DE2703188A1 - Control system for kidney dialysis - using disposable hoses and balancing pump for substitute soln. feed equal to blood filtrate extn.; minimising infection risk - Google Patents

Abstract

In a monitor and control system for artificial kidneys, based on the haemofiltration method, disposable hose system feeds the haemofiltrate through a blood detector and a pump to an empty container. The latter is linked by a balancing meter to the container for the substitute soln. a pump fo the extn. of the latter and its feed into the dialyser of the artificial kidney is so controlled that it adds the exact weight of the haemofiltrate as substitute. Injection risk is minimal and system is easy to operate and service.

Description

Control and monitoring unit for one

artificial kidney after the hemofiltration method in treatment Kidney-damaged patients after the hemofiltration method are transferred to the blood a semi-permeable membrane by means of a peristaltic pump, which creates a negative pressure of 0 to 500 mm hg generated, liquid and pollutants removed. This pump is arranged on the hemofiltrate side of the membrane. The blood plasmas pass through the membrane held back. The pollutant-containing liquid withdrawn from the blood (hemofiltrate) flows through a blood leak detector to a controllable, self-monitoring one Hemofiltrate vacuum pump and from there into a measuring container, which is connected to a weighing device connected.

The patient receives a precisely dosed liquid via an automatic control system amount of liquid (substitution solution) that corresponds to the amount of liquid, which was withdrawn through the membrane. The ijes container with the one to be fed to the patient Liquid is connected to the same equipment as the one above indicated measuring container with the degassing substances.

Hemofiltrate and substitution solution are simultaneously via a single measuring device measured and kept equivalent to each other. By a precision strain gauge an extremely high accuracy of the constant weight is achieved via the control unit.

The blood leak detectors used so far consist of a chamber, through which the filtrate flows; they work according to the photometric method. Their disadvantage is that the rammer disinfected BEZW after use. sterilized Need to become. The purpose of the invention is therefore handling and maintenance of the 3lutieck detector to facilitate and exclude the risk of infection for the patient.

This is achieved by means of a single-use hose system that is used for this purpose provided bracket is introduced, in which on one side a lamp and on the other hand, a light-sensitive unit for measuring the wavelength of the blood is, so that in the event of a blood breakthrough through the membrane (blood leak) the measuring device the device switches off. To optically center the light there is a wipe Hose and measuring unit an optical lens.

The vacuum pumps used to this day work according to the principle of vacuum pumps, so that compressor pumps are necessary to the pressure systems of the Octopus houses need to be connected.

In some cases, peristaltic pumps are also used in which the negative pressure is set by the speed. A control and monitoring is here not possible.

The above pump system has the advantage that the pressure is constant is kept and the pressure deviations in an adjustable range optically and be indicated acoustically.

The accounting of the substitution solution that replaces the one taken out Hemofiltrate is returned, has so far mostly been done by means of return Hand control; a bed carriage was the control. By the present balancing device a higher accuracy is achieved, below one percent. A balance discrepancy is indicated by an acoustic and optical signal and the device switches on turns off automatically. The return of the substitution solution; is done with a Peristaltic pump.

With the present inventions, the risk of infection for the Significantly lower patients, handling and maintenance of the device are easier been; The signal directions are used to monitor - how with conventional systems - redundant, due to the disposable blood leak detector the risk of infection is eliminated and the maintenance of the device is made easier. Alla Hose systems are made of disposable material. Patients are number able o your supervisors to operate the device properly.

In @il @@@@@ en the inventions, @n @and one becomes an embodiment @@@ elle @@ en schematic drawing, the construction and operation of the Device explained earlier: That from the artificial here (A) via the semipermeable The hemofiltrate discharged from the membrane flows through an internal hose system the blood leak detector (1), which is controlled by a measuring and control unit (2).

The hemofiltrate is then transferred to the hemofiltrate vacuum pump (3), which is controlled via a monitoring and control device (4) is.

An empty container (8) holds the hemofiltrate that comes with the Substitution solution-filled container (9) via the measuring device for balancing (5) is mechanically connected.

A monitoring and control direction for balancing (6) regulates the weight difference caused by the the inflowing hemofiltrate and the outflowing substitution-less result.

Claims (3)

Claims 9 device for monitoring and regulating artificial ones Kidneys by the hemofiltration method with a dialyzer that is on the blood side has an arterial inlet and a venous outlet connected to a feed a substitution solution is connected and the dialyzer has an output on the Has filtrate side, characterized in that using a closed Single-use hose system, the outlet on the filtrate side via a blood detector (1) and a pump (3) for the hemofiltrate is fed to a container (8), the container (8) with a container (9) receiving the substitution solution via a measuring device (5) is connected, and the output of the container (9) depending on the original weight of the two containers (8, 9) via a pump (7) for the substitution solution in this way it can be regulated that one is arranged between the container and the venous outlet of the dialyzer () Disposable hose system that is fed into the container (8) via the filtrate side Weight as a substitute solution from the container (9) back to the venous outlet feeds. 2. Apparatus according to claim 1, characterized in that the blood detector has a notch-like receiving opening for receiving the disposable hose. 3. Apparatus according to claim 1 and 2, characterized in) c that the pumps (3, 7) are designed as hose pumps that can be placed on the hose from the outside are.