JPH0368371A - Automatic priming processing for blood purifying circuit and device therefor - Google Patents

Abstract

PURPOSE:To easily prevent the mixing of bubbles into a dialyzer by filling a blood purifying circuit on the inlet side of the dialyzer and the dialyzer with the liquid filling the dialyzer and then by the priming liquid. CONSTITUTION:When an outside body circulation circuit is automatically priming-processed in the state where a dialyzer 12 and a blood circuit are connected, a part or the whole of a blood purifying circuit 18 on an inlet side 52 of the dialyzer 12 is filled with the liquid filling the dialyzer 12 by the reverse operation of a blood pump 10 or the fall. Then, the blood purifying circuit 18 on the inlet side 52 of the dialyzer 12 and the dialyzer 12 are filled with the priming liquid in a storage device 20.

Description

[Detailed Description of the Invention] [Industrial Application Field] This invention provides a system for automatically filling a priming liquid into an extracorporeal blood circulation circuit, that is, a blood purification circuit, including a dialyzer (blood purifier) in order to perform a priming process on the circuit. The present invention relates to a novel method and apparatus.

[Conventional technology]

In general, the priming process of the blood purification circuit includes increasing the affinity of blood between the blood passageway and the blood separation membrane and blood bone 1If when starting the operation of the blood purification circuit.
This is to remove the air present in the plA, for example, to evacuate all the air in the blood circuit and dialyzer and replace it with physiological saline.

As a conventional blood purification circuit that performs such priming processing, for example, as shown in FIG.
In an artificial dialysis apparatus, a blood pump 3, an air bubble detector 4, and a means 5 for occluding the blood circuit are provided in a blood circuit 2 including a blood dye. The dye detector 6, the bubble detector 4, and the operating section 7
The signals from and to the controller 8 are inputted to the controller 8, and after a predetermined period of time has elapsed from the time when no air bubbles exist in the blood circuit 2, the blood pump 3 and the circuit closing means 5 are operated to close the priming liquid container. A briming process operation is performed using the 1 liming liquid from 9, and when the concentration in the blood circuit 2 becomes below a predetermined value, the blood pump 3 and the circuit closing means 5 are operated to perform a blood recovery process operation. A system has been proposed in which control is performed to perform such a process (see Japanese Utility Model Application Laid-Open No. 60-153138 (hereinafter referred to as prior art (2)).

In addition, a method has been proposed and implemented in which a high-low speed switching operation of the blood pump 3 and an automatic liquid level adjustment operation in the drip chamber C are added to the conventional technique (
Hereinafter, this method will be referred to as prior art (2).

Furthermore, as shown in FIG. 4, in an artificial dialysis apparatus having a blood pump 3 in a blood circuit 1i4)2 including a dialyzer 1, an arterial blood circuit and a venous blood circuit are connected to form a circulation circuit, Drip chamber Dc of the blood circuit 2
By providing an overflow tube L1 at the upper part of the tube L1 and further providing a means 1 for closing the tube, the blood pump 3 is operated with the tube closing means V1 open to supply the priming liquid to the circulation circuit 2. At the same time, by supplying the priming liquid from the briming liquid storage container 9 to the circulation circuit 2 at a predetermined flow rate, a part of the priming liquid is discharged from the overflow tube L1 to perform the briming process, and then the priming liquid is A system has been proposed in which the priming process is controlled by activating the tube closing means V1 to close the tube before or at the same time as the liquid in the priming liquid storage container 9 runs out (Utility Model Application No. 63-1
Publication No. 80049...hereinafter referred to as prior art ■...
reference).

[Problem to be solved by the invention]

However, in the conventional briming processing method described above, for example, in the conventional technique I, the presence or absence of air in the blood circuit is detected, and the blood pump is stopped after a predetermined period of time after air is no longer detected, and the circuit occlusion means ( Clamps), so when using wet type dialyzers, which are often used today and are shipped with liquid in the dialyzer, air is introduced into the dialyzer at the start of operation. The inside of the hollow fibers that make up the dialyzer become airlocked, and air tends to remain inside the dialyzer when the brimming process is finished, resulting in residual blood during clinical use, and there are disadvantages such as automatic liquid level adjustment in the drip chamber being impossible. .

Furthermore, in the prior art (2), compared to the prior art (2),
Although it is possible to automatically adjust the liquid level in the drip chamber, manual operation is required in some parts, and there are also disadvantages in that it is not suitable for wet type dialyzers as described above.

Furthermore, compared to the prior art (2), the prior art (2) has a priming liquid recirculation function and increases the amount of circulation in the blood circuit, thereby reducing the amount of residual air bubbles and increasing the cleaning effect. However, as mentioned above, there are drawbacks that make it unsuitable for wet type dialyzers.

SUMMARY OF THE INVENTION Therefore, an object of the present invention is to connect part or all of the inlet side circuit of the dialyzer when performing briming processing on the extracorporeal circulation circuit with the dialyzer and blood circuit connected.
By filling the dialyzer with the liquid in advance and then filling the inlet side circuit of the dialyzer and the dialyzer with the priming liquid, even when using a wet type dialyzer or other dialyzers, air is removed when supplying the priming liquid to the dialyzer. The amount of air bubbles remaining in the dialyzer at the end of the brimming process can be significantly reduced, and the aerodynamic phenomenon in the hollow fibers can be reduced, without degrading the performance of the dialyzer. An object of the present invention is to provide an automatic priming processing method and device for a blood purification circuit that can reduce the amount of residual blood and improve the cleaning effect of a priming liquid.

[Means to solve the problem]

The automatic priming processing method for a blood purification circuit according to the present invention includes, when automatically priming an extracorporeal circulation circuit with a dialyzer and a blood circuit connected, a part or all of the blood purification circuit on the inlet side of the dialyzer. The method is characterized in that the dialyzer is filled with the liquid by reverse operation or head movement of the blood pump, and then the priming liquid is filled into the blood purification circuit on the inlet side of the dialyzer and the dialyzer.

As the automatic priming processing method described above, a blood purification circuit is constructed by comprising a blood pump and a dialyzer, connecting a priming liquid reservoir, and providing a blood collection side connector and a blood return side connector at both ends, respectively. In the automatic priming processing method, the blood purification circuit is filled with a priming liquid by providing an opening/closing means in a part of the blood purification circuit and driving the blood pump, the first part supplying the priming liquid to a part of the blood purification circuit. A first on-off valve and a second on-off valve for opening and closing the inlet side of the dialyzer are provided, and an overflow pipe is communicated and connected to a drip chamber provided in a part of the blood purification circuit on the inlet side of the dialyzer. A third on-off valve is provided for this overflow pipe, and the second on-off valve is first opened, and the liquid filled in the dialyzer is transferred to the blood purification circuit between the inlet of the dialyzer and the drip chamber on the inlet side. filling the blood pump, and then closing the second on-off valve and opening the third on-off valve provided on the overflow pipe connected to the inlet drip chamber and the first on-off valve to drive the blood pump. to exhaust the air in the inlet side drip chamber, and then close the third on-off valve and open the second on-off valve to control the blood pump to send the priming liquid to the dialyzer. .

Furthermore, in the automatic priming processing method described above, by driving the blood pump in reverse, the liquid filled in the dialyzer can be filled into the blood purification circuit between the inlet of the dialyzer and the drip chamber on the inlet side thereof.

Furthermore, it is also possible to fill the blood purification circuit between the inlet of the dialyzer and the drip chamber on the inlet side of the dialyzer with the liquid filled in the dialyzer by the head without driving the blood pump.

On the other hand, an automatic briming processing device for a blood purification circuit according to the present invention for carrying out the above method includes a blood pump and a dialyzer, connects a priming liquid reservoir, and has a blood collection side connector and a blood return side connector at both ends. A blood purification circuit is formed by providing a blood purification circuit, an opening/closing means is provided in a part of the blood purification circuit, and a control means is provided for filling a priming liquid into the blood purification circuit by driving the blood pump. In the automatic priming processing device,
A first on-off valve for supplying a priming liquid and a second on-off valve for opening and closing the inlet side of the dialyzer are provided in a part of the blood purification circuit, and a part of the blood purification circuit on the inlet side of the dialyzer is provided. It is characterized in that an overflow pipe is connected in communication with a drip chamber provided in a part, and a third on-off valve is provided for this overflow pipe.

In the automatic priming processing device, the first on-off valve is provided in a part of the priming liquid supply pipe, and the second valve is provided in a part of the priming liquid supply pipe.
The on-off valve can be provided in a part of the blood purification circuit on the outlet side of the dialyzer.

Furthermore, fifth and sixth on-off valves can be provided in parts of the blood purification circuit that are close to the blood collection side connector and the blood return side connector, respectively.

Furthermore, an overflow pipe is connected in communication with a drip chamber provided in a part of the blood purification circuit on the outlet side of the dialyzer, and a fourth on-off valve is provided for this overflow pipe. Each can be provided with a liquid level detector to perform automatic liquid level adjustment.

[Effect]

According to the automatic priming processing method for a blood purification circuit according to the present invention, basically, first, the liquid filled in the dialyzer is filled into the blood purification circuit on the inlet side of the dialyzer;
Next, by driving the blood pump, the priming liquid is supplied while discharging the air in the inlet drip chamber, and the priming liquid is sent to the dialyzer, thereby easily preventing air bubbles from entering the dialyzer. .

The most suitable means is to first open the opening/closing means (second opening/closing valve) on the inlet side of the dialyzer, so that the liquid filled in the dialyzer is transferred to the inlet of the dialyzer and the drip on the inlet side thereof. The blood purification circuit between the chamber and the blood purification circuit is filled, and then the opening/closing means (second
By closing the on-off valve (on-off valve) and opening the on-off means (third on-off valve) provided on the overflow pipe connected to the inlet side drip chamber, and driving the blood pump to supply the priming liquid, The air in the drip chamber on the inlet side is discharged, and then the opening/closing means (third opening/closing valve) provided on the overflow pipe is closed, and the opening/closing means (second opening/closing valve) on the inlet side of the dialyzer is opened. By sending the priming liquid to the dialyzer using a blood pump, it is possible to easily prevent air bubbles from entering the dialyzer.

〔Example〕

Next, the automatic priming processing method for a blood purification circuit according to the present invention will be described in detail below in relation to the apparatus that implements this method.

FIG. 1 is a system diagram of a blood purification circuit for performing automatic priming processing according to the present invention. In FIG. 1, reference numeral 10 indicates a blood pump, and 12 indicates a wet type dialyzer, which is a blood purification circuit 1 having a blood collection side connector 14 and a blood return side connector 16 at both ends, respectively.
8 is connected and arranged. However, the blood purification circuit 18
A priming liquid supply pipe 22 connected to a priming liquid reservoir 20 is connected between the blood collection side connector 14 and the blood pump 10, and drip chambers 24. 26
are connected and placed. Furthermore, each drip chamber 2
4.26 each has an overflow pipe 28°3
0 is connected and liquid level detectors 32 and 34 are provided. Note that a blood pressure detection pipe 36 is led out from the outlet side drip chamber 26 of the dialyzer 12.
A return blood pressure monitor 40 is connected to this blood pressure detection pipe 36 via a clamp 38 .

The blood collection side connector 14 and the blood return side connector 16 of the blood purification circuit 18 configured in this way are connected to an artery side blood circuit connected to an artery of the human body 42 and a vein connected to a vein of the human body 42, respectively. A side blood circuit is connected to perform blood purification. Further, the blood purification circuit 18 includes:
■A part of the priming liquid supply pipe 22, ■A position close to the inlet side of the dialyzer 12, ■A part of the overflow vibe 28, ■A part of the overflow vibe 30, ■A position close to the blood collection side connector 14 and ■ an on-off valve 51.5 at a position close to the blood return side connector 16, respectively.
2,53,54,55°56 are provided. For each of the on-off valves 51, 53, 54, 55, 56 and the blood pump 10, there is a control section 50 that collectively controls them, and an operation section 60 that operates the control section 50. is provided.

Next, an automatic priming processing method in the blood purification circuit having the above configuration will be explained with reference to the operation process chart of each element shown in FIG.

First, in the operation step O, the blood pump 10 is in a stopped (waiting v1) state, all the on-off valves are closed, and the blood pump 10 is also in a stopped state.

Next, in operation step 1, the priming switch in the operating section 60 is turned on, and as a result, the on-off valves 52, 54, 55, 56 in the control section 50 are turned on.
is opened and the blood pump 10 is driven in low speed in reverse to fill the blood purification circuit (I) between the inlet of the dialyzer 12 and the inlet side drip chamber 24 with the liquid filled in the wet type dialyzer 12 for priming. is carried out.

In the operation step 2, the control unit 50 operates the on-off valve 51.
．． 53 and 55 are opened and the blood pump 10 is switched to low-speed normal rotation drive to transfer the priming liquid from the priming liquid reservoir 20 to the blood pump 10 and the blood collection side connector 14.
Priming is performed by filling the blood purification circuit (n) between the two. At this time, excess priming liquid is discharged from the blood collection side connector 14.

In the operation step 3, the on-off valve 55 is closed while the blood pump 10 continues to be driven in low-speed forward rotation, and only the on-off valves 51 and 53 are opened to open the inlet side drip chamber 24.
and a blood purification circuit (I
Priming is performed by filling [[) with the priming liquid from the priming liquid reservoir 20. At this time, excess priming liquid is discharged from the overflow pipe 28. Further, in this case, the liquid level in the inlet drip chamber 24 can be automatically adjusted by the liquid level detector 32.

In operation step 4, the on-off valve 53 is closed while the blood pump 10 continues to be driven in low-speed normal rotation as described above;
Only the on-off valves 51, 52 and 54 are opened. As a result, the priming liquid in the priming liquid reservoir 20 is filled into the dialyzer 12 to perform priming, and is also filled into the drip chamber 26 and the blood purification circuit (IV) between this and the outlet of the dialyzer 12. priming is performed. At this time, excess priming liquid is discharged from the overflow pipe 30. Further, in this case, the liquid level in the outlet side drip chamber 26 can be automatically adjusted by the liquid level detector 34.

In operation step 5, the on-off valve 54 is closed while the blood pump 10 continues to be driven in low-speed normal rotation as described above;
Only the on-off valves 51, 52 and 56 are opened. As a result, the priming liquid in the priming liquid reservoir 20 is filled into the blood purification circuit (V>) between the outlet side drip chamber 26 and the blood return connector 16, and priming is performed. is discharged from the blood return side connector 16.

Furthermore, in operation step 6, 2. The blood pump 10 is switched to high-speed normal rotation drive, the on-off valves 51 and 56 are opened, and the on-off valve 52 provided at the inlet of the dialyzer 12 is opened.
By repeating the opening and closing operations at appropriate intervals, all circuits (■ to V) of the blood purification circuit 18 can be vented and cleaned. Note that the blood pump 10 can further improve the effects of air bubble removal and cleaning by repeatedly switching between low speed and high speed to cause speed changes. Also in this case, excess priming liquid is discharged from the blood return side connector 16.

In operation step 7, after performing the priming process in operation step 6 for a predetermined period of time, the blood pump 10 is stopped, all on-off valves are closed, and a priming process completion display is appropriately displayed.

As described above, according to the priming processing method of the present invention, the wet type dialyzer 12 and the blood purification circuit 1
8 is connected, the air in the blood purification circuit (I) between the inlet of the dialyzer 12 and the inlet side drip chamber 24 is discharged using the filling liquid in the dialyzer 12,
By subsequently feeding the priming liquid to the dialyzer 12, it is possible to prevent air from entering the dialyzer 12.

Therefore, according to the present invention, as a modification of the above embodiment,
For example, instead of the inlet side on-off valve 52 of the dialyzer 12,
It is also possible to provide an on-off valve on the outlet side of the dialyzer 12 or to use on-off valves 54 and 56. Further, the filling liquid in the dialyzer 12 can be filled into the blood purification circuit (I>) by a drop without driving the blood pump 10 in reverse.

Furthermore, when the blood pump 10 is driven in reverse, not only the blood purification circuit FI@(I) but also the inlet side drip chamber 2
4 and blood purification circuit (I[I> to dialyzer 12
It is also possible to fill the container with a filling liquid.

〔Effect of the invention〕

As is clear from the embodiments described above, according to the present invention,
First, the liquid filled in the dialyzer is filled into the blood purification circuit on the inlet side of the dialyzer, and then the blood pump is driven to exhaust the air in the inlet side drip chamber while supplying the priming liquid. By sending the liquid to the dialyzer, it is possible to easily prevent air bubbles from entering the dialyzer.

As a means of carrying out this method, on-off valves are connected to appropriate locations in a blood purification circuit that includes a priming liquid supply system, a blood pump, a dialyzer, a drip chamber, and an overflow pipe, and these on-off valves are connected to predetermined positions. By configuring automatic opening/closing control according to a sequence, the automatic priming process can be easily realized.

As described above, according to the present invention, priming processing can be effectively achieved when using a wet type dialyzer.

In particular, the amount of air bubbles remaining inside the dialyzer after the priming process is completed can be significantly reduced, reducing the aerodynamic phenomenon inside the hollow fibers, improving the cleaning effect of the priming liquid, and eliminating the possibility of degrading the performance of the dialyzer. It has many advantages. Therefore, according to the invention:
The amount of blood remaining in the dialyzer after the treatment is completed can also be significantly reduced.

Further, according to the present invention, the automatic priming process can be performed with the dialyzer and the blood purification circuit connected from the beginning, so that the management of the dialyzer can be made more sanitary.

Furthermore, the present invention is not limited to wet type dialyzers, but can also be applied to dry type dialyzers as is.

Although the preferred embodiments of the present invention have been described above, the present invention is not limited to the above embodiments, and it goes without saying that various design changes can be made without departing from the spirit of the present invention.

[Brief explanation of drawings]

FIG. 1 is a system diagram of a blood purification circuit showing an embodiment of the automatic priming processing method according to the present invention, and FIG. 2 is an explanatory diagram of operating steps when performing automatic priming processing by the blood purification circuit shown in FIG. 1. FIGS. 3 and 4 are system diagrams of an artificial dialysis apparatus showing conventional automatic priming processing methods, respectively. 10... Blood pump 12... Dialyzer 1
4...Blood collection side connector 16...Blood return side connector 1
8...Blood purification circuit 20...Briminder liquid reservoir 22...Priming liquid supply pipe 24...Entrance side drip chamber 26...Outlet measurement drip chamber 28.30...Overflow vibe 32. 34...
・Liquid level detector 36...Blood pressure detection bi 138...Clamp 40...
・Return blood pressure monitor 42...Human body 50...Control unit
60... Operation unit 51... Opening/closing valve (Bryminder liquid supply pipe 22) 52... Opening/closing valve (Dializer 1
2 inlet side) 53... On-off valve (overflow vibe 28) 54... On-off valve (overflow vibe 30)
55... Open/close valve (blood collection side connector 14) 56... Open/close valve (blood return side connector 16>\, ν FIG 3 FIG. ?

Claims (8)

[Claims] (1) When automatically priming the extracorporeal circulation circuit with the dialyzer and blood circuit connected, for part or all of the blood purification circuit on the inlet side of the dialyzer,
An automatic priming processing method for a blood purification circuit, characterized in that the dialyzer is filled with a liquid by reverse operation or head movement of a blood pump, and then the priming liquid is filled into the blood purification circuit on the inlet side of the dialyzer and the dialyzer. (2) A blood purification circuit is constructed by comprising a blood pump and a dialyzer, connecting a priming liquid reservoir, and providing a blood collection side connector and a blood return side connector at both ends, respectively, and opening/closing a part of this blood purification circuit. In the automatic priming processing method of filling the blood purification circuit with a priming liquid by providing means and driving the blood pump, the first on-off valve and dialyzer supply the priming liquid to a part of the blood purification circuit. A second on-off valve is provided for opening and closing the inlet side of the dialyzer, and an overflow pipe is connected in communication with a drip chamber provided in a part of the blood purification circuit on the inlet side of the dialyzer. First, the second on-off valve is opened, and the liquid filled in the dialyzer is filled into the blood purification circuit between the inlet of the dialyzer and the drip chamber on the inlet side thereof, and then the second on-off valve is opened. At the same time, the second on-off valve is closed, and the third on-off valve provided on the overflow pipe connected to the inlet drip chamber and the first on-off valve are opened, and the blood pump is driven to drain the inside of the inlet drip chamber. according to claim 1, wherein the third on-off valve is closed, the second on-off valve is opened, and the priming liquid is sent to the dialyzer by a blood pump. Automatic priming process method for blood purification circuit. (3) The blood purification circuit according to claim 2, wherein the blood purification circuit between the inlet of the dialyzer and the drip chamber on the inlet side thereof is filled with the liquid filled in the dialyzer by driving the blood pump in reverse. Automatic priming processing method. (4) The blood purification circuit according to claim 2, wherein the blood purification circuit between the inlet of the dialyzer and the drip chamber on the inlet side thereof is filled with the liquid filled in the dialyzer by a head without driving the blood pump. automatic priming process. (5) A blood purification circuit is constructed by comprising a blood pump and a dialyzer, connecting a priming liquid reservoir, and providing a blood collection side connector and a blood return side connector at both ends, respectively, and opening/closing a part of this blood purification circuit. In the automatic priming processing apparatus, the automatic priming processing apparatus includes a control means for filling the blood purification circuit with a priming liquid by driving the blood pump, the automatic priming processing apparatus comprising: a control means for filling the priming liquid into the blood purification circuit by driving the blood pump; A first on-off valve and a second on-off valve for opening and closing the inlet side of the dialyzer are provided, and an overflow pipe is communicated and connected to a drip chamber provided in a part of the blood purification circuit on the inlet side of the dialyzer. An automatic priming processing device for a blood purification circuit, characterized in that a third on-off valve is provided for this overflow pipe. (6) The blood purification circuit according to claim 5, wherein the first on-off valve is provided in a part of the priming liquid supply pipe, and the second on-off valve is provided in a part of the blood purification circuit on the outlet side of the dialyzer. Automatic priming processing device. (7) The automatic priming processing device for a blood purification circuit according to claim 5 or 6, wherein fifth and sixth on-off valves are provided in a part of the blood purification circuit adjacent to the blood collection side connector and the blood return side connector, respectively. (8) An overflow pipe is communicated and connected to a drip chamber provided in a part of the blood purification circuit on the outlet side of the dialyzer, and a fourth on-off valve is provided for this overflow pipe, and the inlet side drip chamber and the outlet side drip chamber are connected. 8. The automatic priming processing device for a blood purification circuit according to claim 5, wherein each of the blood purification circuits is provided with a liquid level detector.