 is hung from above the cylindrical body 14a. Thus, the cylindrical body 14a can be held in close contact with the outer peripheral surface of the cylindrical member 26a, and the cylindrical body 14a and the cylindrical member 26a are connected while maintaining airtightness.
Further, similarly to the case where the container 7 for culture is connected to the connecting means 26, the end of the tubular body 25a of the connecting portion 25 of the container 8 for operation is connected to the container 7 for culture of the tubular member 26a. , and a rubber band 26c attached to the coupling means 26 is hung from the top of the cylindrical body 25a, so that the cylindrical body 25a is brought into close contact with the outer peripheral surface of the cylindrical member 26a. The cylindrical body 25a and the cylindrical member 26a are airtightly connected to each other.
In this manner, by connecting the connecting portions 14 and 25 of the container for culture 7 and the container for working 8 to both ends of the cylindrical member 26a of the connecting means 26, the container for culture 7 and the container for working are connected. The space inside the cylindrical member 26a and the space inside the connection portions 14 and 25 can form a connection space S isolated from the outside.
In the state where the connecting space S is formed, the glove 23 of the working container 8 is used to open the opening/closing portion 24 of the working container 8, and the cylindrical member 26a is opened from the opened opening/closing portion 24. Then, the glove 23 is inserted to open the opening/closing part 13 of the container 7 for culture.
Then, the internal spaces of the container for culture 7 and the container for work 8 communicated with each other through the cylindrical member 26a, and the container for culture 7 was accommodated using the glove 23 of the container for work 8. It is possible to take out the culture vessel 6 into the internal space of the work container 8 and perform the required work.

In this embodiment, decontamination means 27 for supplying a decontamination medium to the inner side of the cylindrical member 26a of the connection means 26 is provided so that the portion exposed to the connection space S is decontaminated. ing.
The portions to be decontaminated exposed in the connecting space S include the inner side of the cylindrical body 14a of the connection part 14 in the culture container 7 exposed to the outside, the opening/closing part 13 and its surrounding surface, and the working container. 8, the inner side of the tubular body 25a of the connecting portion 25, the opening/closing portion 24 and its surrounding surface, and the inner side of the tubular member 26a in the coupling means 26. As shown in FIG.
The decontamination means 27 in this embodiment includes a supply pipe 28 for supplying a decontamination gas composed of hydrogen peroxide vapor as a decontamination medium to the inside of the tubular member 26a of the connecting means 26, and decontamination from the inside of the tubular member 26a. A discharge pipe 29 for discharging gas is provided. An on-off valve 28a provided on the supply pipe 28 is opened to supply the decontaminated gas, and an on-off valve 29a provided on the discharge pipe 29 is opened to discharge the decontaminated gas. At the same time, clean gas is supplied from the decontamination means 27 to perform aeration.
Note that the decontamination means 27 is not limited to supplying a decontamination gas as a decontamination medium, and may be one that sprays a sterilizing liquid such as alcohol. Alternatively, a simple decontamination method may be adopted in which the decontamination means 27 is not provided and the operator sprays a disinfectant liquid on the portion exposed to the connection space S after the connection by the connection means 26 .
In this case, a spray container of the sterilant is stored in advance inside the container 8 for work, and at the same time when the opening/closing part 24 is opened, the spray is sprayed inside the cylindrical member 26a. The opening/closing part 13 is opened.
In addition, when the cleanliness of the culture work chamber 2 is sufficiently high, the inside of the cylindrical member 26a, the opening and closing parts 13 and 24, and their surroundings are sprayed with a sterilizing solution in advance, and then the connection means 26 is used for housing for culture. You may make it connect the body 7 and the container 8 for a work.
By decontaminating the connecting space S in this way, even if the opening/closing parts 13 and 24 of the container 7 for culture and the container 8 for work are opened, the internal space of the container 7 for culture and the space for work can be maintained. It is possible to communicate with the internal space of the container 8 while maintaining a sterile state.

The container 7 for culture and the container 8 for work can be connected to the isolator 3, and FIG. 5 shows the state in which the container 7 for culture is connected.
A connecting means 16 for connecting the culture container 7 and the working container 8 is provided on the outer surface of the isolator 3. At the position where the connecting means 16 is provided, a glove can be applied from the inside of the isolator 3. An opening/closing door 17 is provided which can be operated by 3b.
The connection means 16 includes a connection member 16a, which is composed of a cylindrical member made of metal or resin, similar to the cylindrical member 26a of the connection means 26. Its outer diameter is It is formed so as to be smaller than the inner diameter dimension of the cylindrical body 14a of the connecting portion 14 of the container 7 and the cylindrical body 25a of the connecting portion 25 of the container 8 for work.
As a result, the ends of the cylindrical body 14a and the cylindrical body 25a are covered with the ends of the connecting member 16a, and a rubber band 16b attached to the connecting means 16 is hung from the top of the cylindrical body 14a or the cylindrical body 25a, whereby the cylindrical body 14a can be Alternatively, the cylindrical body 25a can be held in close contact with the outer peripheral surface of the connecting member 16a, and the cylindrical body 14a or the cylindrical body 25a and the connecting member 16a are connected while maintaining airtightness. The working container 8 can be connected to the isolator 3 .
Further, by connecting in this way, between the opening/closing portion 13 of the container for culture 7 or the opening/closing portion 24 of the container for working 8 and the opening/closing door 17 of the isolator 3, the inner side of the connection member 16a is provided. A connection space SA isolated from the outside is formed by the space, the connection portions 14 and 25 and the opening/closing door 17 .
In this embodiment, the decontamination means 9 provided in the isolator 3 decontaminates the portion exposed to the connection space SA. The portion to be decontaminated exposed in the connection space SA includes the inner side of the cylindrical body 14a of the connection portion 14 of the culture container 7 exposed to the outside, the opening/closing portion 13 and its peripheral surface, or the working container. 8, the opening/closing portion 24 and its peripheral surface, the inside of the connecting member 16a of the connecting means 16, and the outer surface of the opening/closing door 17 of the isolator 3. FIG.
The decontamination means 9 in this embodiment includes a supply pipe 9A for supplying a decontamination gas composed of hydrogen peroxide vapor as a decontamination medium to the inside of the connection member 16a of the connection means 16, and the decontamination gas is supplied from the inside of the connection member 16a. A discharge pipe 9B for discharging is provided, and the on-off valve 9Aa provided on the supply pipe 9A is opened to supply the decontaminated gas, and the on-off valve 9Ba provided on the discharge pipe 9B is opened to discharge the decontaminated gas. Clean gas is supplied from the decontamination means 9 to perform aeration.
With such a configuration, the internal space of the isolator 3 can be communicated with the internal spaces of the culture container 7 and the working container 8 while maintaining a sterile state.
In addition, since the connection space SA formed by the connection member 16a, the connection portions 14 and 25, and the open/close door 17 is sufficiently narrower than the internal space of the isolator 3, the internal space of the isolator 3 can be used for the above decontamination. It can be performed in a short time compared with the case of decontamination by the means 9.

A procedure for culturing cells using the housing body of the culture vessel and the culture processing system having the above configuration will be described. Since cell culture methods, treatment methods, and the like are conventionally known, detailed description of each step will be omitted.
In addition, the container for culture 7 and the container for work 8 are prepared in a sterile state by sterilizing the inside by radiation sterilization with gamma rays, electron beams, etc. while sealing the inside in advance, and discarded after use as a disposable product. It is assumed that A plurality of containers 7 for culture and containers 8 for work are prepared according to the number of corresponding patients, and at least one connecting means 26 is prepared.
First, a seeding operation for containing cells in the culture vessel 6 is performed inside the isolator 3 .
At this time, using the pass box 3a, the cells collected from the patient, the unused culture vessel 6, and other materials and instruments necessary for the seeding work are carried into the isolator 3.
Inside the isolator 3, a robot (not shown) or an operator wearing the glove 3b performs a seeding operation using the materials and tools described above, and stores cells together with a culture solution in a plurality of culture vessels 6, respectively.

Next, an operation of accommodating the culture vessel 6 prepared inside the isolator 3 in the container for culture 7 is performed.
First, the container 7 for culture is connected to the connection means 16 of the isolator 3 in advance, and the connection space SA formed inside the connection member 16a is decontaminated using the decontamination means 9 . The work of decontaminating the connection space SA may be performed in parallel with the seeding work.
After the connection space SA has been decontaminated, an operator wearing the glove 3b of the isolator 3 opens the opening/closing door 17 of the isolator 3 and opens the opening/closing portion 13 of the container 7 for culture. , the culture vessel 6 in the isolator 3 is accommodated in the container 7 for culture, and then the opening/closing portion 13 is closed and the opening/closing door 17 is closed.
At this time, since the inner space of the isolator 3, the inner space of the container for culture 7, and the connection space SA are maintained in a sterile state, the culture container 6 can be accommodated in the container for culture 7 under a sterile condition. can be done.

Next, the operator removes the container for culture 7 from the isolator 3 and places it in the incubator 4 to start cell culture.
Since the culture container 7 is portable, the worker can carry the culture container 7 to the incubator 4 and store it inside the incubator 4 as it is.
Here, the inside of the culture work chamber 2 and the incubator 4 is not guaranteed to be sterile, but the container for culture 7 has a cleaning filter in the ventilation part 12, so that the inside is kept sterile. Cells can be cultured under aseptic conditions regardless of the environment of the culture chamber 2 or the internal space of the incubator 4 .
When the container 7 for culture is removed from the incubator 3, the container 8 for work is connected to the incubator 3, and the materials, instruments, etc. necessary for working in the container 8 for work are stored in the isolator 3. Let
In this case, as in the case of the culture container 7, the connection space SA is decontaminated, the working container 8 and the incubator 3 are communicated, and the opening/closing door 17 is opened inside the isolator 3. However, the opening/closing portion 24 of the container 8 for work is opened by a worker wearing a glove 23 from the inside of the container 8 for work. Also, when they are to be separated, they are separated after closing them respectively.

In this embodiment, the incubator 4 can accommodate a plurality of containers 7 for culture, each container 7 for culture contains a culture container 6 containing cells of a different patient, and these containers are placed in the same incubator. 4 can be cultured simultaneously.
That is, since each container for culture 7 is provided with a cleaning filter in the ventilation part 12, cross-contamination occurs between the cells in the culture vessels 6 housed in the other containers for culture 7. never.
In addition, since the container for culture 7 is attached with an identification mark 15, the contained culture container 6 and the cells contained therein are specified, and the data can be confirmed from the outside of the container for culture 7. This ensures that cells are not mixed up.

Next, after a predetermined culture period has passed in the incubator 4, a culture solution exchanging operation for exchanging the culture solution in the culture container 6 is performed.
The operator takes out the corresponding container for culture 7 from the incubator 4 and moves it to the workbench 5 . On the other hand, on the workbench 5, a work container 8 containing materials, instruments, etc. necessary for the culture medium exchange work and the connecting means 26 are prepared in advance.
Then, the operator connects the working container 8 to the culture container 7 using the connecting means 26, and the decontamination means 27 inserts a decontamination medium inside the cylindrical member 26 of the connecting means 26. Decontamination and aeration are performed by supplying hydrogen oxide vapor or the like.
Subsequently, the operator puts on the glove 23 of the working container 8, opens the opening/closing part 24 of the working container 8 and the opening/closing part 13 of the culture container 7, and When the inside of the working container 8 is communicated, the culture vessel 6 housed in the culture container 7 is moved to the working container 8 .
Then, the worker uses the glove 23 to replace the culture solution in the culture vessel 6 inside the working container 8, and the used culture solution is stored in the working container 8 in advance. Collect in a separate waste container.
The culture container 6 whose culture solution has been exchanged is again accommodated in the container for culture 7 by the operator, and after closing the opening/closing parts 13 and 24, the container for culture 7 is detached from the connecting means 26, and again. It is housed in the incubator 4.
Before detaching the container 7 for culture, if a decontamination medium is supplied to the inner side of the cylindrical member 26a of the connection means 26 by the decontamination means 27 and decontamination and aeration are performed, the cell-derived virus spread and infection can be prevented.
On the other hand, with respect to the working container 8, the connecting means 26 can be removed in a sealed state, and can be disposed of as medical waste together with the drain container and other instruments still contained therein. virus spread and infection can be prevented.

According to the present embodiment, minor culturing work such as the culture medium exchange work can be performed by connecting the culturing container 7 and the working container 8. The culture work can be performed more efficiently than performing the work inside.
In other words, while the culture medium exchange operation is performed in the isolator 3, the culture operation for the cells of other patients cannot be performed, and when the cells of other patients are handled, it is necessary to decontaminate the inside of the isolator 3. An extra working time will be taken for the decontamination work.
On the other hand, in the present embodiment, minor culturing work such as culture medium exchange work can be performed without using the isolator 3. The cells of different patients can be efficiently treated without the accompanying decontamination work.
It should be noted that the work inside the working container 8 can be performed using the glove 23 while the opening/closing portion 24 is sealed, even in a state in which it is not connected or communicated with the culture container 7. can.

Thereafter, when a predetermined culture period has elapsed, a subculturing operation is performed in which the proliferated cells are transferred to another culture vessel 6. This operation is performed within the isolator 3.
Therefore, the operator takes out the corresponding culture container 7 from the incubator 4, connects it via the connecting means 16 of the isolator 3, moves the contained culture container 6 into the isolator 3, and In 3, the subculturing work is performed.
In this case, when the culture container storage box described in Patent Document 2 is used, the outer surface of the culture container storage box must be decontaminated by the pass box 3a in order to carry it into the isolator 3. Since the contamination work has a larger volume than the decontamination of the connection space SA in the connection means 16, the processing takes time.
Also, when using a decontamination gas, there is a risk that the decontamination gas will flow into the interior of the filter and adversely affect the cells. Therefore, there is concern about the influence on cells due to the inability to control temperature, humidity, and gases such as carbon dioxide during that time.
When the subculturing operation is completed in this way and the culture container 6 is housed in the container for culture 7 again, the opening/closing door 17 and the opening/closing part 13 are closed, the container for culture 7 is separated from the isolator 3, This is stored in the incubator 4 as it is.
Since this work can also be performed by connecting the container for culture 7 to the isolator 3, the work can be performed more efficiently and safely than when the container for culture 7 is carried into the isolator 3. .

In addition to the work described here, if there is a culture work related to cell culture, depending on the materials and work content required for the work, the work will be performed using the isolator 3, or It is only necessary to decide whether to carry out work using the container 8 .
After the cell culture is completed, the culture container 6 can be carried out from the cell culture facility 1 to an external medical institution or the like while being housed in the container 7 for culture.
In addition, by using the housing body of the culture vessel and the culture processing system of the present invention, it is possible to more flexibly perform the culture processing of cells used in regenerative medicine.
That is, in a facility such as a cell bank that stores individual cells, the cells are stored in the container for culture 7, and the culture solution, materials, instruments, etc. are aseptically placed in the container for work 8 by the manufacturer. They are stored and shipped, and the container 7 for culture and the container 8 for work are carried into a cell culture facility or a cell processing facility.
In these facilities, culture vessels containing various patient-derived cells are housed in culture containers 7 and handled, and they are managed by identification labels 15 such as IC tags and barcodes.
In cell culture facilities and cell processing facilities, not only simple culture but also operations such as cell amplification, differentiation induction, tissue construction, separation, purification, packing, preservation, etc. are performed. By storing and transporting the product in the container 7 for use, management by the identification mark 15 becomes possible while preventing contamination.
In addition, it is not necessary to complete all the steps in one facility, and it is possible to perform treatments such as culturing and processing while changing facilities and vendors for each step.
In addition, by using the working container 8, it is possible to work even in facilities that are not equipped with facilities such as the culture working room 2 that maintains a predetermined degree of cleanliness and the isolator 3 that ensures sterility. It is possible to appropriately treat waste while preventing infection and the like.
Then, the cells can be transferred to the process while being accommodated in the container for culture 7, and finally, in the state of being accommodated in the container for culture 7, the cells are brought into a facility such as a medical institution, and the cells are required. It is possible to provide cells, tissues, and cell products, and it is possible to realize consistent management from cell providing institutions such as cell banks, manufacturers of raw materials and materials to final medical institutions.

FIG. 6 shows a container for a culture vessel according to the second embodiment, and is a diagram mainly for explaining a container that can be used in place of the working container 8 and how to use it.
The work container 108 in this embodiment includes a container 121 made of a flexible resin bag, a vent 122 provided with a cleaning filter provided in the container 121, and a filter provided in the container 121. The structure corresponding to the opening/closing part 24 and the connection part 25 of the working container 8 can cover the tubular member 26a of the connecting means 26, and can be bundled after opening. The reason is that the accommodating portion 121 made of the bag has a margin for sealing. Note that a ring-shaped rubber band 131 is housed inside the housing portion 121 in advance.
The working container 108 of this embodiment is hermetically sealed except for the ventilation part 122, and the inside is sterilized by radiation sterilization such as gamma rays and electron beams. The outside air is purified, and the invasion of bacteria and microorganisms from the outside is prevented, and the inside is maintained in a sterile state.

A method of connecting the working container 108 according to the present embodiment to the connecting means 26 and connecting it to the culture container 7 will be described below.
First, as shown in FIG. 6( a ), the operator uses the glove 123 to operate the working container 108 from the inside of the container 121 while the container 121 is not opened. Part of the portion 121 covers the end of the cylindrical member 26a of the connecting means 26. As shown in FIG. At this time, since the air is freely circulated by the ventilation part 122, workability is good.
Subsequently, the operator operates the rubber band 131 inside the bag containing portion 121 to hang the rubber band 131 on the portion of the containing portion 121 that covers the connecting member 26a, thereby tightening the outer circumference of the cylindrical member 26a. The open cylindrical member 26a is closed by holding it on the surface.
In this state, since the storage portion 121 is not opened, the sterile state of the internal space is maintained. A connecting space S isolated from the outside is formed inside the .
After that, the decontamination medium is supplied to the connecting space S by the decontamination means 27 in the same manner as in the case of connecting the container for culture 7 and the container for working 8 in the first embodiment. The opening/closing portion 13 and the connection portion 14 of the container 7 for culture that are exposed, the inner peripheral surface of the tubular member 26, and the outer surface of the container portion 121 are decontaminated.

Subsequently, as shown in FIG. 6(b), the operator pushes the end opening of the tubular member 26a of the connecting means 26 inside the rubber band 31 via the glove 123 from the inside of the accommodating portion 121. The covering part of the container 121 is broken, thereby opening the container 121 and further opening the opening/closing part 13 of the container 7 for culture.
In this way, by unsealing a part of the container 21 inside the rubber band 131, the internal space of the working container 108 and the internal space of the culture container 7 are sterilized via the connection means 26. It can be communicated while maintaining.
After that, as in the first embodiment, the operator uses the glove 123 to move the culture container 6 accommodated in the container for culture 7 into the container for work 108, and performs the required culture work. It can be carried out.

When the work is completed, the culture container 6 is housed in the container 7 for culture again, the opening/closing part 13 is closed, and as shown in FIG. A portion of the accommodating portion 121 near the cylindrical member 26a of the connecting means 26 is bundled and squeezed, and the squeezed portion is fixed in a sealed state by, for example, a tape, band, belt, string, or the like. As a result, the internal space of the housing portion 121 is isolated from the external space, and the opened housing portion 121 is closed.
After that, the operator removes the rubber band 131 attached to the cylindrical member 26a and separates the container 121 from the end of the cylindrical member 26a, thereby removing the working container 108 together with the materials inside. Can be disposed of as medical waste.

In the working container 108 of the second embodiment, a part of the container 121 as a connecting portion covers the end opening of the tubular member 26a and is held by a rubber band 131, and a part of the container 121 is held. As an opening/closing part, an operator opens it, and then the accommodating part 21 is bundled, squeezed, and fixed outside to be closed. The working container 108 can be obtained as a container that is cheaper than the embodiment.

FIG. 7 shows the culture processing system according to the third embodiment, and is a diagram specifically for explaining the connection means 26 and its usage.
The connecting means 26 of this embodiment is composed of a cylindrical member 26a, as in the first embodiment, and the connecting portions 14 and 25 of the container 7 for culture and the container 8 for work are connected to both ends thereof. It's like
As in the first embodiment, the decontamination medium is supplied by the decontamination means 27 to the connection space S formed inside the tubular member 26a.
An opening is formed in the outer peripheral surface of the cylindrical member 26a of this embodiment, and a glove 32 that can be worn by the operator is provided in the opening.
By wearing the glove 32, the operator can put his or her hand inside the cylindrical member 26a to open the opening/closing part 13 of the container 7 for culture, and the culture vessel 6 can be opened inside the cylindrical member 26a. can be moved.
Although one glove 32 is shown in FIG. 7, the glove 32 is also provided at the opposing portion of the cylindrical member 26a so that the hands can be inserted from both sides.

By using the connecting means 26 as in the present embodiment, the container for culture 7 is connected to both sides of the cylindrical member 26a, and work is performed inside one of the containers for culture 7 using the glove 32. In this case, the work container 8 can be omitted.
In addition, the culture vessels 6 accommodated in the container for culture 7 can be moved to each other, and cells from the same patient can be organized, for example.

In each of the above examples, when a simple decontamination method in which an operator sprays a sterilizing solution can be adopted, the connection means 26 is omitted in the first example, and the connection portion 14 of the culture container 7 is removed. and the connecting portion 25 of the working container 8 may be directly connected.
Similarly, in the second embodiment as well, the connection means 26 is omitted, and a portion of the housing portion 121 of the working container 108 is directly placed over the connecting portion 14 of the culture container 7 to cover the container. It is conceivable to connect by holding with a rubber band 131 .

1 cell culture facility 2 culture working chamber 3 isolator 4 incubator 5 workbench 6 culture vessel 7 container for culture 8 container for work 11, 21 container 12, 22 ventilation part 13, 24 opening/closing part 14, 25 connecting part 23 glove 26 connecting means S connecting space

Claims (6)

A container for a culture container, comprising a ventilation part having a cleaning filter, containing a culture container containing cells , and having a connector for connecting to another container,
The containing body of the culture vessel is made of a flexible material, has a slit on the side surface of the flexible containing body, and includes a sealable two-ply strip-shaped member that opens and closes the slit,
A container for a culture vessel, wherein the connecting part is provided so as to surround the strip-shaped member and includes a tubular body connectable to a tubular member provided in the other container. A container for a culture container, comprising a ventilation part having a cleaning filter, containing a culture container containing cells, and having a connector for connecting to another container,
The containing body of the culture vessel is configured as a bag made of a flexible material, and is sealed by containing a rubber band inside,
As the connecting portion, a part of the bag is configured to cover the end of a tubular member provided in the other container, and the rubber band is attached to the portion of the bag that covers the tubular member. Hang it and hold it on the tubular member,
In the held state, the portion of the bag covering the end of the tubular member is opened inside the rubber band, and the opened bag is bound and sealed outside. Container housing. A work in which the housing body of the culture vessel according to claim 1 or claim 2 is housed in an incubator for culturing cells, or work provided with gloves for performing the work from the outside. provided as a container for
As the other container, the container of the culture vessel according to claim 1 or claim 2 is provided as the container for culture or the container for work, and the tubular member is used as the container for culture. 1. A culture processing system, comprising a connecting means for connecting a housing body of a container and another housing body . 4. The culture processing system according to claim 3, further comprising decontamination means for supplying a decontamination medium to the inner side of the cylindrical member of said connection means. 5. The culture processing system according to claim 3, wherein the cylindrical member of said connecting means is provided with a glove for an operator to insert his/her hand into the cylindrical member. A method of using a container for culture comprising a ventilation part having a cleaning filter, containing a culture container containing cells, and having a connector for connecting to another container, comprising:
Prepare a plurality of containers for culture made of a flexible material so that the inside is aseptic,
The container for culture is connected to an isolator whose inside is sterile or a container for work via the connection part, and a plurality of culture containers containing cells are housed in the culture container. By sealing and storing in the same incubator a plurality of culture containers containing the culture container, the cells in each culture container are simultaneously cultured while being accommodated in the culture container. how the body is used.

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