DE3409000A1 - Dialyser with hollow fibres - Google Patents

Abstract

The dialyser has tubular reception elements of a material that is impermeable to the haemodialysis solution which cover the terminal sections of the fibre bundle. Each tubular reception element forms the inner wall of the annular chamber of one of the top ends of the housing and has a belt of ports the ports of which open into the annular chamber directly beside the filling material. <IMAGE>

Description

Dialysis machine with hollow fibers

description

The invention relates to a dialysis machine with a bundle of semipermeable hollow fibers for the Flow of blood are suitable while a dialysis solution is being passed on their outer surface, and with a cylindrical, the fiber bundle receiving housing which has two head ends, each of which has one first and second connection ports for the blood and for the dialysis solution, respectively, on each Head end of the housing the ends of the fibers to each other are connected by a filling compound, which the respective head end in a front chamber that is connected to the first Terminal and the interior of the fibers in communication, and divides into an annular chamber that divides the ends of the fibers surrounds and is in communication with the second port.

Such dialysis machines are known and are commonly used in clinical practice.

The dialysis machine according to the invention is characterized by tubular receiving elements for the dialysis solution impermeable material that envelop the end portions of the fiber bundle and each of which forms the inner wall of the Forms annular chamber of the associated head end of the housing and has a ring of holes, the holes in the vicinity the filling compound open into this annular chamber.

As a result of this measure, a dialysis machine is made available which is extremely effective in its application is. In particular, the arrangement of the perforated rings at the ends of the fiber bundle allows a regular supply the dialysis solution along the entire length of the fibers. In the head end, in which the dialysis solution is poured into the

, 2

Dialysis machine is fed, these holes act as diffusion nozzles, which the solution to the part of the fiber bundle guide, which is located immediately behind the filling compound. In an analogous way, takes care of the other head end of the dialysis machine the arrangement of the holes immediately next to the filling compound for the fact that the dialysis solution in the Annular chamber and then only reaches the output connection connected to this when it reaches the ends of the Has wetted fibers. In this way it is ensured that the fibers are separated from the flowing through over their entire length Dialysis solution are applied, which normally flows in the opposite direction to the blood, whereby the formation of backwater zones is prevented, which would worsen the overall effectiveness of the dialysis.

Further features and advantages of the invention emerge from the subclaims and from the following description of embodiments shown in the drawing.

Show it:

Figure 1 is a partially sectioned and partially broken open Side view of a dialysis machine according to the invention,

Figure 2 shows a cross section in the plane II-II of Figure 1 and
Figure 3 shows another embodiment of the invention.

In the figures, a dialysis machine 1 is shown that serves to remove toxins from a patient's blood

remove whose kidneys are not working. 35

The dialysis machine 1 has a cylindrical housing 2 made of transparent plastic, which consists of a tubular Part with widened ends 3.4 consists, which two

Form head ends, which are completed by covers 5 and 6 and are usually bonded to the rest of the housing.

Two tubular connections 7 and 8 extend in axial direction of the housing 2 and are formed in the middle on the respective cover 5 and 6, respectively.

Two further, tubular connections 9 and 10 extend radially from the housing 2, starting from the respective, extended end 3 or 4.

The connections 7 and 8 are used to install the dialysis machine 1 in a blood dialysis circuit in such a circuit Arrangement in which the blood flow passes through the connection 7 into the dialysis machine 1 and exits via the connection 8 the dialysis machine 1 exits.

The connections 9 and 10, on the other hand, serve to build up the flow of a dialysis solution in the dialysis machine 1, which is directed in countercurrent to the blood and reaches the dialysis machine 1 via the connection 10 and through the Terminal 9 emerges from this.

11 denotes a bundle of hollow fibers made of semi-permeable!] Material, such as cellophane or cuprophane. The bundle 11 is surrounded by a tubular shell 12 made of a material which is impermeable ^ISFC for the dialysis solution, and preferably also for the blood ·

The jacket 12 consists of a film that is tightly wrapped around the fiber bundle 11 before it is in the housing 2 is inserted. The introduction of the bundle 11 into the tubular housing 2 is made much easier as a result, that the jacket 12 wrapped around the bundle 11 gives the bundle a certain axial stiffness.

On the outside of the jacket 12 has annular ribs 13 which serve to create a seal between the inner wall of the housing 2 and the jacket 12.

At each head end of the housing 2, the fiber ends of the bundle 11 are surrounded by a filling compound 14 and 15, respectively connected, which consists of a for the blood and the dialysis solution impermeable material, for example

Polyurethane.
10

Each filling compound 14, 15 has approximately the shape of a disk and is completely traversed by the fiber ends of the bundle 12.

Each head end of the housing 2 of the dialysis machine 1 is therefore in by the corresponding filling compound 14 or 15 divided into two chambers.

In the head end through which the blood flow to the dialysis

device 1 arrives, the filling compound 14 forms a front chamber 16, which with the cavities in the fibers and with the connector 7 is in communication, and an annular chamber 17 surrounding the ends of the fibers and connected to the connector 9 in

Connection.
25th

Due to a completely analogous geometry, the filling compound is also formed at the opposite end of the dialysis machine 1 15, a front chamber 18, which is in communication with the connection 8, and an annular chamber 19 into which the connection

10 opens.

In a manner known per se, the filling compounds 14 and Ί5 formed by curing a polyurethane resin which is poured or injected around the ends of the fiber bundle 11 is after this has been inserted into the housing 2. The resin mass penetrates into the gaps between the fibers, which are connected to one another in this way

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bound, and also into the internal voids of the fibers themselves.

In order to avoid that the resin mass for reasons of KapLllarffekt penetrates too far between the fibers and thereby reduces the effective length for dialysis, this will Housing 2 rotated about a central axis which runs orthogonally to the main axis of the body of the dialysis machine 1.

After the resin composition has hardened, each end of the fiber bundle 11 is trimmed so that the ends of the fibers that are sealed by the resin composition, are removed; after attaching the cover 5 and 6 then have the inner cavities of the fibers free communication with the front chambers 16 and 18.

Due to the centrifugal effect during the hardening of the synthetic resin, they enter the interior of the dialysis machine 1 directed sides of the filling compounds 14 and 15 a cylindrical Profile whose axis coincides with the axis around which the dialysis machine has been set in rotation.

With 20 and 21 two perforated rings are referred to, which are in the jacket 12 on the intersection between the envelope surface of the Faserbüadels 11 and the inside of the cylindrical profile of the filling compounds 14 and 15 lie. The holes of the perforated rings connect the interior of the sheath 12, i.e. the spaces between the fibers, to the annular chambers 17 and 18.

In the dialysis machine 1 shown in Figure 3, the jacket 12 envelops only the central part of the fiber bundle 11, while the perforated rings 20 and 21 are provided at the axially outer ends of two tubular bodies 3a, 4a, of which 3g each on an extension of the smaller diameter having central part of the housing 2 extends within the associated head end 3 or 4 of the housing 2.

The axially outer edge of each tubular body 3a, 4a, which is formed in one piece with the rest of the housing 2, and from is made of a material that is impermeable to the blood and the dialysis solution, is embedded in the associated filling compound, so that the widened end 3 is the inner wall of the annular chamber 17 and the widened end 4 is the inner wall the annular chamber 19 form.

2Q When using the dialysis machine according to the invention the blood flow is passed through the connection 7 into the front chamber 16. From the front chamber 16, the blood flows into the interior of the hollow fibers of the bundle 11 and collects then in the front chamber 18 to then the

^ c Leave the dialysis machine via port 8.

The dialysis solution is fed into the annular chamber 19 via the connection 10. Via the openings in the perforated ring 21, which act as diffuser nozzles, act on the dialysis

2Q solution the end areas of the fibers that are located directly next to the filling compound 15. The fact that the holes of the perforated ring 21 lie on the intersection curve between the envelope surface of the fiber bundle 11 and the cylindrical surface of the filling compound 15 results in the formation of stagnation zones

₂ g of the dialysis solution prevents and ensures that the ends of all fibers of the bundle 11 are completely used for the dialysis.

The completely analogous formation of the perforated ring 20 at the opposite end of the dialysis machine has the effect that the dialysis solution only reaches the annular chamber 17 and from this into the output connection 9 when it does i has wetted the ends of the fibers of the bundle 11, which are located directly next to the cylinder side of the filling compound 14 _,._ Find.

Claims (6)

Claims 1.) Dialysis machine with a bundle of semipermeable hollow fibers, which are suitable for the flow of blood, while a dialysis solution is supplied to their outer surface 20wwill, and with a cylindrical, the fiber bundle receiving Housing having two head ends, each of which has a first and a second connection port for the blood or for the dialysis solution, with the ends of the fibers at each head end of the housing one below the other are connected by a filling compound, which the respective head end in a front chamber connected to the first connection and communicates with the interior of the fibers and divides into an annular chamber surrounding the ends of the fibers and is in communication with the second port, denotes g e by tubular receiving elements (12; 3a, 4a) made of material impermeable to the dialysis solution, which envelop the end parts of the fiber bundle (11) u id each of which the inner wall of the annular chamber (17 or 19) of the respective head end (3, ^) of the housing (2) 3 ^ det and has a perforated ring (20 or 21) whose holes open into the associated annular chamber (17 or 19) next to the filling compound (14 or 15). 2. Dialysis machine according to claim 1, characterized in that the filling compounds (14, 15) essentially are disc-shaped that the inside of the Housing (2) facing sides of the filling compounds (14, 15) 5 "lie on a cylinder surface", the axis of which is orthogonal to the axis of the housing (2), and that the perforated rings (20, 21) extend on the intersection curves between the receiving elements (12; 3a, 4a) and the cylinder surface.
10 3- dialysis machine according to claim 1 or 2, characterized in that the receiving elements (3a, 4a) are integral parts of the housing (2). 4. Dialysegeräb according to claim 1 or 2, characterized in that it is a tubular jacket (12) which surrounds the central part of the fiber bundle (11) and thereby the insertion of the fiber bundle (11) into the housing (2). 5. Dialysis machine according to claim 4, characterized in that the tubular jacket (12) end sections made of material impermeable to the dialysis solution, which has the end parts of the fiber bundle (11) envelop and each of which the inner wall of the annular chamber (17 or 19) of the respective head end (3,4) of the Housing (2) and has a perforated ring (20 or 21), the holes in the vicinity of the filling compound (14 or 15) into the associated annular chamber (17 or 19) 6 = dialysis machine according to claim 5, characterized in that the jacket (12) is on its outside Has annular ribs (13) or = annular corrugations that form a liquid seal between the inner wall of the housing (2) and the jacket (12). 340900G * 7 dialysis machine according to one of claims M - 6, characterized characterized in that the jacket (12) consists of a film, which is before the insertion of the fiber bundle (11) in the housing (2) tightly around the fiber bundle ⁵ (11) is wound.