JP7382711B2 - Cell component collection system and cell component collection method - Google Patents

Description

The present invention relates to a cell component collection system and a cell component collection method.

Patent Document 1 discloses a blood component collection system that collects platelets by centrifuging whole blood taken out from a blood donor. This blood component collection system includes a blood collection circuit set that forms a circuit through which blood or blood components to be processed flows, and a centrifugal separator to which this blood collection circuit set is attached.

Special Publication No. 2013-514863

By the way, whole blood contains red blood cells, white blood cells, platelets, and plasma. White blood cells include granulocytes, lymphocytes and monocytes. In recent years, granulocytes have been used for blood transfusions to treat cases such as childhood leukemia and sepsis that occurs when granulocytosis occurs in malignant tumors, and for research purposes. However, the specific gravity of granulocytes is close to that of red blood cells. Therefore, it is not easy to obtain granulocytes that do not contain red blood cells by centrifugation. Similar problems may occur when cell components other than granulocytes are collected from whole blood or blood components.

The present invention has been made in consideration of such problems, and provides a cell component collection system and a cell component collection method that can easily collect desired cell components from whole blood or blood components. The purpose is to

One aspect of the present invention is a cell component collection system including a centrifugal separator and a cell component collection device configured to be attachable to the centrifugation device, wherein the cell component collection device The device body is equipped with a device body capable of applying centrifugal force when the device is attached to a separation device, and the device body includes a blood storage part for storing whole blood or blood components, and a content of the blood storage part. a filter accommodating part that accommodates a filter member for capturing desired cell components from a separated liquid obtained by centrifuging a liquid, and has a first space and a second space partitioned by the filter member; A collection liquid storage part for storing a collection liquid used for collecting a desired cell component, a cell component storage part for storing the desired cell component, and a collection liquid storage part for storing a collection liquid used for collecting a desired cell component, and a cell component storage part for storing the desired cell component; a blood supply line that can be transferred to the first space; a residual fluid extraction line that can lead out the residual fluid after the desired cell components have been captured from the second space; The filter member includes a recovery liquid supply line that can be transferred to the second space, and a cell component recovery line that can transfer the desired cell component from the first space to the cell component storage section. extending along the direction of centrifugal force acting on the device main body when the device is attached , and separating the content liquid of the blood storage part into a plurality of layers of the separated liquid by centrifugal force when the device is attached; A heavy specific gravity blood component having the highest specific gravity among the plurality of layers of separated liquid is transferred from the blood storage section to the first space via the blood supply line , and is contained in the heavy specific gravity blood component by the filter member. A capturing operation that captures the desired cell component from a plurality of cell components and also leads out the residual liquid to the residual liquid outlet line, and after the capturing operation, the collected liquid is removed by centrifugal force while the device is attached. Collection in which the desired cell components are collected into the cell component storage section by transferring them from the recovery liquid storage section to the cell component storage section via the recovery liquid supply line, the filter storage section, and the cell component collection line. In the cell component collecting system, in the capturing operation, components other than the heavy specific gravity blood component among the separated liquids in the plurality of layers are left in the blood storage section.

Another aspect of the present invention is a cell component collection method using a cell component collection system comprising a centrifugal separator and a cell component collection device configured to be attachable to the centrifugal separator, The component collection device includes a device main body capable of applying centrifugal force when the device is attached to the centrifugal separator, and the device main body includes a blood storage section for storing whole blood or blood components. and a filter member for capturing desired cell components from a separated liquid obtained by centrifuging the liquid content of the blood storage part, and a first space and a second space partitioned by the filter member. a collection liquid storage part for storing a collection liquid used in collecting the desired cell components, a cell component storage part for storing the desired cell components, and the separation a blood supply line capable of transferring a liquid from the blood storage section to the first space; a residual liquid discharge line capable of leading out the residual liquid after the desired cell components have been captured from the second space; and the recovery A recovery liquid supply line capable of transferring a liquid from the recovery liquid storage section to the second space, and a cell component recovery line capable of transferring the desired cell component from the first space to the cell component storage section. In the cell component collection method, the filter member extends along the direction of centrifugal force acting on the device main body when the device is attached, and in the cell component collection method, when the device is attached, the filter member extends in the direction of the centrifugal force acting on the device body. The content liquid is separated into a plurality of layers of the separated liquid, and a heavy specific gravity blood component having the highest specific gravity among the plurality of layers of the separated liquid is transferred from the blood storage section to the first space via the blood supply line. a capturing step in which the desired cell component is captured from a plurality of cell components contained in the specific gravity blood component by transporting the filter member, and the remaining fluid is led out to the remaining fluid outlet line; and after the capturing step. and by transferring the collected liquid from the collected liquid storage part to the cell component storage part via the collection liquid supply line, the filter storage part, and the cell component collection line by centrifugal force while the device is attached. a collection step of collecting the desired cell components into the cell component storage section, and in the capturing step, components other than the high specific gravity blood component among the separated liquids in the plurality of layers are collected into the blood storage section. This is a method of collecting cell components that leaves the cells intact .

According to the present invention, after the filter member captures desired cell components from the separated solution by transferring the separated solution using centrifugal force, the captured desired cell components are transferred by transferring the recovered solution using centrifugal force. It can be collected in the cell component storage section. Thereby, desired cell components can be easily collected from whole blood or blood components.

1 is a schematic configuration diagram of a cell component collection system according to an embodiment of the present invention. FIG. 1 is a first explanatory diagram of a cell component collection method according to an embodiment of the present invention. It is a flow chart for explaining a cell component collection method. FIG. 2 is a second explanatory diagram of the cell component collection method. It is a graph showing the relationship between the specific gravity of cell components and the number of cells. FIG. 3 is a third explanatory diagram of the cell component collection method. FIG. 4 is a fourth explanatory diagram of the cell component collection method. FIG. 5 is a fifth explanatory diagram of the cell component collection method. FIG. 6 is a sixth explanatory diagram of the cell component collection method. FIG. 7 is a seventh explanatory diagram of the cell component collection method.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Preferred embodiments of a cell component collection device, a cell component collection system, and a cell component collection method according to the present invention will be described below with reference to the accompanying drawings.

As shown in FIG. 1, the cell component collection system 10 collects desired cell components (granulocytes) from a separated liquid obtained by centrifuging whole blood or blood components.

The cell component collection system 10 includes a cell component collection cassette 12 (hereinafter abbreviated as "cassette 12") as a cell component collection device, and a centrifugal separator 16 having a centrifugal section 14. The cassette 12 is configured to be attachable (removable) to the centrifugal separator 16. The cassette 12 is a so-called disposable item, and is discarded after one use.

The cassette 12 is integrally molded from a resin material or the like. The cassette 12 includes a cassette body 18 (device body) that can apply centrifugal force when the cassette is attached to the centrifugal separator 16 (device attached state). The cassette body 18 includes a liquid storage section 20 for storing liquid, a filter storage section 22, and a line section 24 through which the liquid flows. The liquid storage section 20, the filter storage section 22, and the line section 24 are integrally provided in the cassette main body 18. However, the cassette 12 may be configured such that the liquid storage section 20, the filter storage section 22, and the line section 24 are separately molded and connected to each other.

The liquid storage section 20 includes a blood storage section 20a, a residual liquid storage section 20b, a cleaning liquid storage section 20c, a recovered liquid storage section 20d, and a cell component storage section 20e.

The blood storage section 20a is for storing (storing) whole blood or blood components collected from a donor. The blood storage section 20a is provided with an inlet (not shown) for introducing (injecting) whole blood or blood components into the blood storage section 20a. ACD liquid, which is an anticoagulant for blood, is mixed in advance with whole blood or blood components stored in the blood storage section 20a.

The residual fluid storage section 20b is for storing residual fluid (red blood cells after granulocytes have been removed). The cleaning liquid storage section 20c is for storing a cleaning liquid used when recovering residual liquid. The cleaning liquid storage portion 20c is provided with an inlet (not shown) for introducing (injecting) the cleaning liquid into the interior. As the cleaning liquid, for example, a solution containing adenine, sodium citrate, etc., physiological saline, etc. are used.

The collection liquid storage section 20d is for storing a collection liquid used when collecting granulocytes (desired cell components). The recovered liquid storage section 20d is provided with an inlet (not shown) for introducing (injecting) the recovered liquid into the inside. As the recovery liquid, for example, a solution containing adenine, sodium citrate, etc., physiological saline, etc. are used. That is, the same recovery liquid as the cleaning liquid can be used.

The cell component accommodating section 20e is for accommodating granulocytes (desired cell components). The cell component storage section 20e is provided with an outlet (not shown) for taking out the collected granulocytes.

The filter accommodating portion 22 accommodates a filter member 26 for capturing granulocytes from a separated liquid obtained by centrifuging whole blood or blood components, which is the liquid content of the blood accommodating portion 20a.

The filter member 26 is constructed by laminating a plurality of mesh filters, and has pores 28 having a diameter smaller than the diameter (average diameter) of the granulocytes. In order to effectively trap granulocytes, the average pore diameter of the pores 28 of the filter member 26 is set in a range of 1 μm or more and 20 μm or less. Note that red blood cells have a very high deformability and therefore easily pass through the holes 28 of the mesh filter. The filter member 26 is formed into a sheet shape, and extends along the radial direction (direction of arrow X) of the centrifugal section 14 in a state where the cassette is attached. In other words, the filter member 26 extends along the direction of the centrifugal force acting on the cassette 12 (see FIG. 4) when the cassette is attached. In other words, the filter member 26 is provided so that, when the cassette is attached, liquid (residual liquid, cleaning liquid, and recovered liquid) passes in a direction substantially perpendicular to (crosses) the direction of centrifugal force acting on the cassette 12. 6, 8 and 9).

The filter accommodating portion 22 has a first space 22a and a second space 22b defined by a filter member 26. The first space 22a and the second space 22b are lined up with the filter member 26 in between in the rotational direction (direction of arrow Y) of the centrifugal section 14 when the cassette is attached.

The wall portion constituting the line portion 24 is made of a hard material. The line section 24 includes a first connection line 24a, a second connection line 24b, a blood supply line 24c, a residual liquid derivation line 24d, a washing liquid supply line 24e, a recovery liquid supply line 24f, and a cell component recovery line 24g.

The first connection line 24a communicates with the first space 22a via the first port 30a of the filter accommodating portion 22. The first port 30a opens in a direction perpendicular to the radially outward direction (arrow X1 direction) of the centrifugal section 14 when the cassette is attached. The first port 30a is oriented toward the center of the plane of the filter member 26.

The second connection line 24b communicates with the second space 22b via the second port 30b of the filter housing portion 22. The second port 30b opens in a direction perpendicular to the direction of arrow X when the cassette is attached. The second port 30b is oriented toward the center of the plane of the filter member 26. The first port 30a and the second port 30b face each other with the filter member 26 in between.

The blood supply line 24c is a flow path for transferring the separated liquid from the blood storage section 20a to the first space 22a. One end of the blood supply line 24c is connected to the end of the blood storage section 20a radially outward (in the direction of arrow X1) of the centrifugal section 14 in the blood storage section 20a when the cassette is attached. The other end of the blood line is connected to the first connection line 24a via the first connection part 40.

The residual fluid outlet line 24d is a flow path for leading out the residual fluid (red blood cells) after the granulocytes have been captured by the filter member 26 from the second space 22b. One end of the residual liquid lead-out line 24d is connected to the second connection line 24b via the second connection part 42. The other end of the residual liquid lead-out line 24d is connected to the residual liquid storage section 20b.

The cleaning liquid supply line 24e is a flow path for transferring the cleaning liquid from the cleaning liquid storage section 20c to the first space 22a. One end of the cleaning liquid supply line 24e is connected to the radially outer end (in the direction of arrow X1) of the centrifugal part 14 of the cleaning liquid storage section 20c in the cassette-mounted state. The other end of the cleaning liquid supply line 24e is connected to the first connection line 24a via the first connection part 40.

The recovered liquid supply line 24f is a flow path for transferring the recovered liquid from the recovered liquid storage section 20d to the second space 22b. One end of the recovered liquid supply line 24f is connected to the radially outer end (in the direction of arrow X1) of the centrifugal section 14 of the recovered liquid storage section 20d in the cassette-mounted state. The other end of the recovered liquid supply line 24f is connected to the second connection line 24b via the second connection part 42.

The cell component recovery line 24g is a flow path for transferring granulocytes from the first space 22a to the cell component storage section 20e. One end of the cell component recovery line 24g is connected to the first connection line 24a via the first connection part 40. The other end of the cell component recovery line 24g is connected to the cell component storage section 20e.

The centrifugal separator 16 is a device that is repeatedly used for cell component collection, and is provided in medical facilities, research facilities, and the like. The centrifugal separator 16 has a centrifugal section 14 that rotates by the action of a rotor (not shown). The centrifugal section 14 is provided with a cassette attachment section 50 to which the cassette 12 can be attached and detached.

The cassette attachment section 50 has an opening/closing mechanism 52 for opening and closing the line section 24 in a state where the cassette is attached. The opening/closing mechanism 52 includes a first opening/closing part 52a, a second opening/closing part 52b, a third opening/closing part 52c, a fourth opening/closing part 52d, and a fifth opening/closing part 52e.

The first opening/closing section 52a opens and closes the blood supply line 24c when the cassette is attached. The second opening/closing part 52b opens and closes the residual liquid lead-out line 24d when the cassette is attached. The third opening/closing section 52c opens and closes the recovered liquid supply line 24f when the cassette is attached. The fourth opening/closing section 52d opens and closes the cell component recovery line 24g when the cassette is attached. The fifth opening/closing section 52e opens and closes the cleaning liquid supply line 24e when the cassette is attached. Note that the first to fifth opening/closing parts 52a to 52e may have any configuration as long as they can open and close the line part 24.

The centrifugal separator 16 further includes a control section 54. The control unit 54 is a computer including a microcomputer, and has a CPU (central processing unit), a ROM, a RAM, etc., which are memories, and the CPU reads and executes programs stored in the ROM to perform various operations. It functions as a function realization unit (function realization means). Note that the various function realizing units can also be configured by a function realizing device as hardware.

The control section 54 includes a centrifugal control section 56 and an opening/closing control section 58. The centrifugal control section 56 controls driving and stopping of a rotor (not shown) for rotating the centrifugal section 14 . The opening/closing control section 58 controls the operations of the first opening/closing section 52a, the second opening/closing section 52b, the third opening/closing section 52c, the fourth opening/closing section 52d, and the fifth opening/closing section 52e.

Next, a cell component collection method using the cell component collection system 10 according to the present embodiment configured as described above will be described. Note that, as shown in FIG. 2, in the initial state, the cassette 12 is attached to the cassette attachment part 50. Further, it is assumed that the whole blood collected from a donor is stored in the blood storage section 20a, the cleaning liquid is stored in the cleaning liquid storage section 20c, and the collected liquid is stored in the recovery liquid storage section 20d. Furthermore, the residual liquid storage section 20b and the cell component storage section 20e are empty, and the first to fifth opening/closing sections 52a to 52e are each closed.

First, in the centrifugation step of step S1 in FIG. 3, the centrifugal control section 56 drives a rotor (not shown) to rotate the centrifugal section 14. Then, as shown in FIG. 4, the whole blood stored in the blood storage section 20a is subjected to centrifugal force and is separated into three layers: heavy specific gravity blood component B1, intermediate specific gravity blood component B2, and light specific gravity blood component B3. do. The high specific gravity blood component B1 is located at the outermost position in the radial direction (in the direction of the arrow X1) of the blood storage section 20a. The light specific gravity blood component B3 is located at the innermost position in the radial direction (in the direction of arrow X2) of the blood storage section 20a. Medium specific gravity blood component B2 is located between heavy specific gravity blood component B1 and light specific gravity blood component B3.

Here, whole blood includes red blood cells, white blood cells, platelets and plasma. As shown in FIG. 5, white blood cells include monocytes, lymphocytes, basophils, neutrophils, and eosinophils. Monocytes and lymphocytes have a somewhat lower specific gravity than red blood cells, so they can be separated from red blood cells by centrifugation. On the other hand, granulocytes consisting of basophils, neutrophils, and eosinophils have a similar specific gravity to red blood cells, so it is not easy to separate (isolate) them from red blood cells by centrifugation.

Therefore, the heavy density blood component B1 is a component containing red blood cells and granulocytes, and the intermediate density blood component B2 is a component containing monocytes, lymphocytes, and platelets. Note that the light specific gravity blood component B3 is plasma. When a preset first time period elapses after starting the centrifugation step, the process moves to a capture step in step S2.

In the capture step (capture step) of step S2 in FIG. 3, granulocytes are captured from the heavy specific gravity blood component B1 (separated liquid). Specifically, as shown in FIG. 6, while the centrifugal control section 56 is rotating the centrifugal section 14, the opening/closing control section 58 opens the first opening/closing section 52a so that the blood supply line 24c is opened. At the same time, the second opening/closing part 52b is opened so that the residual liquid outlet line 24d is opened.

Then, due to the centrifugal force, the heavy specific gravity blood component B1 is supplied from the blood storage section 20a to the first space 22a of the filter storage section 22 via the blood supply line 24c and the first connection line 24a. Then, the granulocytes contained in the heavy specific gravity blood component B1 supplied to the first space 22a are captured (trapped) by the filter member 26. On the other hand, the red blood cells contained in the heavy specific gravity blood component B1 have a high deformability and therefore pass through the holes 28 of the filter member 26. The red blood cells (residual liquid after granulocytes are captured) that have passed through the filter member 26 are transferred to the residual liquid storage section 20b via the second connection line 24b and the residual liquid outlet line 24d by centrifugal force.

When a predetermined capturing time has elapsed after the capture step started, the opening/closing control section 58 closes the first opening/closing section 52a so that the blood supply line 24c is closed (see FIG. 7). Here, the capture time means that after the first opening/closing part 52a and the second opening/closing part 52b are opened, the medium-density blood component B2 flows between the first opening/closing part 52a and the blood storage part 20a in the blood supply line 24c. This is the time it takes to do so, and is set in advance. However, in the capture step, when a line sensor (not shown) detects that the intermediate specific gravity blood component B2 has flowed between the first opening/closing section 52a and the blood storage section 20a in the blood supply line 24c, the opening/closing control section 58 The first opening/closing portion 52a may be closed so that the blood supply line 24c is closed. When a preset second time period elapses after starting the capture step, the process moves to the cleaning step of step S3.

In the cleaning step (cleaning process) of step S3 in FIG. 3, red blood cells remaining in the filter accommodating part 22 and the line part 24 are removed. Specifically, as shown in FIG. 8, while the centrifugal control section 56 is rotating the centrifugal section 14, the opening/closing control section 58 opens the fifth opening/closing section 52e so that the cleaning liquid supply line 24e is opened. . Then, due to centrifugal force, the cleaning liquid is transferred from the cleaning liquid storage part 20c to the residual liquid storage part 20b via the cleaning liquid supply line 24e, the first connection line 24a, the filter storage part 22, the second connection line 24b, and the residual liquid discharge line 24d. Transported together with red blood cells (residual fluid). When a preset third time period elapses after starting the cleaning step, the process moves to a recovery step in step S4.

In the recovery step (recovery process) of step S4 in FIG. 3, granulocytes are recovered. Specifically, as shown in FIG. 9, the opening/closing control section 58 closes the fifth opening/closing section 52e so that the cleaning liquid supply line 24e is closed, and also closes the second opening/closing section 52e so that the residual liquid outlet line 24d is closed. Close section 52b. Further, while the centrifugal control section 56 is rotating the centrifugal section 14, the opening/closing control section 58 opens the third opening/closing section 52c so that the collection liquid supply line 24f is opened, and the cell component collection line 24g is opened. The fourth opening/closing part 52d is opened so that the opening/closing part 52d is opened.

Then, due to centrifugal force, the recovered liquid is supplied from the recovered liquid storage section 20d to the second space 22b of the filter storage section 22 via the recovered liquid supply line 24f and the second connection line 24b. The recovery liquid supplied to the second space 22b passes through the filter member 26 toward the first space 22a and collects the granulocytes captured by the filter member 26. Then, the recovered liquid containing granulocytes is transferred from the first space 22a to the cell component storage section 20e via the first connection line 24a and the cell component recovery line 24g by centrifugal force.

When a preset fourth time period elapses after the start of the collection step, the collection step ends. Then, when the collection of granulocytes is completed, as shown in FIG. 10, the opening/closing control section 58 closes the fourth opening/closing section 52d so that the cell component collection line 24g is closed. Thereafter, the centrifugal control unit 56 stops driving the rotor (not shown). Then, the user takes out the granulocytes accommodated in the cell component accommodation section 20e. Note that the cassette 12 from which the granulocytes have been removed is discarded.

In the cell component collection method described above, an example has been described in which whole blood is stored in the blood storage section 20a in the initial state, but it is also possible to store only blood components contained in whole blood in the blood storage section 20a in the initial state. good.

The cell component collection device (cassette 12), cell component collection system 10, and cell component collection method according to this embodiment have the following effects.

In the cell component collection system 10, the separated liquid (heavy specific gravity blood component B1) is transferred from the blood storage section 20a to the first space 22a via the blood supply line 24c by centrifugal force with the cassette attached (device attached). The filter member 26 performs a capturing operation to capture desired cell components (granulocytes) from the separated liquid (grave specific gravity blood component B1) and to lead out the remaining liquid (red blood cells) to the remaining liquid lead-out line 24d.

After the capture operation, the collected liquid is transferred from the collected liquid storage section 20d to the collected liquid supply line 24f, the filter storage section 22, and the cell component collection line 24g by centrifugal force when the cassette is installed (device installed state). A recovery operation is performed to collect desired cell components (granulocytes) into the cell component storage section 20e by transferring them to the component storage section 20e. Thereby, desired cell components (granulocytes) can be easily collected from whole blood or blood components.

The device main body (cassette main body 18) includes a residual liquid accommodating part 20b for accommodating the residual liquid (red blood cells) drawn out from the filter accommodating part 22 to the residual liquid lead-out line 24d, and a residual liquid accommodating part 20b for storing the residual liquid (red blood cells) led out from the filter accommodating part 22 to the residual liquid leading line 24d. 20b, and a cleaning liquid supply line 24e for transferring the cleaning liquid from the cleaning liquid storage part 20c to the first space 22a.

In the cell component collection system 10, the centrifugal force transfers the washing liquid from the washing liquid storage part 20c to the residual liquid storage part 20b via the washing liquid supply line 24e, the filter storage part 22, and the residual liquid derivation line 24d. ) is carried out between the capture operation and the recovery operation to remove at least the filter accommodating portion 22.

Thereby, it is possible to prevent residual fluid (red blood cells) from mixing with desired cell components (granulocytes) during the collection operation.

The filter member 26 is provided so that, when the device is attached (cassette attached), residual liquid (red blood cells) and recovered liquid pass in a direction intersecting the direction of centrifugal force acting on the device body (cassette body 18). There is. Thereby, the capture operation and recovery operation can be smoothly performed using centrifugal force.

The device main body (cassette main body 18) communicates with a first space 22a, a first connection line 24a to which a blood supply line 24c and a cell component recovery line 24g are connected, a first connection line 24a that communicates with a second space 22b, and a residual liquid discharge line. 24d and a second connection line 24b to which the recovery liquid supply line 24f is connected. Thereby, the circuit configuration of the cell component collection device (cassette 12) can be simplified.

The centrifugal separator 16 includes a first opening/closing part 52a that opens and closes the blood supply line 24c, a second opening/closing part 52b that opens and closes the residual liquid lead-out line 24d, and a second opening/closing part 52b that opens and closes the recovered liquid supply line 24f. Respective operations of the third opening/closing part 52c, the fourth opening/closing part 52d that opens and closes the cell component recovery line 24g, the first opening/closing part 52a, the second opening/closing part 52b, the third opening/closing part 52c, and the fourth opening/closing part 52d. It has an opening/closing control section 58 that controls.

The opening/closing control unit 58 is configured to open the blood supply line 24c and the residual liquid lead-out line 24d, and to close the recovery liquid supply line 24f and the cell component recovery line 24g, respectively, when the capture operation is performed. Each operation of the first opening/closing part 52a, the second opening/closing part 52b, the third opening/closing part 52c, and the fourth opening/closing part 52d is controlled.

The opening/closing control unit 58 is configured to close the blood supply line 24c and the residual liquid lead-out line 24d and open the recovery liquid supply line 24f and the cell component recovery line 24g when the recovery operation is performed. Each operation of the first opening/closing part 52a, the second opening/closing part 52b, the third opening/closing part 52c, and the fourth opening/closing part 52d is controlled. Thereby, the capture operation and recovery operation can be easily performed.

The centrifugal separator 16 has a fifth opening/closing section 52e that opens and closes the cleaning liquid supply line 24e. The opening/closing control unit 58 controls the operation of the fifth opening/closing unit 52e so that the cleaning liquid supply line 24e is opened when the cleaning operation is performed, and the opening/closing control unit 58 controls the operation of the fifth opening/closing unit 52e so that the cleaning liquid supply line 24e is opened when the cleaning operation is performed. The operation of the fifth opening/closing portion 52e is controlled so that the fifth opening/closing portion 52e is closed. Thereby, the cleaning operation can be easily performed.

The present invention is not limited to the configuration described above. The channel configuration formed in the cell component collection device (cassette 12) may be modified depending on the type of cell component to be collected, the usage method, and the like. The cell component collection device (cassette 12) may be entirely made of a soft material. In the above-described cell component collection method, an example in which whole blood is stored in the blood storage section 20a has been described, but some blood components of the whole blood may be stored in the blood storage section 20a in the initial state.

The cell components collected by the cell component collection system 10 are not limited to granulocytes, but may be other cell components. The cell component collection device (cassette 12) has one cell component collection device (cassette 12) that accommodates a processing liquid such as physiological saline that can be used as both a washing liquid and a recovery liquid, in place of the washing liquid storage part 20c and the recovery liquid storage part 20d. It may have a processing liquid storage section. In this case, the configuration of the cell component collection device (cassette 12) can be simplified.

The filter member 26 is provided so that when the device is attached (cassette attached), residual liquid (red blood cells) and recovered liquid pass in a direction parallel to the direction of centrifugal force acting on the device body (cassette body 18). It's okay. That is, the filter member 26 may extend in a direction perpendicular to the centrifugal force acting on the device main body (cassette main body 18) in the device mounted state (cassette mounted state).

It goes without saying that the device for collecting cell components, the system for collecting cell components, and the method for collecting cell components according to the present invention are not limited to the above-described embodiments, and can take various configurations without departing from the gist of the present invention. .

10...Cell component collection system 12...Cassette (device for cell component collection)
14... Centrifugal part 16... Centrifugal separator 18... Cassette main body (device main body) 20a... Blood storage part 20b... Residual liquid storage part 20c... Washing liquid storage part 20d... Recovery liquid storage part 20e... Cell component storage part 22... Filter storage part 26... Filter member 22a... First space 22b... Second space 24c... Blood supply line 24d... Residual liquid derivation line 24e... Washing liquid supply line 24f... Recovery liquid supply line 24g... Cell component recovery line

Claims (7)

A cell component collection system comprising a centrifugal separator and a cell component collection device configured to be attachable to the centrifuge,
The cell component collection device includes a device body that can apply centrifugal force when the device is attached to the centrifugal separator,
The device main body is
a blood storage section for storing whole blood or blood components;
A filter member for capturing desired cell components from a separated liquid obtained by centrifuging the content liquid of the blood storage part is accommodated, and the blood storage part has a first space and a second space partitioned by the filter member. a filter housing section;
a recovery liquid accommodating part for accommodating a recovery liquid used when recovering the desired cell components;
a cell component accommodating section for accommodating the desired cell component;
a blood supply line capable of transporting the separated liquid from the blood storage section to the first space;
a residual liquid derivation line capable of deriving the residual liquid after the desired cell components have been captured from the second space;
a recovery liquid supply line capable of transferring the recovery liquid from the recovery liquid storage section to the second space;
a cell component collection line capable of transporting the desired cell component from the first space to the cell component storage section;
The filter member extends along the direction of centrifugal force acting on the device body when the device is attached,
When the device is attached, the content liquid in the blood storage section is separated into a plurality of layers of the separation liquid by centrifugal force, and the heavy specific gravity blood component having the highest specific gravity among the separation liquids in the plurality of layers is transferred to the blood storage section. from the blood supply line to the first space, and the filter member captures the desired cell component from a plurality of cell components included in the high specific gravity blood component, and at the same time, the residual liquid is drawn out from the residual liquid. A capturing operation that leads to a line,
After the capturing operation, the collected liquid is transferred from the collected liquid storage part to the cell component storage part through the collected liquid supply line, the filter storage part, and the cell component collection line by centrifugal force while the device is attached. a collection operation of collecting the desired cell component into the cell component storage section by transferring the desired cell component to the cell component storage section ;
In the capturing operation, the cell component collection system leaves components other than the high specific gravity blood component in the blood storage section among the separated liquids in the plurality of layers. The cell component collection system according to claim 1 ,
The centrifugal separator is
a first opening/closing part that opens and closes the blood supply line;
a second opening/closing part that opens and closes the residual liquid outlet line;
a third opening/closing part that opens and closes the recovered liquid supply line;
a fourth opening/closing part that opens and closes the cell component recovery line;
an opening/closing control section that controls the operation of each of the first opening/closing section, the second opening/closing section, the third opening/closing section, and the fourth opening/closing section;
The opening/closing control section is
the first opening/closing section so that, when the capturing operation is performed, each of the blood supply line and the remaining liquid lead-out line is opened, and each of the recovery liquid supply line and the cell component recovery line is closed; , controlling the respective operations of the second opening/closing section, the third opening/closing section, and the fourth opening/closing section;
the first opening/closing section so that, when the collection operation is performed, each of the blood supply line and the remaining liquid lead-out line is closed, and each of the collection liquid supply line and the cell component collection line is opened; , a cell component collection system that controls respective operations of the second opening/closing section, the third opening/closing section, and the fourth opening/closing section. The cell component collection system according to claim 2 ,
The device main body is
a residual liquid accommodating part for accommodating the residual liquid led out from the filter accommodating part to the residual liquid deriving line;
a cleaning liquid accommodating part for accommodating a cleaning liquid used when removing the residual liquid from inside the filter accommodating part;
a cleaning liquid supply line for transferring the cleaning liquid from the cleaning liquid storage section to the first space,
The cleaning liquid is transferred from the cleaning liquid storage part to the residual liquid storage part via the cleaning liquid supply line, the filter storage part, and the residual liquid derivation line by centrifugal force, and the residual liquid is removed from at least the filter storage part. A cell component collection system, wherein a washing operation is performed between the capturing operation and the collecting operation. 4. The cell component collection system according to claim 3 ,
The centrifugal separator has a fifth opening/closing part that opens and closes the washing liquid supply line,
The opening/closing control section is
controlling the operation of the fifth opening/closing part so that the cleaning liquid supply line is opened when the cleaning operation is performed;
A cell component collection system that controls the operation of the fifth opening/closing section so that the washing liquid supply line is closed when the capturing operation and the collecting operation are performed. The cell component collection system according to any one of claims 1 to 4,
The heavy specific gravity blood component includes red blood cells and granulocytes as the plurality of cell components,
A cell component collection system, wherein the desired cell component is the granulocyte . The cell component collection system according to any one of claims 1 to 5,
An end of the blood supply line is connected to an end of the blood storage section in the direction of the centrifugal force when the device is attached to the cell component collection system.. A cell component collection method using a cell component collection system comprising a centrifugal separator and a cell component collection device configured to be attachable to the centrifugal separator, the method comprising:
The cell component collection device includes a device body that can apply centrifugal force when the device is attached to the centrifugal separator,
The device main body is
a blood storage section for storing whole blood or blood components;
A filter member for capturing desired cell components from a separated liquid obtained by centrifuging the content liquid of the blood storage part is accommodated, and the blood storage part has a first space and a second space partitioned by the filter member. a filter housing section;
a recovery liquid accommodating part for accommodating a recovery liquid used when recovering the desired cell components;
a cell component accommodating section for accommodating the desired cell component;
a blood supply line capable of transporting the separated liquid from the blood storage section to the first space;
a residual liquid derivation line capable of deriving the residual liquid after the desired cell components have been captured from the second space;
a recovery liquid supply line capable of transferring the recovery liquid from the recovery liquid storage section to the second space;
a cell component collection line capable of transporting the desired cell component from the first space to the cell component storage section;
The filter member extends along the direction of centrifugal force acting on the device body when the device is attached,
In the cell component collection method,
When the device is attached, the content liquid in the blood storage section is separated into a plurality of layers of the separation liquid by centrifugal force, and the heavy specific gravity blood component having the highest specific gravity among the separation liquids in the plurality of layers is transferred to the blood storage section. from the blood supply line to the first space, and the filter member captures the desired cell component from a plurality of cell components included in the high specific gravity blood component, and at the same time, the residual liquid is drawn out from the residual liquid. A capturing step to lead out to the line,
After the capturing step, the collected liquid is transferred from the collected liquid storage part to the cell component storage part through the collected liquid supply line, the filter storage part, and the cell component collection line by centrifugal force while the device is attached. a collection step of collecting the desired cell component into the cell component storage section by transferring the desired cell component to the cell component storage section ;
In the capturing step, the cell component collecting method includes leaving components other than the high specific gravity blood component in the blood storage section among the separated liquids in the plurality of layers.

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