JPH0857043A - Blood purification device - Google Patents

Abstract

(57) [Summary] [Object] To provide a blood purification device capable of automatically achieving a liquid level check in a drip chamber. In the blood purification apparatus, an arterial circuit 10a including a normal blood pump 12 is connected to a venous circuit 10b via a blood purifier 15, and the arterial circuit 10a and the venous circuit 10b are respectively provided. In the arrangement in which at least one gas-liquid separation drip chamber 16, 18 is arranged, for each drip chamber 16, 18,
The circuit on-off valves 16e and 18e and the air bleeding on-off valves 16f and 18 are provided on the downstream side of the circuit and the air bleeding line, respectively.
f is provided, while liquid level detectors 16g and 18g are provided in the drip chambers 16 and 18, respectively, and a controller 30 and an operation for operating the valves and the detectors and the blood pump 12 are provided. Switch 32
To provide.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a blood purification device,
In particular, it relates to a blood purification apparatus configured to monitor the state of the equipment during the blood purification (dialysis, filtration, plasma separation) operation.

[0002]

2. Description of the Related Art In general, as a blood purification apparatus, as shown in FIG. 3, an arterial circuit 10a having a blood pump 12 is provided.
Is connected to the vein side circuit 10b via the blood purifier 14, and a blood dialysis device having a configuration in which gas-liquid separation drip chambers 16 and 18 are arranged in the artery side circuit 10a and the vein side circuit 10b, respectively. Are known.

In the blood purifying apparatus having the above-described structure, the waste in the blood purifier 14 is permeated and diffused from the blood in the blood chamber 14a into the dialysate in the dialysate chamber 14c through the dialysis membrane 14b. Is configured. In the figure, the circuit connected via the connectors 20a and 20b shows a priming circuit 22, and the priming circuit 22 supplies the priming liquid (physiological saline) in the reservoir 24 to the blood circuit 10 (10a, It is designed to achieve a so-called priming operation of the blood circuit 10 prior to hemodialysis therapy by appropriately flowing, draining and filling 10b).

However, in order to ensure safety in the blood purification apparatus having such a configuration, the patient's condition management relating to the venous pressure, blood flow rate, etc. during the blood purification operation and the liquid level in the drip chamber are to be ensured. It is indispensable to monitor equipment related to blood coagulation in blood purifiers. For this reason, the management or monitoring in these blood purification devices is usually regulated to be performed every hour from the start to the end of dialysis.

However, in the management of the patient or the monitoring of the equipment in the blood purification apparatus, in particular, the liquid level in the drip chamber is monitored and the adjustment operation required in this case (hereinafter abbreviated as liquid level check). ), If this is not completely achieved, ie,
For example, in the venous side drip chamber 18, when the liquid level 18b further drops, air is directly injected into the body of the patient from the venous side circuit 10b, causing a serious accident called so-called air blockage.

For this reason, as shown in the drawing, a syringe 16 having forceps 16c, 18c is provided in each of the drip chambers 16, 18 in this type of blood purification apparatus.
d and 18d are provided. Then, every time the liquid level is checked, the syringes 16d and 18d are operated to set the negative pressure in the chamber to raise the liquid levels 16b and 18b to predetermined levels 16a and 18a, and adjust the level. Then, the forceps 16c and 18c are set again on the forceps.

[0007]

However, the conventional blood purification apparatus has the following drawbacks, particularly with respect to monitoring of the equipment during the blood purification operation.

That is, the conventional blood purification apparatus requires considerable labor and skill because the liquid level check in the drip chamber requires the manual operation of the syringe and the forceps as described above. Therefore, as a result, there is a problem in that the monitoring of the entire device is extremely complicated and takes a long time.

Therefore, an object of the present invention is to provide a blood purification apparatus constructed so that the equipment can be monitored easily and in a short time during the blood purification operation by automatically achieving the liquid level check in the drip chamber. To provide.

[0010]

To achieve the above object, a blood purification apparatus according to the present invention connects an arterial circuit equipped with a blood pump to a venous circuit via a blood purifier, and In a blood purification apparatus in which at least one drip chamber for gas-liquid separation is arranged in each of the arterial circuit and the venous circuit, a circuit opening / closing circuit is provided on the downstream side of the circuit with respect to the drip chamber and on the air venting line. A valve and an air vent valve, and a liquid level detector in the drip chamber.
At the time of checking the liquid level in the drip chamber during the blood purification operation, based on this check signal, each of the on-off valves and each device of the blood pump are sequentially driven and operated through the liquid level detector to operate the drip chamber. It is characterized in that the liquid level is automatically set to a predetermined level.

In this case, the driving operation of each device is such that, for each drip chamber, the air vent valve is sequentially opened through the liquid level detector and the blood pump is driven for a predetermined time while the circuit valve is closed. Can be configured to.

Further, the liquid level detector is provided with an upper limit switch and a lower limit switch, the driving operation of each device is stopped via the upper limit switch, and a low position alarm of the liquid level is issued via the lower limit switch. Can be configured to.

The blood purification apparatus is constructed as a plasma separation apparatus provided with an arterial side drip chamber, a vein side drip chamber and a plasma drip chamber, and the present invention is effectively applied to this plasma separation apparatus. be able to.

[0014]

According to the present invention, the liquid level in the drip chamber is checked by driving the circuit opening / closing valve and the air venting opening / closing valve and the blood pump provided in the drip chamber.
This can be achieved quickly and automatically by driving the liquid level detector which is also provided in the drip chamber. That is, it is obvious that the device can be easily monitored during the blood purification operation in a short time.

[0015]

Embodiments of the blood purification apparatus according to the present invention will be described below in detail with reference to the accompanying drawings. For convenience of explanation, the same components as those of the conventional configuration shown in FIG. 3 are designated by the same reference numerals, and detailed description thereof will be omitted.

FIG. 1 shows an embodiment of the blood purification apparatus according to the present invention. That is, in the blood purification apparatus shown in FIG. 1, basically, the arterial circuit 10a including the blood pump 12 is connected to the venous circuit 10b via the blood purifier 15, and the arterial circuit 10a and the venous circuit are connected. 1
0b includes a drip chamber 16 for gas-liquid separation,
18 is arranged in the blood purifier 15 so as to separate and absorb plasma from the blood in the blood chamber 15a into the plasma liquid chamber 15c through the plasma separation membrane 15b. However, in the blood purifier 15, the plasma separated from the blood is purified through the plasma purifier 25, then supplied to the plasma drip chamber 26, and returned to the vein side circuit 10b. There is. In addition,
The circuit connected through the connectors 20a and 20b in the figure shows the priming circuit 22. Further, reference numeral 24 indicates a storage tank for storing the priming liquid.

In the apparatus of this embodiment, however, the circuit opening / closing valves are provided in the downstream side of the drip chambers 16 and 18 provided in the arterial side circuit 10a and the drip chambers 18 in the vein side circuit 10b, and in the air bleeding line. 16e,
18e and air vent valves 16f and 18f are provided, and the drip chambers 16 and 18 are provided with capacitance type liquid level detectors 16g and 18g, respectively. The control device 30 and the operation switch 32 are provided for each of the valves, the detectors, and the blood pump 12.

Therefore, according to the apparatus of this embodiment, the regular level check of the liquid level in the drip chamber during the blood purification operation operates or operates as follows. That is, referring also to FIG. 2, when the operation switch 32 is operated (started), first in the first step 40,
The operation is confirmed. At this time, each valve 16e, 1
6f, 18e and 18f are all closed, and the blood pump 12 is stopped.

Next, in the second step 42, whether the liquid level 16b in the artery-side drip chamber 16 is high or low is judged via the liquid level detector 16g, and when this liquid level is low (N). The air vent valve 1
By opening the valve 6f and driving the blood pump 12 for a predetermined time with the circuit opening / closing valve 16e closed, the liquid level 16b is set to a predetermined appropriate level 16a.

Thereafter, if there is a third step 44 (this will be described later), after this, the fourth step 44
In step 46, whether the liquid level 18b in the vein side drip chamber 18 is high or low is the liquid level detector 18g.
When the liquid level is low (N), the air vent valve 18f (and the circuit vent valve 16e) is opened and the circuit valve 18e (and the air vent valve 16f) is closed. By driving the blood pump 12 for a predetermined time, the liquid level 18b is set up to a predetermined proper level 18a. That is,
This allows the level check to be completed quickly and automatically.

The above operation is stopped through the upper limit switch of the liquid level detector. In this case,
The liquid level detector may be provided with a lower limit switch to generate a liquid level low level alarm. Also, in the above operation, if the liquid level 16
If b is correct from the beginning, the second step 42 is passed, and if the liquid level 18b is also correct, the fourth step 44 is also passed. That is, no operation occurs.

The order of the second step 42 and the fourth step 44 may be interchanged with each other. The plasma drip chamber 26 and the third step 44 (level check) relating to the plasma will be described. First, the drip chamber 26 has the same circuit opening / closing valve 26e and air bleeding opening / closing valve 26f as described above.
Also, it is clear that a liquid level detector 26g is provided. Meanwhile, level check (third step 44)
Is the second step 42 or the fourth step 4 described above.
Since it is exactly the same as 6, the detailed description will be omitted.

As described above, according to the present invention, the liquid level in each drip chamber is checked by the circuit opening / closing valve and the air venting opening / closing valve and the blood pump provided in each drip chamber. Driven via a level detector, this can be achieved quickly and automatically. Therefore, monitoring of the device during the blood purification operation can be completed easily and in a short time.

In the blood purifying apparatus of the present invention, the liquid level detector in each drip chamber, which is usually incorporated in an automatic priming apparatus, is used as it is. Since it can be attached to the common control panel 30a and operation panel 32a (see FIG. 1), there is an advantage that it can be provided relatively easily and at low cost.

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

[0026]

As described above, in the blood purification device according to the present invention, the arterial circuit provided with the blood pump is connected to the venous circuit via the blood purifier, and the arterial circuit and the venous side are connected. In a blood purification apparatus in which at least one gas-liquid separation drip chamber is arranged in the circuit, a circuit opening / closing valve and an air bleeding opening / closing valve are provided in the drip chamber downstream of the circuit and in the air bleeding line, respectively. , A liquid level detector is provided in the drip chamber, and at the time of checking the liquid level in the drip chamber during blood purification operation, based on the check signal, the on-off valves and blood pumps are opened and closed via the liquid level detector. Operate each device in sequence to automatically set the liquid level in the drip chamber to a predetermined level. By doing so, it is possible to quickly and automatically achieve the liquid level check in the drip chamber, which requires the most labor and skill in monitoring the device during the blood purification operation, and overall device monitoring is possible. Can be completed easily and in a short time.

Therefore, according to the present invention, it is possible to provide a blood purification apparatus having excellent operability and safety relatively simply and at low cost.

[Brief description of drawings]

FIG. 1 is a system diagram showing an embodiment of a blood purification device according to the present invention.

FIG. 2 is a flowchart showing an operation state of the blood purification device shown in FIG.

FIG. 3 is a system diagram showing a configuration of a conventional blood purification device.

[Explanation of symbols]

 10 Blood Circuit 10a Arterial Side Circuit 10b Vein Side Circuit 12 Blood Pump 15 Blood Purifier 15a Blood Chamber 15b Plasma Separation Membrane 15c Plasma Liquid Chamber 16, 18, 26 Drip Chamber 16a, 18a, 26a Liquid Level 16b, 18b, 26b Liquid Surface level 16e, 18e, 26e Circuit opening / closing valve 16f, 18f, 26f Air venting opening / closing valve 16g, 18g, 26g Liquid level detector 20a, 20b Connector 22 Priming circuit 24 Storage tank 25 Plasma purification device 30 Control device 30a Control panel 32 Operation switch 32a operation panel

Claims (4)

[Claims] 1. An arterial circuit including a blood pump is connected to a venous circuit via a blood purifier, and at least one gas-liquid separation drip chamber is arranged in each of the arterial circuit and the venous circuit. In the blood purifying apparatus, a circuit opening / closing valve and an air bleeding opening / closing valve are provided in the downstream side of the circuit and the air bleeding line with respect to the drip chamber, and a liquid level detector is provided in the drip chamber to perform a blood brewing operation. At the time of checking the liquid level in the drip chamber, the liquid level in the drip chamber is sequentially driven by operating each of the on-off valves and blood pump devices via the liquid level detector based on the check signal. A blood purification apparatus characterized in that the level is automatically set to a predetermined level. 2. The driving operation of each device is such that, for each drip chamber, the air vent opening / closing valve is sequentially opened through the liquid level detector, and the blood pump is driven for a predetermined time while the circuit opening / closing valve is closed. The blood purification apparatus according to claim 1, wherein the blood purification apparatus is configured as described above. 3. The liquid level detector has an upper limit switch and a lower limit switch, stops the driving operation of each device via the upper limit switch, and issues a low position level alarm of the liquid level via the lower limit switch. The blood purification apparatus according to claim 1, wherein the blood purification apparatus is configured to do so. 4. The blood purifying apparatus according to claim 1, wherein the blood purifying apparatus comprises a plasma separating apparatus provided with an artery side drip chamber, a vein side drip chamber and a plasma drip chamber.