JP5929912B2 - Blood purification apparatus and automatic priming method for blood purification apparatus - Google Patents

Description

  The present invention relates to a blood purification device that assists or substitutes for organ functions of a living body by purifying blood taken out of a body from a blood vessel and, if necessary, replenishing it with useful substances. Is characterized in that it can be automatically primed. The present invention also relates to an automatic priming method performed using the blood purification device.

  Conventionally, hemodialysis and blood filtration using a blood purification apparatus have been performed in order to improve a serious condition such as a patient with renal failure or a patient with hyperhydration due to postoperative surgical fluid injection. In general, the blood purification apparatus performs a process (referred to as priming) for removing foreign substances and air in the circuit by introducing and filling a priming solution (generally, physiological saline) into the blood circuit when used. And about the automatic priming method and processing apparatus of a blood purification apparatus, an arterial side blood circuit and a venous side blood circuit are connected, a blood circulation path is formed, a blood pump is operated, and a priming liquid is circulated to the blood circulation path At the same time, by supplying the priming liquid from the priming liquid storage container to the blood circulation path at a predetermined flow rate, the artificial dialysis apparatus is configured to discharge a part of the priming liquid from the overflow tube provided in the drip chamber. (For example, Patent Document 1) and the apparatus of Patent Document 1 overflow the priming liquid from the priming liquid supply system from the arterial circuit portion upstream of the blood pump through the venous circuit using its own head. Venous side washing and draining process to flow into the system and the priming liquid supply system The arterial side washing and discharging process in which the blood fluid flows from the arterial side circuit portion downstream of the blood pump to the overflow system using the blood head, and the staying liquid in the blood circulation circuit by the above two steps Automatic priming method and apparatus (for example, Patent Document 2) including a whole washing circulation process for circulating the whole blood circulation path by a pump, a liquid level adjustment line is provided in a venous drip chamber, and a blood collecting side is provided in an arterial blood collecting unit A connector is provided, a connector that can be connected to the blood collection side connector is provided in the liquid level adjustment line, and an open / close means is provided in the arterial blood circuit upstream from the connection portion with the priming liquid supply line, By opening this opening / closing means and connecting the connector of the liquid level adjustment line and the blood collection side connector, Blood purification device comprising to allow priming the venous blood circuit downstream of the arterial blood circuit and the venous drip chamber on the upstream side of the connection portion (Patent Document 3) are proposed.

  By the way, the blood purification devices of Patent Document 1 and Patent Document 2 described above are configured to connect an arterial blood circuit and a venous blood circuit to form a blood circulation path, and require an overflow line for priming. This overflow line is formed by detachably connecting an overflow tube having a length of about 1 meter to the liquid level adjustment line of the venous drip chamber, and it is difficult to adjust the liquid level during treatment. During the treatment, it was necessary to remove the overflow tube. Therefore, it takes extra time to connect and disconnect, and the remaining spent priming solution attached to the tube is dirty because it adheres to the hand or drops on the floor. There is a problem. In addition, the blood purification device of Patent Document 3 does not require an overflow line for priming. However, in order to expel air by filling the drip chamber with a priming solution (saline), an arterial drip chamber, a vein It was necessary to invert the side drip chamber and blood purifier, which necessitated extra manual work during priming.

  Therefore, the present applicant has already proposed a blood purification apparatus that does not require an inversion operation of an arterial air trap chamber, a venous air trap chamber, or a blood purifier for priming, and does not require an overflow tube, and blood thereof. A circuit priming method has been proposed (Patent Document 4). This includes a blood purifier and a blood circuit, a blood pump, a priming fluid supply line connected to the arterial blood circuit upstream of the blood pump, a venous air trap and a bubble sensor provided in the venous blood circuit. A blood purification device in which the venous air trap is provided with a line connectable to the priming fluid supply line, and a connecting portion with the priming fluid supply line using a head Priming the upstream arterial blood circuit and the venous blood circuit downstream of the venous air trap; driving the blood pump to prime the upstream blood circuit from the venous air trap; A method for priming the blood circulation path of the blood purifier comprising:

  However, in the blood purification device of Patent Document 4, it is necessary to manually connect and disconnect the venous air trap and the priming fluid supply line during priming, and priming cannot be completely automated.

No. 5-19075 Japanese Patent Publication No. 2659914 JP 2004-357957 A Japanese Patent Laid-Open No. 2007-190068

  The present invention has been made in view of the above circumstances, and an object of the present invention is to provide a blood purification device that can fully automate the priming operation of the blood circulation path, and a priming method for the blood purification device.

The blood purification apparatus of the present invention includes a blood purifier, a blood circuit, a blood pump, a priming fluid supply line connected to an arterial blood circuit upstream of the blood pump, and a venous air trap provided in the venous blood circuit. An air pressurization line for introducing air into the blood side of the blood purifier and pressurizing the vein chamber, and the air pressurization line includes a chamber (venous chamber). A pressure control means for controlling the internal pressure on the blood side is provided.
Here, the air pressurization line includes an air supply path provided with an air filter at the upstream end and a downstream end connected to the venous chamber, an upstream air supply means provided in the air supply path, and a downstream side. Comprising an on-off valve.

Further, the priming method of the blood purifier of the present invention increases the internal pressure of the blood side by introducing air to the blood side of the blood purifier, and the dialysate introduced to the dialysate side of the blood purifier is the blood The blood side is primed after filling the dialysate side with the dialysate side, without shifting to the side.

According to the present invention, the following effects can be expected. That is, according to the blood purification apparatus of the present invention, during priming, air can be introduced into the blood side of the blood purification device to increase the internal pressure on the blood side, so that dialysis is first performed on the dialysate side of the blood purification device. When the fluid is introduced, the internal pressure on the blood side can be made larger than the internal pressure on the dialysate side, and the transition of the dialysate introduced to the dialysate side to the blood side, which has occurred in the past ( It was possible to prevent air blocking). Therefore, since the blood side can be primed after first filling the dialysate side with the dialysate side, the venous side chamber and blood purifier required when the priming solution is introduced to the blood side first. No reversing operation is required.
In the priming method of the present invention, since the priming operation can be performed from a state in which the coupler is attached to the dialysate side of the blood purifier and the dialysate line is connected, the priming operation of the blood purifier can be completely automated. .

It is a schematic explanatory drawing which shows the Example of the blood purification apparatus of this invention. It is a schematic explanatory drawing which shows the other Example of the blood purification apparatus of this invention.

  Including blood purifier and blood circuit, blood pump, priming fluid supply line connected to arterial blood circuit upstream of this blood pump, venous air trap chamber (venous chamber) provided in venous blood circuit And an air pressurization line for introducing and pressurizing air to the blood side of the blood purifier in the venous chamber, and pressure control means for controlling the internal pressure of the blood purifier on the pressurization line. Is provided. The air pressurization line includes an air supply path provided with an air filter at the upstream end and a downstream end connected to the venous chamber, an upstream air supply means provided in the air supply path, and a downstream on-off valve. Consists of.

Example 1
Next, Example 1 of the present invention will be described with reference to FIG.
FIG. 1 is a schematic explanatory view of a blood purification apparatus (hemodialysis apparatus) showing an embodiment of the present invention.
As shown in FIG. 1, the blood analysis apparatus of Example 1 includes a blood purifier (blood dialyzer) 1, blood circuits 21 and 22, a blood pump 3, and an arterial blood circuit 21 upstream of the blood pump 3. The priming fluid supply line 4 is connected to a venous chamber 23 provided in the venous blood circuit 22. The venous chamber 23 is pressurized by introducing air into the blood side of the hemodialyzer 1 and pressurizing it. A line 5 is provided, and pressure control means 6 for controlling the internal pressure on the blood side of the hemodialyzer 1 is provided in the air pressurization line 5.

In FIG. 1, blood from a patient at the time of dialysis treatment is supplied from the arterial blood circuit 21 to the blood passage of the hemodialyzer 1 and returned to the patient through the venous blood circuit 22 (hereinafter referred to as the blood passage). Collectively called blood circulation). The arterial blood circuit 21 is provided with an on-off valve V1 and a blood pump 3 in order from the upstream side (an arterial air trap chamber may be provided if necessary). A priming fluid supply line 4 is connected to the arterial blood circuit 21 between the blood pump 3 and the opening / closing means V1, and a priming fluid container 41 is provided upstream of the priming fluid supply line 4. An opening / closing means V3 is provided downstream.
On the other hand, the venous blood circuit 22 is provided with a venous chamber 23, a bubble sensor 24 for detecting the presence or absence of bubbles in the venous blood circuit 22, and an opening / closing means V2 in order from the upstream side. The applied priming liquid flows into a waste liquid container (not shown). The venous chamber 23 is provided with a pressure gauge PV so that the internal pressure on the venous side is measured. In addition, an air pressurization line 5 is provided in the venous chamber 23, and pressure control means 6 for controlling the internal pressure on the blood side of the hemodialyzer 1 is provided in the air pressurization line 5.

  The air pressurization line 5 is a line for introducing and pressurizing air to the blood side of the hemodialyzer 1. The air supply line 51 is provided with an air filter 52 at the upstream end and connected to the venous chamber 23 at the downstream end. And an upstream air supply means (air pump) 53 provided in the air supply passage 51 and a downstream on-off valve V4. The air pump 53 is controlled by the pressure control means 6 so that the pressure of the air introduced into the blood side of the hemodialyzer 1 is 250 to 500 mmHg. In addition, 7 is a water removal control apparatus, 71 is a dialysate supply line, 72 is a dialysate discharge line.

During priming (the on-off valves V1, V2, V3, and V4 are initially closed), the on-off valve V4 is first opened, the air pump 53 is driven, and the air pressurization line 5 passes through the venous chamber 23. Thus, air is introduced into the blood side of the hemodialyzer 1. Next, the on-off valve V3 is opened, the dialysate pump (not shown) is driven, and the dialysate passes from the water removal control device 7 through the dialysate supply line 71 to the dialysate side of the hemodialyzer 1. Filled. At this time, the air pressure is controlled by the pressure control means 6 so that the internal pressure on the blood side is equal to or greater than the internal pressure on the dialysate side. When the dialysate-side filling of the dialysate is completed, the on-off valve V4 is closed, the on-off valves V1, V3 are opened, and the priming liquid in the priming container 41 passes through the priming line 4 due to the drop, and the arterial blood The circuit 21 and the priming liquid supply line 4 are introduced into the blood circulation path upstream from the connection portion 25, and this portion is primed. When priming of the blood circulation path upstream from the connecting portion 25 is completed, the on-off valve V1 is closed, the on-off valve V2 is opened, the blood pump 3 is driven, and the arterial blood circuit 21 and the priming fluid supply It is introduced into the blood circulation path downstream from the connection part 25 with the line 4, and the blood circulation path downstream from the connection part 25 including the blood side of the hemodialyzer 1 is primed. This completes the fully automatic priming of the blood circuit.
If the pressure of the air is controlled to be larger than the internal pressure on the dialysate side of the hemodialyzer 1, the leak test of the hemodialyzer 1 is performed at the same time when the dialysate filling on the dialysate side is completed. be able to. That is, when the dialysate-side filling of the dialysate is completed, if the blood-side internal pressure (measured by the pressure gauge PV) is lower than the pressure set by the pressure control means 6, the hemodialyzer 1 It seems that a leak has occurred, so it needs to be replaced.

(Example 2)
Next, Example 2 will be described with reference to FIG.
FIG. 2 is a schematic explanatory view of a blood purification apparatus (hemodialysis apparatus) showing another embodiment of the present invention.
As shown in FIG. 2, the hemodialysis apparatus of the present invention has a priming fluid supply line 4 connected to a dialysis fluid supply line 71 downstream of a dialysis fluid pump (not shown) of the dialysis fluid supply device 7 in FIG. It is connected.
In the case of this apparatus, the priming of the blood circuit is such that the priming fluid on the blood side of the hemodialyzer 1 becomes the dialysis fluid, and the upstream side of the connection portion 25 between the arterial blood circuit 21 and the priming fluid supply line 4. Except that a dialysate pump (not shown) is driven for priming the blood circulation path, it is the same as in the first embodiment.

1 Blood purifier (hemodialyzer)
21 Arterial blood circuit 22 Venous blood circuit 23 Venous air trap chamber (venous chamber)
24 Bubble Sensor 25 Connection Portion between Arterial Blood Circuit and Priming Fluid Supply Line 3 Blood Pump 4 Priming Fluid Supply Line 41 Priming Fluid Container 5 Air Pressure Line 51 Air Supply Path 52 Air Filter 53 Air Supply Means (Air Pump)
6 Pressure control means 7 Dewatering control device 71 Dialysate supply line 72 Dialysate discharge line V1, V2, V3, V4 On-off valve

Claims (2)

Air is introduced to the blood side of the blood purifier to increase the internal pressure on the blood side, and the dialysate introduced to the dialysate side of the blood purifier is not transferred to the blood side while A priming method for a blood purification apparatus, wherein the blood side is primed after filling with dialysate. The priming method according to claim 1, wherein the internal pressure on the blood side of the blood purifier is controlled to 250 to 500 mmHg.

Images