JP2012040037A - Biological tissue treating device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a biological tissue treating device successively performing interrupted treatment according to a state in time of error restoration when the treatment is stopped by occurrence of an error.SOLUTION: This biological tissue treating device includes: a treatment vessel for performing cell treatment of a fat tissue to generate a cell suspension; a sensor module 11 detecting abnormality in the cell treatment; an abnormality stop part 16 stopping the cell treatment when the abnormality is detected by the sensor module 11; a resumption position setting part 17 setting a resumption position in a process of the cell treatment stopped by the abnormality stop part 16 according to a state of the fat tissue; and a treatment resumption part 18 resuming the cell treatment stopped by the abnormality stop part 16 from the resumption position set by the resumption position setting part 17 when the abnormality is dissolved.

Description

  The present invention relates to a biological tissue processing apparatus.

  2. Description of the Related Art Conventionally, a biological tissue processing apparatus is known in which adipose tissue collected from a human is agitated in a container together with a digestive enzyme solution and fat-derived cells are isolated from the adipose tissue (see, for example, Patent Document 1).

  It is disclosed that this biological tissue processing apparatus includes an interface that allows a user to set parameters necessary for processing. Also, it is disclosed that when an error occurs in this biological tissue processing apparatus, a warning is given to the user through the above-described interface.

International Publication No. 2005/012480

  By the way, in the biological tissue processing apparatus for extracting cells from the biological tissue, when the processing is stopped due to the occurrence of an error, it is desirable to continue the interrupted processing in order not to waste the collected biological tissue. In particular, since fat cells are more burdensome on the patient than to collect blood, it is important to continue processing according to the state at the time of error recovery. However, the above-described Patent Document 1 does not disclose an operation when an error occurs.

  The present invention has been made in view of the above-described circumstances, and when a process is stopped due to the occurrence of an error, a biological tissue capable of continuously performing a process suspended according to a state at the time of error recovery. An object is to provide a processing apparatus.

In order to achieve the above object, the present invention employs the following means.
The present invention provides a processing container that generates a cell suspension by processing a living tissue, an abnormality detecting unit that detects an abnormality in the cell processing, and the cell processing when an abnormality is detected by the abnormality detecting unit. An abnormal stop means for stopping the operation, and a restart position setting means for setting a restart position on the cell processing step stopped by the abnormal stop means according to the state of the biological tissue,
When the abnormality is resolved, a biological tissue processing apparatus including a process restarting unit that restarts the cell processing stopped by the abnormality stopping unit from the restart position set by the restart position setting unit is employed.

  According to the present invention, when an abnormality occurs in the cell processing performed in the processing container, the abnormality is detected by the abnormality detecting unit, and the cell processing is stopped by the abnormality stopping unit. On the other hand, the restart position on the cell processing process stopped by the abnormal stop means is set by the restart position setting means according to the state of the living tissue. When the abnormality is resolved, the cell processing stopped from the restart position set by the restart position setting unit is restarted by the process restarting unit.

  In this way, when cell processing is stopped due to the occurrence of an abnormality, the stopped cell processing can be restarted according to the state of the biological tissue at the time of recovery from the abnormality, and the collected biological tissue is wasted The cell suspension can be generated by continuing the cell treatment of the living tissue without doing so.

  In the above invention, when the cell processing is resumed by the input means for inputting the operation parameter of the cell treatment, the storage means for storing the operation parameter input to the input means, and the process resumption means, the storage is performed. Reading means for reading the operation parameter stored in the means, and the processing resumption means may restart the cell processing using the operation parameter read by the reading unit.

  In this way, when cell processing is stopped by the abnormal stopping means, when the cell processing is restarted by the processing restarting means, the operation parameters input to the input means and stored in the storage means are read out means. The cell processing can be continuously performed based on the operation parameters. As a result, when cell processing is stopped due to the occurrence of an abnormality, the suspended cell processing can be resumed under appropriate operating conditions, and cell processing of the biological tissue can be continued without wasting the collected biological tissue. A cell suspension can then be produced.

In the above invention, the storage means may store history information of the cell processing at the time when the cell processing is stopped by the abnormality stopping means.
In this way, when the cell processing is stopped by the abnormal stopping means, when the cell processing is restarted by the processing restarting means, the cell processing is performed based on the history information of the cell processing at the time when the cell processing is stopped. Processing can be continued. As a result, when cell processing is stopped due to the occurrence of an abnormality, the suspended cell processing can be resumed from the state before the stop, and the cells of the living tissue can be recovered without wasting the collected living tissue. Processing can be continued to produce a cell suspension.

The said invention WHEREIN: It is good also as providing the display means which displays the state of the said biological tissue at the time of the said cell processing being stopped by the said abnormal stop means.
By doing in this way, it is possible to restart the processing after confirming the state of the living tissue with the display means at the time when the cell processing is stopped, and to resume the cell processing suspended under more appropriate conditions Can do.

In the above-mentioned invention, it is good also as providing the display means which displays the completion and uncompleted status of each processing among a series of processings until the cell which is the final product is extracted from the living tissue.
By doing in this way, it is possible to restart the processing after confirming the completion and incomplete status of each processing with the display means, and it is possible to restart the cell processing suspended under a more appropriate condition.

In the above invention, the resumption position setting means may set a resumption position in the cell treatment process according to an elapsed time from when the cell treatment is stopped by the abnormal stop means to when the cell treatment is resumed. .
In the digestion vessel, the digestion of the living tissue with the digestive enzyme solution continues even while the cell treatment is stopped by the abnormal stopping means. Therefore, the digestion enzyme is determined by determining the resumption position in the cell treatment process (that is, changing the cell treatment time) according to the elapsed time from when the cell treatment is stopped by the abnormal stopping means to when it is resumed. Damage to cells due to can be reduced.

In the above invention, the resumption position setting means may set a resumption position in the cell treatment process according to the treatment time of the cell treatment at the time when the cell treatment is stopped by the abnormal stop means. Good.
By setting the resumption position in the cell treatment process according to the treatment time of the cell treatment when the cell treatment is stopped by the abnormal stopping means (that is, changing the cell treatment time), the cell by the digestive enzyme Damage to the can be reduced.

In the above invention, the restart position setting means may set a restart position in the cell processing step according to the temperature in the processing container.
Since the action of the digestive enzyme changes depending on the temperature in the digestion vessel, the speed at which the cell treatment proceeds differs. Therefore, by setting the restart position in the cell treatment process according to the temperature in the digestion vessel (that is, changing the cell treatment time), damage to the cells due to the digestive enzyme can be reduced.

  According to the present invention, when processing is stopped due to the occurrence of an error, there is an effect that processing interrupted according to the state at the time of error recovery can be continuously performed.

1 is an overall configuration diagram of a biological tissue processing apparatus according to an embodiment of the present invention. It is a control block diagram of the biological tissue processing apparatus of FIG. It is a flowchart which shows the process performed by the biological tissue processing apparatus of FIG. It is a screen example (process setting screen) of the biological tissue processing apparatus of FIG. It is an example of a screen (user operation screen) of the biological tissue processing apparatus of FIG. It is a screen example (processing mode setting screen) of the biological tissue processing apparatus of FIG. 2 is a screen example (a processing parameter display screen in a standard processing mode) of the biological tissue processing apparatus in FIG. 1. It is an example of a screen of the biological tissue processing apparatus of FIG. 1 (processing parameter display screen in user setting processing mode). 2 is a screen example (process parameter display screen of process 1) of the biological tissue processing apparatus of FIG. It is a screen example (history screen) of the biological tissue processing apparatus of FIG. 3 is a screen example (standard processing history screen) of the biological tissue processing apparatus of FIG. 1. It is an example of a screen (history screen of process 1) of the biological tissue processing apparatus of FIG. It is a screen example (history screen of process 2) of the biological tissue processing apparatus of FIG. It is a screen example (process setting screen) of the biological tissue processing apparatus of FIG. It is an example of a screen (user operation screen) of the biological tissue processing apparatus of FIG. 2 is a screen example (processing parameter display screen for reagent cleaning processing) of the biological tissue processing apparatus of FIG. 1.

A biological tissue processing apparatus 1 according to an embodiment of the present invention will be described below with reference to the drawings.
As shown in FIG. 1, the biological tissue processing apparatus 1 according to the present embodiment is a device for cell processing biological tissue such as adipose tissue, and a processing container 2 that stores biological tissue such as adipose tissue, A filter 3 disposed in the processing container 2, a shaker 4 on which the processing container 2 is placed, a pipe 5 connected to the processing container 2, and a valve V1 provided at an intermediate position of the pipe 5 And a control unit 9 for controlling them.

  Here, the cell treatment refers to a process until a cell (adipose-derived cell) that is a final product is extracted from a living tissue (adipose tissue), and “adipose tissue injection process” in which the adipose tissue is injected into the processing container 2. In addition, a “digestion process” in which the adipose tissue is stirred with the digestive enzyme solution in the processing container 2 to generate a cell suspension and a “concentration process” in which the cell suspension is concentrated are included. More specifically, it includes “adipose tissue washing treatment” for washing adipose tissue before digestion treatment and “digestion enzyme solution concentration dilution treatment” for diluting the concentration of the digestive enzyme solution after digestion treatment. The present invention is applied to all processes up to extraction of adipose-derived cells from the adipose tissue (including adipose tissue injection process, treated adipose tissue washing process, digestion process, concentration process, digestive enzyme solution concentration dilution process). be able to.

  The processing container 2 is a cylindrical container, the bottom surface 2a is inclined in one direction, and the discharge port 2b is opened at the lowest position of the bottom surface 2a. Further, the upper portion of the processing container 2 is closed with a lid 2c. The processing container 2 contains a mixed solution C of adipose tissue A collected from a living body and a digestive enzyme solution B that digests the adipose tissue A. In the processing container 2, with the progress of cell processing with the digestive enzyme solution B, fat-derived cells and the like constituting the adipose tissue A are isolated and floated, and a cell suspension D is generated.

  The filter 3 has a large number of holes having a diameter smaller than that of the adipose tissue A, is disposed substantially horizontally above the bottom surface 2a, and covers the discharge port 2b. As a result, the adipose tissue A is restricted from being discharged from the discharge port 2b in a state of being collected from the body, and passes through the pores of the filter 3 in a state where fat-derived cells and the like are isolated by the digestive enzyme solution B. Then, it is discharged from the discharge port 2b.

The shaker 4 includes a base 4a on which the processing container 2 is placed, and a motor 4c that rotates a rotating shaft 4b fixed perpendicularly to the base 4a in a horizontal plane.
The base 4a has a cylindrical shape with an upper part and a part of a side surface opened, and a bottom surface is arranged substantially horizontally. The side surface of the base 4a is covered with a heat insulating material (not shown). A seat heater 4d is provided on the bottom surface of the base 4a to keep the inside of the processing container 2 at about 37 ° C.

The motor 4c rotates the rotating shaft 4b horizontally along a predetermined circumferential orbit while maintaining its posture.
When the motor 4c is operated, the processing container 2 placed on the base 4a is horizontally rotated along a predetermined circumferential trajectory, and the adipose tissue A is agitated in the digestive enzyme solution B, thereby digesting. Promoted. Then, when the motor 4c is stopped and the processing container 2 is allowed to stand, the digested adipose tissue A is in the upper layer, and the digestive enzyme solution B containing the adipose-derived cells C separated from the adipose tissue A, that is, the cell suspension The lower layer is separated by a difference in specific gravity.

One end of the pipe 5 is connected to the discharge port 2b, and a valve V1 is provided at an intermediate position.
The biological tissue processing apparatus 1 is provided with a sensor that detects an abnormality in cell processing. Specific examples of the abnormality detection means include a temperature sensor (not shown) for detecting the temperature in the processing container 2, an optical sensor (not shown) for detecting the rotation of the motor 4c, and the mass in the processing container 2. Mass sensor (not shown), an optical sensor (not shown) for measuring the transmittance of the liquid discharged from the processing container 2, and a rotational speed sensor (not shown) for measuring the rotational speed of the centrifugal separator. And a vibration sensor (not shown) for measuring the magnitude of vibration of the centrifugal separator.

Here, the control of the biological tissue processing apparatus 1 will be described with reference to FIG.
As shown in FIG. 2, the biological tissue processing apparatus 1 includes a control unit 9, a touch panel (input means, display means) 10, a sensor module (abnormality detection means) 11, a drive system module 12, and a temperature control module 13. And a storage unit (storage means) 14 and an output port 15.

The sensor module 11 includes the above-described temperature sensor and optical sensor, and detects abnormalities in cell processing.
The drive system module 12 includes a motor 4c and the like, and rotates the processing container 2 to promote digestion of the adipose tissue A in the processing container 2.
The temperature control module 13 includes a seat heater 4d and a temperature adjuster (not shown) that adjusts the temperature thereof, and maintains the inside of the processing container 2 at a constant temperature (about 37 ° C.).

  The touch panel 10 has functions as an input unit and a display unit. The touch panel 10 allows the user to input operation parameters (external parameters) of the cell processing, and the cell processing is stopped by the operation information by the user and the abnormal stop unit 16. The state (history information) of the adipose tissue A at the point in time is displayed.

The storage unit 14 stores operation parameters input to the touch panel 10, cell processing history information when the cell processing is stopped by the abnormality stopping unit 16, and user operation information.
The output port 15 outputs operation parameters, cell processing history information, and user operation information stored in the storage unit 14 to the outside.

  The control unit 9 functions as an abnormal stop unit (abnormal stop unit) 16, a restart position setting unit (restart position setting unit) 17, a process restart unit (process restart unit) 18, and a reading unit (reading unit) 19. As prepared.

  The abnormality stopping unit 16 is configured to stop the cell processing when an abnormality is detected by the sensor module 11. Specifically, the abnormal stop unit 16 is, for example, that the temperature in the processing container 2 is equal to or higher than a predetermined temperature (for example, about 38 ° C. or higher), or higher than a predetermined temperature (for example, about 36 ° C. or lower). When detected by the temperature sensor, the motor 4c is stopped as an abnormality of the seat heater 4d. Moreover, the abnormal stop part 16 stops the motor 4c as abnormality of the motor 4c, for example, when the rotation speed at the time of constant speed operation of the motor 4c detected by the optical sensor is different from the set rotation speed. It is like that.

  The restart position setting unit 17 sets a restart position in the cell processing process stopped by the abnormal stop unit 16 according to the state of the adipose tissue A. Specifically, the restart position setting unit 17 sets a restart position on the cell processing step according to the elapsed time from when the cell processing is stopped by the abnormal stop unit 16 to when it is restarted. .

  Here, in the processing container 2, the digestion of the adipose tissue A by the digestive enzyme solution continues even while the cell processing is stopped by the abnormal stopping unit 16. Therefore, by determining the resuming position in the cell processing step according to the elapsed time from when the cell processing is stopped by the abnormal stopping unit 16 to when it is restarted (that is, by changing the time of the cell processing), it is excessive. It is possible to prevent the digestion time from being shortened and to reduce the damage to the cells by the digestive enzyme.

  The process resuming unit 18 resumes the cell processing stopped by the abnormality stopping unit 16 from the resuming position set by the resuming position setting unit 17 when the abnormality is resolved. Specifically, when the abnormality detection by the sensor module 11 is resolved, the process resuming unit 18 restarts the restart position set by the restart position setting unit 17, that is, the operation time set in the set processing step. The cell processing is resumed by operating the motor 4c.

  The reading unit 19 reads the operation parameters stored in the storage unit 14 when the cell processing is resumed by the processing resuming unit 18. The processing restarting unit 18 restarts the cell processing using the operation parameter read by the reading unit 19.

The operation and action of the biological tissue processing apparatus 1 having the above configuration will be described below with reference to the flowchart of FIG.
In order to separate fat-derived cells from adipose tissue A using the biological tissue processing apparatus 1 according to the present embodiment, the motor 4c of the shaker 4 is driven, and the adipose tissue A is digested with the digestive enzyme solution in the processing container 2. Digest with B. Then, the motor 4 c is stopped and the fat tissue A and the cell suspension D digested in the processing container 2 are separated into layers. Next, after discharging the cell suspension D, the washing liquid is injected, and the motor 4c of the shaker 4 is again driven to stir. A cell suspension is generated by repeating the above operation.

  In this case, if a temperature abnormality in the processing container 2 or a rotation abnormality of the motor 4c is detected by the sensor module 11 (step S1), the motor 4c is stopped, and at that time, a history of processing parameters (that is, a history of cell processing). Information) is stored in the storage unit 14 (step S2).

Then, the measurement of the time after the motor 4c is stopped is started (step S3), and the parameters at the time of restarting the process (that is, the operation parameters corresponding to the elapsed time after the motor 4c is stopped) are set ( Step S4).
Here, the parameters for restarting the process can be set by the user. Therefore, the “user setting processing mode” shown in FIG. 8 is provided to the user. Also, as shown in FIGS. 11 to 13, history information indicating which process has been completed is provided to the user. Note that when the apparatus determines all the parameters for resuming the process, step S4 is performed simultaneously with step S5.

  Then, it is determined whether or not the cell processing can be restarted (step S5). If the cell processing can be restarted, the processing is restarted with the set parameters (step S6).

  As described above, the cell processing of the adipose tissue A is finished, and then the valve V1 is opened, and the cell suspension D in the processing container 2 is recovered from the pipe 5. Here, since the filter 3 has a large number of through-holes that allow only the cell suspension D to pass therethrough without passing through the adipose tissue A, the cell suspension D in the processing container 2 is used. Passes through the filter 3 and is discharged from the pipe 5 to the outside of the processing container 2. On the other hand, since the adipose tissue A cannot pass through the filter 3, it is captured by the filter 3 and remains in the processing container 2.

  The cell suspension D collected as described above is washed, for example, by repeating the centrifugation process together with the washing solution to dilute the digestive enzyme concentration, and then only the fat-derived cells are separated and collected by the centrifugation process.

Below, the screen displayed on the touch panel 10 of the biological tissue processing apparatus 1 controlled as mentioned above is demonstrated using the example of a screen shown in FIGS.
First, at the stage of setting operation parameters before starting operation, a process setting screen shown in FIG. 4 is displayed. In the processing setting screen shown in FIG. 4, when the amount of living tissue (amount of adipose tissue A) and the amount of final product (amount of cell suspension D) are set, according to the amount of living tissue and the amount of final product set, User operation information (number of containers, total processing time, etc.) is displayed on the user operation screen shown in FIG.

  6 is displayed on the processing mode setting screen shown in FIG. 6, and the user selects the processing mode in which the cell processing is performed. In the processing mode setting screen shown in FIG. 6, for example, when the standard processing mode is selected, the screen shown in FIG. 7 is displayed and the operation parameters in the standard processing mode are displayed.

  Here, in the process mode setting screen shown in FIG. 7, P11 to P43 indicate operation parameters. P11 to P13, P21 to P22, P31 to P32, and P41 to P44 indicate operation parameters of processes 1, 2, 3, and 4, respectively. Specifically, for example, P11 is a washing liquid injection amount, P12 is a washing time, P13 is the number of washings, P21 is a washing liquid injection amount, P22 is a reagent injection amount, P23 is a stirring time, and P24 is a cell suspension feeding amount. , P31 indicates the centrifugation time, P32 indicates the centrifugation speed, P41 indicates the centrifugation time, P42 indicates the amount of the cleaning solution injected, and P43 indicates the number of times the reagent is washed.

  Further, on the processing mode setting screen shown in FIG. 6, for example, when the user setting processing mode is selected, the screen shown in FIG. 8 is displayed and the operation parameters in the user setting processing mode are displayed.

Here, in the screen shown in FIG. 8, processes 1 to 4 indicate main processes. Specifically, for example, the process 1 is a cleaning process (injection process into the cleaning liquid into the processing container 2, a stirring process of the processing container 2, a draining process from the processing container 2), and the process 2 is a digestion process (to the processing container 2). Injecting into washing liquid, Reagent injecting process into processing container 2, Stirring process of processing container 2, Cell suspension liquid feeding process from processing container 2 to centrifuge container), Process 3 is Centrifugation process (centrifugation process) , Supernatant drainage treatment), process 4 is a reagent washing treatment (washing fluid injection treatment into a centrifuge container, centrifugation treatment, supernatant drainage treatment).
In the screen shown in FIG. 8, S11 to 43 indicate subprocesses. For example, S11 indicates the first subprocess of the process 1.

When the process 1 is pressed on the screen shown in FIG. 8, for example, the screen shown in FIG. 9 is displayed and the operation parameters in the process 1 are displayed.
Further, when a history is pressed on the screen shown in FIG. 6, for example, a history screen shown in FIG. 10 is displayed. In the history screen shown in FIG. 10 (standard processing) is pressed, the screen shown in FIG. Specific history information in 10 (standard processing) is displayed.

  Furthermore, when the process 1 is pressed on the history screen shown in FIG. 11, for example, the screen shown in FIG. 12 is displayed, and specific history information in the process 1 is displayed. In addition, when the process 2 is pressed on the history screen shown in FIG. 11, for example, the screen shown in FIG. 13 is displayed, and specific history information in the process 2 is displayed.

  As described above, in the biological tissue processing apparatus 1 according to the present embodiment, when cell processing is stopped due to some abnormality, history information and operation parameters of processing performed so far are displayed on the touch panel 10. Therefore, the user can restart the process after confirming these pieces of information.

  When setting the final product amount (the amount of the cell suspension D) and the number of cells at the stage of setting the operation parameters before starting the operation, the process setting screen shown in FIG. 14 is displayed. When the final product amount (the amount of the cell suspension D) and the number of cells are set on the processing setting screen shown in FIG. 14, the user operation screen shown in FIG. 15 is displayed on the user operation screen according to the set final product amount and the number of cells. Operation information (such as the amount of living tissue and the total processing time) is displayed.

  When the user setting process mode is selected and a process corresponding to the reagent cleaning process is pressed on the screen shown in FIG. 8, the screen shown in FIG. 16 is displayed and the operation parameters in the reagent cleaning process are displayed. . In the user setting process mode, the operation parameters of the reagent cleaning process are fixed and locked so that the user cannot change them, so that the reagent cleaning process is surely performed. Similarly, in other processes, a specific operation parameter may be locked.

  As described above, according to the biological tissue processing apparatus 1 according to the present embodiment, when an abnormality occurs in the cell processing performed in the processing container 2, the abnormality is detected by the sensor module 11, and the abnormal stopping unit 16 stops the cell treatment. On the other hand, the restart position setting unit 17 sets the restart position on the cell processing process stopped by the abnormal stop unit 16 according to the state of the adipose tissue A, the processing history information displayed on the touch panel, and the operation parameters. The When the abnormality is resolved, the cell processing stopped from the restart position set by the restart position setting unit 17 is restarted by the process restarting unit 18.

  By doing in this way, when the cell processing is stopped due to the occurrence of an abnormality, the stopped cell processing can be resumed according to the state of the adipose tissue A at the time of recovery from the abnormality. Without wasting, cell processing of the adipose tissue A can be continued to produce a cell suspension.

  Here, in the digestion vessel, the digestion of the adipose tissue A with the digestive enzyme solution continues even while the cell processing is stopped by the abnormal stop 16. Therefore, by determining the resuming position in the cell processing step according to the elapsed time from when the cell processing is stopped by the abnormal stopping unit 16 to when it is restarted (that is, by changing the time of the cell processing), it is excessive. It is possible to prevent the digestion time from being shortened and to reduce the damage to the cells by the digestive enzyme.

In the biological tissue processing apparatus 1 according to the present embodiment, the restart position setting unit 17 restarts the cell processing process according to the processing time of the cell processing when the cell processing is stopped by the abnormal stop unit 16. The position may be set.
By doing in this way, it can prevent that it becomes excessive digestion time, and can reduce the damage to the cell by a digestive enzyme.

In the biological tissue processing apparatus 1 according to the present embodiment, the restart position setting unit 17 may set a restart position on the cell processing step according to the temperature in the processing container 2.
Since the action of the digestive enzyme changes depending on the temperature in the digestion vessel, the speed at which the cell treatment proceeds differs. Therefore, by setting the resumption position in the cell treatment process according to the temperature in the digestion vessel (that is, changing the cell treatment time), the digestion enzyme is prevented from becoming excessive digestion time. Damage to cells due to can be reduced.

DESCRIPTION OF SYMBOLS 1 Adipose tissue digestion apparatus 2 Processing container 2a Bottom face 2b Outlet 2c Cover 3 Filter 4 Shaker 4a Base 4b Rotating shaft 4c Motor 4d Seat heater 5 Piping 9 Control part 10 Touch panel (input means, display means)
14 Storage unit (storage means)
16 Abnormal stop (Abnormal stop means)
17 Restart position setting section (Restart position setting means)
18 Process resumption part (process resumption means)
19 Reading section (reading means)
A Adipose tissue B Digestive enzyme solution C Mixture of adipose tissue and digestive enzyme solution D Cell suspension V1 Valve

Claims (8)

A treatment container for producing a cell suspension by treating a living tissue with cells;
An abnormality detecting means for detecting an abnormality in the cell treatment;
An abnormality stopping means for stopping the cell processing when an abnormality is detected by the abnormality detecting means;
Resume position setting means for setting a resume position on the cell processing process stopped by the abnormal stopping means according to the state of the biological tissue;
A biological tissue processing apparatus comprising: a process resuming unit that resumes the cell processing stopped by the abnormality stopping unit from the resuming position set by the resuming position setting unit when the abnormality is resolved. Input means for inputting operating parameters of the cell treatment;
Storage means for storing operation parameters input to the input means;
When the cell processing is resumed by the processing resumption means, the reading means reads out the operating parameters stored in the storage means,
The biological tissue processing apparatus according to claim 1, wherein the processing restarting unit restarts the cell processing using the operation parameter read by the reading unit.   The biological tissue processing apparatus according to claim 2, wherein the storage unit stores history information of the cell processing at the time when the cell processing is stopped by the abnormality stopping unit.   The biological tissue processing apparatus according to claim 1, further comprising display means for displaying a state of the biological tissue at the time when the cell processing is stopped by the abnormal stopping means.   2. The biological tissue processing apparatus according to claim 1, further comprising a display unit configured to display a completion status and an incomplete status of each processing in a series of processing until a cell as a final product is extracted from the biological tissue.   The said restart position setting means sets the restart position on the process of the said cell processing according to the elapsed time after the said cell processing is stopped by the said abnormal stop means until it restarts. The biological tissue processing apparatus according to any one of the above.   The said restart position setting means sets the restart position on the process of the said cell process according to the processing time of the said cell process at the time of the said cell process being stopped by the said abnormal stop means. The biological tissue processing apparatus according to any one of the above.   The biological tissue processing apparatus according to any one of claims 1 to 5, wherein the restart position setting unit sets a restart position in the cell processing step according to a temperature in the processing container.

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