JP2010032444A - Living tissue treatment device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To prevent a trouble wherein the number of sound cells in a finally-acquired organism-derived cell group is reduced, even when a process is stopped by generation of an error due to some cause. <P>SOLUTION: This living tissue treatment device for acquiring organism-derived cells by treating a living tissue is equipped with: the first informing part 13 which urges restoration work to an operator by informing of generation of an error during treatment; a storage part 11 for storing an error content and a restriction time of the restoration work in associated with each other; a timer 12 for counting the time elapsed from the generation of the error; and the second informing part 13 for informing the operator of suspension of treatment, when the time elapsed after the generation of the error counted by the timer 12 exceeds the restriction time. <P>COPYRIGHT: (C)2010,JPO&INPIT

Description

  The present invention relates to a biological tissue processing apparatus.

Conventionally, a technique for separating adipose-derived cells contained in adipose tissue by collecting human adipose tissue and stirring it with digestive enzymes and physiological saline is known (see, for example, Patent Document 1). .
In this technique, a cell suspension containing separated fat-derived cell groups is separated into pellets and supernatant of fat-derived cell groups in a centrifuge container by being centrifuged by a centrifuge. . In this state, a concentrated fat-derived cell group can be obtained by inserting a syringe or the like into the centrifuge container and sucking the pellet.

International Publication No. 03/053346 Pamphlet

  However, in the conventional biological treatment apparatus, when various processes for obtaining the fat-derived cell group are stopped for some reason, if the recovery work performed by the operator takes time, depending on the stopped process, the action of the digestive enzyme May damage the cells. In this case, there is a disadvantage that the number of healthy cells in the finally obtained fat-derived cell group is reduced.

  The present invention has been made in view of the circumstances described above, and even when the process is stopped due to an error due to some cause, the number of healthy cells of the biologically derived cell group finally obtained is reduced. It is an object of the present invention to provide a biological tissue processing apparatus that can prevent inconvenience.

In order to achieve the above object, the present invention provides the following means.
The present invention is a biological tissue processing apparatus that processes biological tissue to acquire biological cells, and notifies the occurrence of an error during processing to prompt the operator to perform a recovery operation, and an error A storage unit that associates and stores the contents of and the time limit for recovery work, a timer that counts the elapsed time from the occurrence of an error, and the elapsed time from the occurrence of an error counted by the timer exceeds the time limit And a second notification unit for notifying the operator of the suspension of the processing.

  According to the present invention, when an error occurs during processing due to some cause, the first notification unit determines the error content, notifies the occurrence of the error, and prompts the operator to perform a recovery operation. The elapsed time from the occurrence of the error is started. Then, the second notification unit compares the time limit for the recovery work stored in the storage unit with the elapsed time from the occurrence of the error, and cancels the processing when the elapsed time exceeds the time limit. Inform. Thereby, the inconvenience acquired as a final living body origin cell group in the state where the acquired cell received damage and the soundness was impaired can be prevented.

  In this case, since the error content and the elapsed time are stored in association with each other in the storage unit, an appropriate time limit for recovery work is selected for each error content. As a result, a lot of time is spent on recovery work for urgently recovering error contents, and biological cell groups are acquired with damage that cannot be recovered. It is possible to prevent the inconvenience that the recovery work is urgently performed for the error content for which time can be secured.

In the above invention, the biological tissue processing apparatus acquires biological cells from a biological tissue through a plurality of processing steps, and the storage unit stores a processing step and a time limit for restoration work in association with each other. May be.
By doing in this way, an appropriate time limit for restoration work is selected for each processing step. For example, in the step of degrading the biological tissue with the digestive enzyme solution, the time limit is set to be short, so that the cell membrane of the biological cell can be prevented from being damaged. Further, in a cleaning process or the like that does not use a digestive enzyme solution, a relatively long time limit is set, so that a recovery operation with a sufficient margin can be performed.

  Further, in the above invention, a work input unit in which an operator inputs that the error recovery process has ended, and a new time limit by subtracting the elapsed time from the time limit at the time of input to the work input unit. When an error having the same content occurs after the input to the time limit calculation unit and the work input unit, the second notification unit performs processing when the elapsed time exceeds the new time limit. It is good also as notifying an operator of cancellation.

  In this way, when the worker inputs the end of the recovery work at the work input unit, a new time limit is calculated at the time limit calculation unit. Thereafter, when the same error content occurs, if the elapsed time exceeds a new time limit, the second notification unit notifies the operator of the suspension of the process. For example, when two errors occur in the process of degrading the biological tissue with the digestive enzyme solution, the processing is stopped when the total elapsed time exceeds the initially set elapsed time. It is possible to prevent the cell membrane of the derived cell from being damaged greatly.

Moreover, in the said invention, you may provide the 3rd alerting | reporting part which alert | reports the remaining time which subtracted the said elapsed time from the said time limit.
By doing in this way, the worker can finish the recovery work within the time limit with reference to the remaining time until the time limit notified by the third notification unit, whereby the biological cell Can prevent the occurrence of inconvenience of serious damage.

  In addition, the present invention is a biological tissue processing apparatus that acquires biological cells from a biological tissue through a plurality of processing steps, and notifies the occurrence of an error during the processing, and prompts the operator to perform a recovery operation. A notification unit, a storage unit that associates and stores processing steps and time limit for recovery work, a timer that counts the elapsed time from the occurrence of an error, and an operation that an operator inputs that error recovery processing has ended The ratio of the remaining time obtained by subtracting the elapsed time at the time of input to the work input unit from the time limit in the processing step stored in the storage unit to the time limit in the processing step is stored in the storage unit. Is multiplied by the time limit of the subsequent processing step stored in the table to obtain a new time limit. In the subsequent processing step, the elapsed time from the occurrence of the error counted by the timer is a new time limit. The discontinuation of the treatment to provide a biological tissue processing apparatus and a second notification unit for notifying the operator when exceeded between.

  When an error occurs in the previous processing step, even if the elapsed time required for the recovery processing is within the time limit stored for the previous processing step, Since it takes damage according to time, it is necessary to consider it. According to the present invention, the ratio of the remaining time in the previous processing step to the time limit in the subsequent processing step is multiplied by the time limit in the subsequent processing step to calculate a new time limit. In consideration of the given damage, it is possible to determine whether to stop the processing, and it is possible to prevent the inconvenience that the biological cell group is acquired while the damage that cannot be recovered is given.

  According to the present invention, even when the process is stopped due to the occurrence of an error due to some cause, it is possible to prevent an inconvenience that the number of healthy cells of the biologically derived cell group finally obtained is reduced. Play.

A biological tissue processing apparatus 1 according to an embodiment of the present invention will be described below with reference to FIGS. 1 and 2.
As shown in FIG. 1, the biological tissue processing apparatus 1 according to the present embodiment is a biological tissue that has been decomposed and isolated by washing with a digestive enzyme solution after washing a biological tissue, for example, adipose tissue, with a washing liquid. Decomposition treatment tank (decomposition processing unit) 2 for obtaining a cell suspension containing derived cells, and cell separation for separating biological cells by centrifuging the cell suspension obtained in the decomposition treatment tank 2 Unit (centrifugal separator) 3, a control unit 4 that controls them, and an error processing unit 5 that processes errors generated in the decomposition treatment tank 2 and the cell separation unit 3.

The decomposition treatment tank 2 and the cell separation unit 3 are connected by a piping system 6, and the cell suspension output from the decomposition treatment tank 2 is driven by a feed pump 7 and a valve 8 provided in the piping system 6. By this, it is sent to the cell separation unit 3. In addition, the waste liquid generated in the separation processing tank 2 and the cell separation unit 3 is discharged to the waste liquid container 9 by driving the feed pump 7 and switching the valve 8.
The control unit 4 controls the decomposition treatment tank 2, the cell separation unit 3, and the piping system 6. On the other hand, when the process is interrupted for some reason, the control unit 4 detects the interruption and determines the occurrence of an error and the stage in the processing process. The error processing unit 5 is notified of whether or not the error occurs.

  As shown in FIG. 2, when the error stage is notified from the control unit 4, the error processing unit 5 determines a determination unit 10 that determines the error content, an error content, and a recovery work time limit. The storage unit 11 that stores the data in association with each other, the timer 12 that counts the elapsed time from the occurrence of the error, the notification unit 13 that notifies the occurrence of the error and the stop of the recovery operation, and the worker when the recovery operation is completed And a work input unit 14 for inputting work completion.

The determination unit 10 determines whether the error stage notified from the control unit 4 is an error generated during any of the washing process and the decomposition process in the decomposition treatment tank 2 and the centrifugation process in the cell separation unit 3. It is discriminated and the process is specified as the content of the error.
The storage unit 11 stores the content of the error, that is, the recovery work time limit for each processing step.

  For example, in the cleaning process in the decomposition treatment tank 2, since a digestive enzyme such as a proteolytic enzyme is not contained in physiological saline or Ringer's solution used as a cleaning solution, a living tissue is immersed in the cleaning solution for a relatively long time. Even if it is done, the risk of cell damage is low. Therefore, when processing is interrupted in the cleaning process, a relatively long time is set as the time limit for the restoration work.

  Further, in the decomposition process in the decomposition treatment tank 2, since the biological tissue is immersed in the digestive enzyme solution and heated and the decomposition of the biological tissue is promoted, the processing is interrupted and the state of being immersed for a long time is notified. If done, there is a high risk of cell damage. Therefore, when processing is interrupted in the disassembly process, a relatively short time is set as the time limit for the recovery work.

  In addition, in the centrifugation process in the cell separation unit 3, if the process is interrupted at an early stage where the living cell group decomposed from the living tissue is sent together with the digestive enzyme solution as a cell suspension, there is a risk that the cell may be damaged. However, if the treatment is interrupted at the final stage where the centrifugal treatment and the washing with the washing solution are repeated a plurality of times, the risk of damage to the cells is low. Therefore, when the process is interrupted in the centrifugal process, the time limit for the restoration work is set to be increased stepwise as the process progresses.

  Further, when the remaining time is sent from the notification unit 13, the storage unit 11 stores the remaining time and the error content in association with each other. When the same error content is notified at the same stage, the storage unit 11 outputs the remaining time stored therein to the notification unit 13 as a time limit.

  When the error stage is notified from the control unit 4, the error processing unit 5 notifies the operator of the occurrence of the error via the notification unit 13, thereby prompting the worker to perform a recovery operation. ing. The error processing unit 5 operates the timer 12 at the time when the error stage is notified from the control unit 4 and starts counting the elapsed time from the occurrence of the error.

In addition, the notification unit 13 determines whether or not the elapsed time counted by the timer 12 exceeds the set time limit for the recovery work, and if so, notifies the operator that the recovery work has been stopped. It has become.
Furthermore, the notification unit 13 notifies the worker of the remaining time obtained by subtracting the elapsed time counted by the timer 12 from the set time limit for the recovery work.
In addition, when the operator inputs the work end of the recovery work to the work input unit 14, the notification unit 13 outputs the remaining time at that time to the storage unit 11.

  According to the biological tissue processing apparatus 1 according to the present embodiment configured as described above, when the processing is interrupted for some reason during the processing of the biological tissue, the notification unit 13 notifies the occurrence of an error. By confirming this, the worker can start the recovery work. In addition, when an error occurs, the timer 12 is activated and the elapsed time is counted, and when the time limit corresponding to the interrupted processing step is exceeded, the operator is informed that the processing is stopped, so that the cell is seriously damaged. Therefore, it is possible to prevent inconvenience that the soundness is lost.

That is, when cells are seriously damaged if left for a long time, such as when the cells are in contact with the digestive enzyme solution, a relatively short time limit is set. When the restoration operation cannot be completed, the process is forcibly stopped, and the occurrence of inconvenience that the damaged living body-derived cell group is acquired can be prevented.
On the other hand, when cells are not seriously damaged even if left for a long time, such as when cells are not in contact with digestive enzyme solution. By setting a relatively long cheering time, there is an advantage that the recovery work can be performed with a sufficient margin.

Further, according to the present embodiment, the error processing unit 5 notifies the worker of the remaining time obtained by subtracting the elapsed time from the time limit, so that the worker can perform the recovery work so as to finish within the time limit. it can.
Further, according to the present embodiment, when the operator inputs the work end from the work input unit 14 due to the end of the recovery work, and when the same error stage is notified again from the control unit 4, the time limit is set. Rather than being reset, the remaining time after subtracting the work time required for the previous recovery work will become the new time limit, so that the cell will not be severely damaged by multiple errors. Can do.

  In addition, as a method of notification by the notification unit 13, an arbitrary method such as notification by voice or alarm sound from a speaker, notification by lighting or blinking of a lamp, in addition to displaying as a character or a symbol on a monitor, etc. Can be adopted. The storage unit 11 may also store the contents of the recovery work and notify the contents of the recovery work at the same time when an error occurs.

  In the present embodiment, the notification unit 13 notifies the occurrence of an error, the stop of the recovery work, and the remaining time, and the time limit stored in the storage unit 11 and the elapsed time sent from the timer 12 However, instead of this, the remaining time may be calculated.

Further, as shown in FIG. 3, the error processing time limit T ₀ is stored in the storage unit 11 for each processing step, an error occurs in any of the processing steps, and recovery is performed within the time limit T ₀ . when the work is finished, the ratio alpha ₌ relative time limit _{T 0} of the timer 12 the remaining time obtained by subtracting the elapsed time t counted from the time limit _{T 0} by _{(T 0 -t) (T 0} -t) / T _A new time limit may be obtained by multiplying 0 by the time limit stored in the storage unit 11 for subsequent processing steps.

Specifically, the first error occurs in the N-th step, if the recovery operation within the time limit T _N0 is completed, the rest obtained by subtracting the elapsed time t _N from the time limit T _N0 time (T _N0 the -t _N) time limit ratio _{T N0 α N = (T N0} -t N) / T N0, are stored for processing steps M th second error occurs (M ≧ N) A new time limit T _M = α _N T _M0 is set by multiplying the time limit T _M0 . The same applies to the P-th (P ≧ M) processing step in which the third error has occurred.

Thereby, even if the time limit is different in each processing step, the restoration work can be performed in consideration of the damage given to the cell when the previous error occurred, and the soundness of the cell can be maintained.
That is, when half of the time limit is spent in the recovery process in one processing step, the recovery work gives 50% damage to the cells when the work time for the time limit is spent. Can think. Therefore, by setting the time limit in the processing step (the same processing step or the subsequent processing step) in which the next error has occurred to a time limit that can allow the remaining 50% of damage, the time limit differs for each processing step. Can be adapted.

It is a block diagram which shows the biological tissue processing apparatus which concerns on one Embodiment of this invention. It is a block diagram which shows the error processing part of the biological tissue processing apparatus of FIG. It is a graph which shows an example of the time limit in the modification of the biological tissue processing apparatus of FIG.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Biological tissue processing apparatus 11 Memory | storage part 12 Timer 13 Reporting | reporting part (1st alerting | reporting part, 2nd alerting | reporting part, 3rd alerting | reporting part, time limit calculation part)
14 Work input section

Claims (5)

A biological tissue processing apparatus for processing biological tissue to obtain biological cells,
A first notifying unit for notifying the occurrence of an error during processing and prompting the operator to perform a recovery operation;
A storage unit for storing the error content and the time limit for recovery work in association with each other;
A timer that counts the elapsed time since the error occurred;
A biological tissue processing apparatus comprising: a second notification unit that notifies an operator of the suspension of processing when an elapsed time from the occurrence of an error counted by the timer exceeds a time limit. A biological tissue processing apparatus for acquiring a biological cell from a biological tissue through a plurality of processing steps,
The biological tissue processing apparatus according to claim 1, wherein the storage unit stores a processing step and a time limit for restoration work in association with each other. A work input unit for the operator to input that the error recovery process has been completed;
A time limit calculation unit that calculates a new time limit by subtracting the elapsed time from the time limit at the time of input to the work input unit,
When an error having the same content occurs after input to the work input unit, the second notification unit notifies the operator that the process is stopped when the elapsed time exceeds a new time limit. The biological tissue processing apparatus according to claim 1 or 2.   The living tissue processing apparatus according to any one of claims 1 to 3, further comprising a third notification unit that notifies a remaining time obtained by subtracting the elapsed time from the time limit. A biological tissue processing apparatus for acquiring a biological cell from a biological tissue through a plurality of processing steps,
A first notifying unit for notifying the occurrence of an error during processing and prompting the operator to perform a recovery operation;
A storage unit for storing the processing steps and the time limit for recovery work in association with each other;
A timer that counts the elapsed time since the error occurred;
A work input unit for the operator to input that the error recovery process has been completed;
The ratio of the remaining time obtained by subtracting the elapsed time at the time of input to the work input unit from the time limit in the processing step stored in the storage unit to the time limit in the processing step is stored in the storage unit. The time limit of the subsequent processing step is multiplied to obtain a new time limit. In the subsequent processing step, the processing is stopped when the elapsed time from the occurrence of the error counted by the timer exceeds the new time limit. A biological tissue processing apparatus provided with the 2nd alerting | reporting part alert | reported to an operator.

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