JPH08133B2 - Membrane plasma collection device - Google Patents

Description

Description: TECHNICAL FIELD The present invention relates to a plasma collection apparatus for separating plasma from blood, and more specifically, a blood container for storing blood and a plasma separator for separating plasma from blood. A blood delivery pipe that is connected to the blood container and the plasma separator and is connected to a blood pump to send the blood in the blood container to the plasma separator; and the blood container and the plasma separator, respectively. And a blood return tube for returning blood after plasma separation to the blood container.

(Prior Art) When plasma is separated from blood and collected, generally,
The blood stored in the blood container is delivered to the plasma separator by a blood pump, and in the plasma separator, for example, cellulose triacetate, cellulose diacetate, polyacrylonitrile, vinylidene fluoride, polyolefin resin, etc. Plasma is separated.

(Problems to be Solved by the Invention) However, in the conventional membrane-type plasma collection device having such a configuration, in the blood delivered to the plasma separator, when the separation and collection of plasma proceed, the density of the blood cells is increased. As the blood viscosity increases with time, the internal resistance in the plasma separator also increases and hemolysis occurs, and the hemolyzed components are decomposed and collected together with the plasma to contaminate the separated plasma. In order to prevent the occurrence of hemolysis, the blood volume to be sent to the plasma separator must be set to a low blood volume that does not cause hemolysis, and the plasma collection efficiency is reduced. was there.

Therefore, it is conceivable to adjust the delivered blood volume by adjusting the rotation speed of the blood pump while monitoring the pressure in the plasma separator, but the operator must constantly monitor the pressure and the blood pump Since it is necessary to adjust the rotation speed of the motor, it imposes a heavy burden on the operator, and an inexperienced operator is likely to make an erroneous operation, which is difficult in the actual situation.

The present invention has been made in view of such circumstances, and an object of the present invention is to enable efficient blood plasma separation work and easy operation while preventing hemolysis.

(Means for Solving the Problems) In order to achieve such an object, the present invention provides a blood container for storing blood, a plasma separator for separating plasma from blood, the blood container and the plasma separation. A blood delivery pipe connected to each of the blood vessels and having a blood pump interposed therebetween to send the blood in the blood container to the plasma separator, and a blood delivery pipe connected to each of the blood container and the plasma separator to separate the blood plasma. A membrane-type plasma collection device comprising a blood return pipe for returning blood to the blood container, wherein a bypass circuit for bypassing a part of the blood supply to the plasma separator is provided, and the plasma separator is provided in the bypass circuit. In order to prevent hemolysis from occurring inside, a structure is adopted in which a clamp member is provided which allows blood to flow when the inlet pressure of the plasma separator exceeds a set pressure. .

(Operation) When the inlet pressure of the plasma separator exceeds the set pressure, the clamp member of the bypass circuit works so as to circulate the blood so that the pressure becomes equal to or lower than the set pressure, thereby preventing hemolysis in the plasma separator. To be done.

(Example) Hereinafter, an example of the present invention will be described in detail based on an example shown in the drawings.

FIG. 1 is a configuration diagram of a membrane-type plasma collection apparatus according to an embodiment of the present invention, in which 1 is a blood container for storing blood, and 2 is a blood container.
Is a plasma separator that separates plasma from blood.

The blood container 1 and the plasma separator 2 are connected to each other through a blood delivery pipe 3 and a blood return pipe 4, respectively.

A blood pump 5 is interposed in the blood delivery pipe 3, and by driving the blood pump 5, the blood in the blood container 1 is delivered to the plasma separator 2, and the plasma separator 2 separates and collects plasma. The blood after plasma separation is returned to the blood container 1.

In the blood delivery pipe 3, in parallel with the blood pump 5, a bypass circuit for bypassing a part of the blood supply to the plasma separator 2 to maintain the inlet pressure of the plasma separator 2 below a set value. 6 is connected.

The bypass circuit 6 is composed of a tube made of soft vinyl chloride, and the bypass bottleneck 6 is provided with a clamp member 7 for adjusting the amount of blood flowing therethrough by changing the clamp pressure. The clamp member 7 is connected between the blood pump 5 and the plasma separator 2 via an air trap 8 and an air line 9 provided in the blood delivery tube 3, and these clamp member 7 and the air trap are connected. 8 and the air line 9, when the pressure of the blood delivered to the plasma separator 2 exceeds the set pressure, the pressure is taken out from the air trap 8 to the clamp member 7 via the air line 9, and the clamp pressure is increased. Pressure control means 10 so that the pressure is lowered and a part of the blood is bypassed to the bypass circuit 6.
Is composed.

As shown in FIG. 2, the clamp member 7 includes a clamper 11 that clamps the bypass circuit 6, a coil spring 12 that is irregular so that the clamper 11 is displaced toward the clamp side, and a biasing force of the coil spring 12. The pressure detection bag 13 displaces the clamper 11 to the unclamping side, and the air line 9 is connected to the pressure detection bag 13 via the air filter 14.

A pressure setting dial 16 is attached to the casing 15 of the clamp member 7, and the urging force of the coil spring 12 is adjusted by adjusting the pressure setting dial 16 to adjust the clamper.
The pressure for operating 11 is set to a predetermined pressure.

The blood container 1 is preferably made of ABS resin, polycarbonate, vinyl chloride resin, acrylic resin, polyester, butadiene styrene copolymer [for example, K-resin (manufactured by Philips: trade name), Asaflex (Asahi Kasei Kogyo Co., Ltd.). Manufactured by: trade name) etc.], polyethylene, polypropylene, polyacrylonitrile styrene, etc.

With the above configuration, when the hematocrit value (Ht: volume ratio of red blood cells to whole blood) is low, all or almost all of the blood delivered by the blood pump 5 is delivered to the plasma separator 2. Then, the hematocrit value rises as the plasma separation and collection in the plasma separator 2 progresses, and when the set pressure is exceeded, part of the blood delivered by the blood pump 5 is bypassed to the bypass circuit 6, The amount of blood delivered into the plasma separator 2 is reduced, and the plasma separator 2
The pressure of the blood inside can be adjusted so as not to exceed the set pressure.

In the above embodiment, the bypass circuit 6 is provided with the blood pump 5 interposed therebetween, but the blood delivery pipe 3 and the blood return pipe 4 may be connected and communicated.

Further, as the pressure control means 10, for example, a pressure sensor for detecting the pressure of blood delivered from the blood pump 5 is provided, and a throttle valve is provided in the bypass circuit 6, and the pressure detected by the pressure sensor is detected by a microcomputer or the like. Alternatively, the throttle amount may be calculated by calculating the throttle amount according to the detected pressure and driving the throttle valve with a motor or the like.

(Effect) As described above, according to the present invention, when the pressure of the blood delivered to the plasma separator is lower than the set pressure, the blood is not bypassed to the bypass circuit, and the total amount of the blood delivered by the blood pump is reduced. Or, almost the entire amount is delivered into the plasma separator, and as the set pressure is exceeded, part of the blood is bypassed to the bypass circuit, which naturally reduces the amount of blood delivered into the plasma separator. It is not necessary to set the blood volume low, and the pressure of the blood delivered into the plasma separator can be made smaller than the set pressure to prevent hemolysis,
The amount of blood to be delivered can be increased as much as possible, and the plasma separation operation can be efficiently performed in the shortest possible time.

Moreover, since the blood volume delivered into the plasma separator is automatically adjusted according to the pressure of the blood delivered by the blood pump, it is not necessary to monitor the pressure or adjust the rotational speed of the blood pump. Regardless of the situation, the plasma separation work can be satisfactorily performed with a simple operation.

[Brief description of drawings]

FIG. 1 is a configuration diagram of a membrane-type plasma collection device according to an embodiment of the present invention, and FIG. 2 is a partially cutaway side view showing a specific configuration of pressure control means. 1 ... blood container, 2 ... plasma separator, 3 ... blood delivery pipe, 4 ... blood return pipe, 5 ... blood pump, 6 ... bypass circuit.

Claims (1)

[Claims] 1. A plasma separator for separating plasma from blood, and a blood pump interposed between the blood container and the plasma separator in communication with each other, and blood in the blood container is transferred to the plasma separator. In the membrane-type plasma collection device comprising a blood delivery tube for sending, and a blood return tube connected to each of the blood container and the plasma separator to return blood after plasma separation to the blood container, blood to the plasma separator In addition to providing a bypass circuit that bypasses a part of the supply of
Membrane-type plasma collection characterized in that a clamp member is provided to allow blood to flow when the inlet pressure of the plasma separator exceeds a set pressure so that hemolysis does not occur in the plasma separator. apparatus.