DE1081611B - Blood dialysis machine - Google Patents

Description

Blood dialyzer The invention relates to a blood dialyzer (so-called artificial kidney), its inflow and outflow by means of suitable pipes, preferably made of plastic, to be connected to body veins, and in which the to be cleaned Blood is fed to a semipermeable membrane on which the blood flow is turned away Page is washed around by an electrolyte solution of known composition. Both previously known devices of this type are provided with a motor-driven blood pump, through which the blood is transported into the actual dialysis machine.

In principle, the known dialysis machines consist of one semipermeable membrane tube (made of cellophane) around a cylinder made of wire mesh is wound or spiraled into a mesh system made of fiberglass. This The hose system is immersed in the dialysis fluid of known composition, which in turn is circulated by means of a pump or some other circulating device will. Oxygen is also supplied and the liquid is thermostated kept at a temperature of 38 to 400 C.

The known devices all have the disadvantage that they are too expensive and are too complicated to use. The one necessary for the actual dialysis process In order to create the necessary exchange surface, the hose must be several meters long be. In addition, specially trained doctors and must in the known procedural In some cases, technicians may also be present during the implementation of the procedure monitor the devices.

The complicated operation as well as the large amount of equipment required high treatment costs. Another very significant disadvantage of all known Devices lies in their unphysiological mode of operation.

Blood must be pumped out of the patient with an external mechanical force, whereby the patient's circulation is additionally stressed. Unphysiological and Direct contact between the blood to be purified and the blood is also harmful Parts of the blood pump, this increases the risk of foreign bodies entering the Blood as well as the risk of vortex formation, bruises, etc. and thus also the formation of thrombi and the risk of haemolysis increased.

Through the interposition of a mechanical pump, the conduction paths for the blood in exogenous materials are very long. These long ones However, conduction paths must be filled with preserved blood. This is at known institutions require an amount of 1 to 2 liters of preserved blood, to replenish the entire blood purification system. This measure in turn represents a Exposure of the patient to foreign blood, which is still due to the faster tendency to disintegrate and additional urea formation is increased. In addition, according to the to thick blood stream (1 to 2 mm diameter) in 18 to 20 m long cellophane tubes the diffusion rate is too low, so the treatment usually takes 4 to 8 hours take. In addition, these excessively long hose lines have a considerable effect Increase in pressure and consequently, in turn, damage to the blood.

The aforementioned disadvantages are eliminated by the dialysis machine according to the invention avoided.

According to the invention, the device is characterized in that the the blood supply to the device is positioned higher than the patient's heart, merges into a manifold with outlet openings and in the drop area of the exiting Blood the semipermeable membrane is provided in such a way that the out of the manifold escaping blood flows around the membrane as a thin and even film as possible, and that below the membrane for receiving the purified blood is a receiving device in the form of a channel or the like. Is provided to which the leading to the body vein Drainage is connected, and that further means on both sides of the membrane for the connection of the inlets and outlets coming from a known circulation tank are provided for the dialysis fluid.

In an advantageous embodiment of the invention, the distributor pipe is arranged horizontally and axially parallel over the cylindrical membrane while inside of the membrane to displace the dialysis fluid against the membrane surface Body lies in such a way that the dialysis fluid in a narrow gap between the displacement body and the membrane flows through at very high speed and can keep the thin membrane film taut. The preferably cylindrical Displacement body is expediently streamlined at both ends and is at the front and back with a spacer for attaching the cover duct connection for the connection of the inlet and outlet pipes. The one on the displacer arranged spacers can be streamlined. To a flawless It is expedient to achieve a seal between the membrane and the dialysis fluid each transition piece with a coupling ring or retaining ring made of silicone or the like. provided, which presses the membrane firmly and tightly against the transition piece. As an additional Another locking ring can be provided for securing.

It is conceivable that the displacer together with the membrane can be set in rotation, for example, to accelerate the dialysis process. For this purpose, at the front or rear end of the displacer Streamlined drive vanes can be provided, which when acted upon the rotating displacement body with the set the membrane attached to it in rotation. At the front and rear ends of the displacement body are preferably streamlined holding and Transition pieces for connecting the inlet and outlet lines for the dialysis fluid intended. It is also essential that the parts of the dialyzer exposed to blood are arranged in a two-part, transparent and dust-proof housing, its parts lying above the supply pipe to avoid dripping of condensation water in the area of the supply pipe to run obliquely downwards have to.

The object of the invention is shown in the drawing using an exemplary embodiment shown.

1 shows schematically the structure of the dialysis machine; Fig. 2 is a section along line II-II of FIG.

A nylon catheter (supply line 1) Blood is diverted and finely distributed through a manifold 2 with holes 3 the roller-like membrane 4 dripped in the form of a cellophane skin. That The distributor pipe is expediently made of Teflon. The preferably cylindrical membrane 4 with the displacement body 10 supporting it in the form of a roller is higher than the patient's heart. As a result, the blood is only driven by the force of the heart. The blood dripping through the Teflon tube 2 reaches the membrane 4, which has a can have a correspondingly large diameter.

The displacer 10 lying coaxially to the membrane 4 is at the front and Streamlined at the rear and with receiving or holding means for transition pieces and the membrane 4 is provided. More specifically can be done on the streamlined ends of the displacement body 10 each have a spacer 16, 16 'arranged, which also Can have streamlined shape. These spacers 16, 16 'form a support for the transition piece 13, 13 ', which from the supply pipe 8 to the larger ring channel Transfer between membrane 4 and displacement body 10. On this transition nozzle 13, 13 'the membrane 4 is pulled open. It is supported by a retaining ring 13 a, 13asz which is placed on the transition stubs 13, 13 'after the membrane 4 has been laid over it is clamped tightly on these transition pieces. If necessary, the protruding Ends of the membrane 4 still by a coupling ring 13 b, 13 b 'sealing against the Transition pieces are pressed.

To attach the cellophane membrane, the feed pipe 8 is in the direction Arrow F pushed outwards and thereby detached from the transition connector 13.

The parts 13 a, 13 b; 13 a ', 13 b' removed and after the membrane 4 has been placed in place, it is again firmly attached to the connecting pieces 3, 13 '. Of the the front narrower part of the nozzle 13, 13 'is preferably a rotary and plug-in bearing educated. The parts are made of silicone rubber or, preferably, of Teflon.

The connections for the dialysis fluid supply and discharge lines are denoted by 8 and 9.

Since the cellophane tube 4 on all sides with a small distance of about 1 mm above the displacement roller 10, the dialysis fluid container is removed 7 dialysis fluid set in circulation by means of a pump 17 via the supply line 8, in which a connection piece 18 is provided for the supply of oxygen can be, in the direction of the arrows in the annular gap between the displacement body 10 and membrane at high speed pass through and the inner surface of the membrane 4 Rinse on all sides. Thus, on the entire roller surface, from which the blood flows down freely, an intensive exchange of substances takes place. The cleaned Blood drips from the membrane 4 into the channel 5 and passes through the air filter 12 into the drainage tube 6 up to the vein, which is indicated by V in the drawing. After flowing through the annular gap between membrane 4 and roller body 10 arrives the dialysis fluid, together with the substances absorbed from the blood Derivation 9 back into the container 7, which is correspondingly large, for example Holding 100 liters, can be designed. The container 7 has a heater 19 as well a thermostatic temperature control 20 through which the dialysis fluid is kept at the desired temperature. The electric motor 21 also drives a feed pump 17, which maintains the dialysis fluid circuit.

As already stated, the blood is only pressurized by the heart rate conveyed into the distribution pipe 3 and then flows, following the natural gradient, via the membrane tube 4 to the channel 5, from where it is according to the inclination of the channel got back into the body vein without any external force. The distributor pipe 3, the displacement roller O with membrane 4 and the drainage channel 5 are arranged in an airtight housing and thus protected from dust. This housing has the special task of evaporation and prevent the blood from drying out. It can additionally with oxygen be charged so that, if necessary, a blood wash is also carried out can be. The bottom of the protective housing 15 is covered with foam rubber or the like. designed and is done beforehand with physiological saline solution or only with sterile water soaked to form a kind of vapor chamber. The housing must also be in its upper Part to be designed so that condensation drips onto the cellophane roller 14 is avoided.

For this reason, the upper part of the housing expediently has a pointed gable or running in a Gothic arch.

The device according to the invention can also be used for other dialysis processes, which are used, for example, in the chemical industry. It draws extremely simple to use and, in particular, by eliminating them the blood pump off, whereby a greater protection of the patient and the blood achieved will. The device works physiologically perfectly as the heart rhythm is not disturbed and the blood is not damaged by impact, squeezing, vortexing, etc. and thereby the thrombus formation is promoted. The inventive device can be operated by a single person, namely the doctor himself. It's easy and cheap to manufacture and by using the very short cellophane tube as a dialysis membrane, it is also cheap to operate. Because the dialysis effect is considerably greater than is the case with the known devices, the treatment time can be significantly reduced will. With a correspondingly large membrane surface, one can at a time dialyze the entire blood content of a body for 16 to 20 minutes. About that In addition, oxygen blood washing can be carried out in a very simple manner with the device according to the invention be combined with blood dialysis in the gentlest way possible. The device is transportable, and there is no need to top up with the known devices foreign blood (canned food).

It is conceivable to also use the cylindrical displacement body with a membrane to be arranged obliquely or even perpendicularly without deviating from the inventive concept will. Blood flow and dialysis fluid can flow in countercurrent to one another will. Furthermore, to increase the performance of the device, several, for example two diaphragms with associated displacers one behind the other, that is, one above the other or can be arranged next to each other. When several rollers are arranged in parallel (parallel connection) can either keep the device smaller and / or increase the dialysis area as required will.

PATENT CLAIM: 1. Blood dialysis machine, its inlet and outlet by means of Plastic lines are connected to body veins and in which the to be cleaned Blood is passed to a semipermeable membrane that is on the other side of an electrolyte solution of suitable composition is washed around, characterized in that that the blood supply line (1) of the device is higher than the patient's heart is arranged, merges into a distributor pipe (2) with outlet openings (3) and the semipermeable membrane (4) is provided in the fall area of the exiting blood is in such a way that the blood exiting from the manifold (2) touches the membrane (4) as possible in a thin and even film flows around, and that below the Membrane (4) for receiving the purified blood, a receiving device in the form a channel od. The like. Is arranged to which the drainage leading to the body vein (6) is connected, and that further on both sides of the membrane (4) funds for the connection of the feed and discharge lines going out from a known circulating container (7) (8, 9) are provided for the dialysis fluid.

Claims (1)

2. Dialysis machine according to claim 1, characterized in that the Distribution pipe (2), membrane (4) and channel (5) higher than the heart of the patient to be treated lie. 3. Dialysis machine according to claim 1 or 2, characterized in that that the distributor pipe (2) is horizontal and axially parallel over the cylindrical membrane (4) and within the membrane (4) the dialysis fluid against the membrane surface to be displaced body (10) is arranged such that the dialysis fluid in a narrow gap (11) between the displacement body (10) and the membrane (4) can flow through it at high speed. 4. Dialysis machine according to claims 1 to 3, characterized in that that the drainage channel (5) located below the membrane (4) in the direction of the connection end for the line (6) leading to the vein (V) is inclined and in this line (6) an air filter (12) is provided. 5. Dialysis machine according to claims 1 to 4, characterized in that that on the roller-like displacement body (10) holding means (16, 16 ') or a Support for the membrane (4) are provided. 6. Dialysis machine according to claims 1 to 5, characterized in that that the displacement body (10) is streamlined at the front and rear ends and a holding and transition piece (13, 13 ') for connecting the dialysis fluid Supply (8) and discharge (9) is provided. 7. Dialysis machine according to claims 1 to 6, characterized in that that the displacement body (10) is provided with drive vanes (14) such that it is set in rotation by the application of the dialysis fluid will. 8. Dialysis machine according to claims 1 to 7, characterized in that that the actual dialyzer in a two-part, transparent, airtight Housing (15) is arranged. 9. Dialysis machine according to claim 8, characterized in that the Housing (15) to prevent dripping in the area of the tubular cellophane membrane (4) in the upper part with a pointed gable or tapering with a Gothic pointed arch is.