DE2513491A1 - DIALYSIS CARTRIDGE - Google Patents

Description

DR. MÜLLER-BORE ÖIPL .-. UG. GROEivi ^ ü DIPL.-CHEM. DR. DEUFEL DIPL.-CHEM. Df-. ALREADY DIPL.- ° HYS. H E RTEL

PATENTANWÄLTE ^ 3 I J 4 «J I

Munich, S / Hl / Ve-th - S / S 89-31

SAHDOZ-PATENT-GmbH
7850 Loerrach, Humboldstr. 3

Dialysis cartridge

The invention relates to an arrangement which serves the process of dialysis in a system of an artificial Kidney and in a similar arrangement to facilitate.

In systems that serve as artificial kidneys, one; Blood is taken from the patient and fed to a dialysis device in which a dialysate solution or washing liquid circulates, and then the process of dialysis releases chemical wastes, electrolytes, and water in the blood into the dialysate solution transferred (and in some cases vice versa) by thin walls of a Fiembran assembly, for example through hollow fibers that carry the blood. The dialysate solution, which contains the waste materials and water, is taken from the dialysis machine taken, it is cleaned of these substances, and the blood is returned to the patient. The process the removal of waste materials and water from the blood is called hemodialysis.

Dialysis devices or dialysis cartridges with hollow Fibers working are such in typical embodiments constructed so that there is a bundle of hollow fibers,

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the ends of which are embedded in rubber or some other elastic material to hold the fibers. The cross-section of the bundle and potting material is circular to enable the bundle to be inserted into a cylindrical body. Blood is then inserted into one end of the container to flow through the fibers to the other end, and the dialysate is introduced into the vicinity of the central portion of the container to flow around the outer surfaces of the fibers and exit again. ¹ With this arrangement, the cross-sectional area of the embedding material is relatively large, and since this material is only supported around its periphery, the pressures generated by the dialysate solution and the blood may cause the material to deform, break and break a leak. This configuration can also pose manufacturing problems for quality control because of the large cross-sectional area of the potting material and the difficulty of attaching the potting material around the ends of the fibers. Finally, the cylindrical dialysis cartridge container can accommodate only one fiber bundle size, so that so v / ohl the container and the fiber bundle must be exchanged if you want to use a dialysis cartridge which has a different effective dialysis surface.

A preferred illustrated embodiment of the invention has a sealing element which defines a cavity, further has first and second transverse members, which extend between the inner side walls of the sealing member, around the cavity in a first, one to subdivide a second and a third section, with membrane elements still being present, which extend across the second portion of the cavity from the first portion extend to the third section to provide fluid therebetween

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transport. A fluid can be in the first section of the The cavity can be introduced to provide transport through the Iie-mbraneleniOnte to the third section, and a further fluid can be introduced into the second section of the cavity in order to flow around the membrane device and thereby to facilitate the dialysis process.

According to the invention, a dialysis cartridge is created which is characterized in that a sealing element is provided is, which defines a cavity that further a first and a second Quereletnent is each attached in side walls s of the sealing element and between these side walls extends so that the cavity is divided into a first, second and third section, that further a membrane device is present to guide fluid that the membrane device extends over the second portion of the cavity extends between the cross members to provide a passage for the fluid between the first and second portions of the To form cavity that further comprises a sealing device for sealing the first and third sections against the second section is provided that there is also a device which serves to fluid the first Feed section which is intended to flow through the membrane device into the third section, and that further means are provided to bring fluid into the second section, which is intended to the outer surface of the membrane device to flow. The dialysis cartridge according to the invention can also be designed in this way that there is also a device which serves to receive fluid from the third section, and that furthermore there is a device which serves to receive fluid from the second section.

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The sealing element and the transverse elements can be made of elastic material such as silicone rubber, polymethyl methacrylate or be made of a similar material.

The sealing element and the transverse elements can define a substantially planar profile, and the sealing device may have a pair of plates for pinching the sealing member therebetween. Such a dialysis cartridge may further have means for compressing the two plates together with the sealing element therebetween is jammed. In this construction it is preferably provided that at least one of the plates has an opening through which fluid is introduced into the first portion of the cavity can be that at least one of the plates has an opening through which 'fluid from the third portion of the Cavity can be received that at least one of the plates has an opening through which fluid in the second Section of the cavity can be introduced, and that at least one of the plates has an opening through which Fluid can be received by the second section.

In a further preferred embodiment according to the invention it is provided that the side walls of the sealing element have a first opening through which fluid enters the first Section of the cavity can be introduced that further a second opening is provided through which fluid from the Third portion of the cavity received v / ground that there is also a third opening through which fluid can be received in the second section of the cavity, and that a fourth opening is present through which fluid can be received by the second portion of the cavity.

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According to a preferred embodiment of the invention is
further provided that the membrane means comprises a plurality of hollow fibers, the ends of which are held in respective transverse members, so that the fibers extend from the first section to the third section of the cavity for the transport of fluid therebetween.

A particularly advantageous further development of the arrangement according to the invention is characterized in that a dividing device is provided which divides the first section of the cavity into a first and a second subsection, and that there is also a device which serves to introduce fluid into the first subsection so that this fluid flows from the first sub-section through the membrane device to the third section of the cavity and then flows through the membrane device to the second section, and that a device is present,
which serves to receive fluid from the second section.

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The invention \ · ΐ ± τά example described below with reference to the drawing; in this show:

Fig. 1 is a perspective exploded view of a dialysis cartridge which is designed according to the invention is,

Fig. 2 is a plan view of the sealing element and the membrane arrangement the dialysis cartridge according to FIGS. 1 and

3 is a plan view of an alternative embodiment of the sealing element and the membrane assembly.

The dialysis cartridge according to FIG. 1 is described on the assumption that that the cartridge is being used for hemodialysis. However, it should be obvious that the cartridge can also be used for various other types of dialysis can be used. According to FIG. 1, the cartridge has a rectangular shape in its entirety Sealing element 2, which circumscribes and defines a hollow area within the sealing element will. The seal 2 is made of a material such as silicone rubber or polymethymethacrylate. A pair of cross members 4 and 6, which are preferably made of the same material as the seal 2, extend in parallel within the Side walls of the gasket 2 to divide the hollow area defined by the gasket into three sections or subsections 8, 10 and 12. The cross members 4 and 6 can be an integral part of the Seal 2 or they can be made separately and then attached to the seal by a suitable adhesive 2 must be attached. The seal 2 and the transverse elements 4- and 6-6 define a generally planar profile that is substantially uniform in thickness.

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A variety of membrane elements in the form of hollow ones F a πθ3 * η 14 emerge between the cross elements 4 and 6 across the hollow section 10. The pins are where the fibers are in the corresponding transverse elements 4 and (- embedded and are obtained from serve to the fibers at their, respective ies To fix place. The ends of the fibers extend straight through the corresponding Q.uerelement e through into the two frontal hollow sections or subsections: - 8 and 12. A Part of the ends of the fibers 14, which rieh in the holil en section 8 extend are shown at 16 in FIG. 1 darp; este]] t. The caves Fibers 14 can be made of cellulose or some other semi-permeable Hembi'an exist.

Embedding fibers into the Querel dei ¹ eaiente can in various V / else to happen. Either way, some of the fibers can be placed in a mold, and vulcanizing silicone rubber which has not solidified at room temperature can be applied to it. When this silicone rubber hardens or solidifies, further fibers can be placed on it, and further non-solidified silicone rubber can be applied to the fibers. This process can be repeated until the desired number of fibers is arranged in the cross elements formed from silicone rubber. If necessary, the fibers and the silicone rubber can be cut off at both ends in order to obtain a clean end face of the fiber ends.

The one for holding and receiving the seal 2 and the fibers 14 The serving arrangement has a pair of generally flat flats 20 and 22 on. The plates 20 and 22 are arranged above and below the gasket 2, respectively, and then by screws 24 held, which through openings in the plates 20 and 22 and

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through the hollow sections 8 and 12 with nuts 26 screwed onto the bolts. The plates 20 and 22 are pressed together by tightening the nuts on the screws, so that the seal 2 and the cross members 4 and 6 are pressed together so that each the hollow sections or subsections 8, 10 and 12 is sealed against others. This means that the plate is pressed against the top of the seal 2 and the transverse elements 4 and 6 and that the plate 22 is pressed against the underside thereof is pressed in order to produce the necessary seals in this way. Of course, a variety of arrangements could be used used to secure the flats 20 and 22 together, various releasable clamping devices can also be used.

When the plates and gasket are properly assembled, blood from a patient is introduced into the dialysis cartridge, namely through a line or through a tube 30, which via an opening therein on the plate 20 is attached. The opening in the plate 20 is arranged above the hollow section 8, so that blood which is supplied to the tube 30 is entered into the hollow section 8. The tube 30 may be attached to plate 20 by any suitable means which will allow blood to be transferred into the hollow part 8 allows, while a leak is prevented. An example could be a raised cylindrical nipple in the Plate 20 may be formed over which the end of the line could be arranged, the attachment by a suitable bracket takes place. The blood introduced into the hollow portion 8 flows through the fibers 14 to the hollow portion 12, and from there the blood is drawn from the dialysis cartridge through a tube 32 which is attached to the plate 20 via an opening in the plate is arranged, forwarded. Again it is

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Opening through which the tube 32 is attached, above the hollow section 12 arranged. The position of the openings in the plate 20 is indicated by dashed circles in FIG.

The dialysate solution or washing liquid is introduced in a similar manner into the central hollow section 10 and from there discharged again. Preferably, the dialysate solution is fed into a corner of the central hollow section via a tube J4 10 and the solution flows and circulates around the fibers and then out of tube 36. The blood flows through the bases 14, and the dialysis solution flows around the fibers around, being chemical wastes, electrolytes, by dialysis and water in the blood through the waxes of the fibers into the Dialysate solution over.

In the arrangement shown and described, seals different thickness between the flats 20 and 22 are arranged, and in this way the membrane or the fiber wall area has simply been changed by using gaskets of different thicknesses with different numbers of Fibers used v / earth. Furthermore, the flat profile of the dialysis cartridge makes packaging and transport easier. It may be useful to transport the gasket in a sterile membrane case (to keep the gasket in a sterilized condition), the housing could remain over the gasket if the gasket is between the plates (provided that suitable openings are made in the membrane to prevent entry and To allow blood and dialysate solution to escape). The (^ uerelemente 4 and 6, by which the fibers 14 are attached are, form a robust filter for the fibers, as the strength of the transverse elements and thus the distance between

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Support points of the transverse elements duixh the flats 20 and 22 is relatively low. This means that there is an extremely low risk that the transverse elements due to deformed or broken by the fluid pressure introduced into the dialysis cartridge.

Fig. 3 shows an albernative embodiment of an arrangement a dialysis seal and membrane. In this embodiment, two hollow sections 40 and 42 are at one end of the Seal 2 formed, with also a central hollow section 10 and one arranged on the opposite end hollow portion 12 are provided in the seal, and although as in the embodiment according to FIGS. 1 and 2. Hollow fibers 14 extend transversely across the middle or central ones hollow section 10 between the hollow section 40 and the hollow section 12 and between section 12 and hollow section 42. In this embodiment, Dinium solution is used is inserted into the hollow central portion 14 through a portion of the tube 50 which extends through the side wall of the Seal 2 extends, and blood is in the section Λ0 through inserted a portion of tube 52 which extends through the end wall of the seal to pass through fibers 14 to the hollow portion 12 and gut through the fibers 14 to the Stream Section 42. This creates a longer membrane passageway created for the blood that it is made up of by the dialysate solution as a result of which the blood is more exposed to the dialysis process. Of course, plates 20 and 22 used in the sealing arrangement according to FIG. In this case, no openings in the plates would be required because the blood and dialysate solution would be introduced into the cartridge and drained from the cartridge by passing them through sections of the tube extending through the walls of the gasket.

* ~ Patent claims ~

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Claims (12)

Claims 1. Dialysis cartridge, thereby g e k e η η ζ e i c h η e t that a sealing element (2) is provided which defines a cavity that- furthermore a first and a second Cross element (4, G) in each of the side walls of the Diohtungselementes (2) "is attached and located between these seiton walls extends so that the cavity is divided into a first, second and third section (δ, 10, 12), that a membrane device (IA) is also present, to guide fluid that the membrane unit (14) over the second section (10) of the cavity between the transverse elements (4, 6) to provide a passage for the Fluid between the first and the second section (S, 10) of the cavity to form that further a sealing device is provided for sealing the first (&) and the third (12) section against the second section (10), that there is still a facility to do this serves to supply fluid to the first section (8), which is intended to be through the membrane device (IA) in the third section (12) to flow, and that further means are provided for fluid in the second section (10) which is intended to flow around the outer surface of the membrane device (14). 2. Dialysis cartridge according to claim. 1, characterized in that there is still a facility, plural marriage serves to To receive fluid from the third section (12), and that a device is also present which serves to Receive fluid from the second section (10). 3 · dialysis cartridge according to claim 1 or 2, characterized in that the sealing element (2) and the transverse elements (4, 6) from are made of an elastic material. 5098 ^ 0/0993 4. dialysis cartridge according to claim 3, characterized in that the sealing element (2) and the transverse elements (4, 6) are made of silicone rubber. ^. Dialysis cartridge according to Claim 3i, characterized in that the sealing element (2) and the transverse elements (4, 6) are made of polymethyl methacrylate. 6. Dialysis cartridge according to one of the preceding claims, characterized in that the sealing element (2) and the transverse elements (4, 6) define a substantially flat profile and that the sealing device is a pair of Plates (20, 22) to hold the sealing element (2) therebetween. 7 · Dialysis cartridge according to claim 6, characterized in that a device is provided which serves to press the two plates (20, 22) together around the sealing element (2) to be wedged in between. 8. dialysis cartridge according to claim 6 or 7, characterized in that that at least one of the plates (20, 22) has an opening through which fluid in the first section (8) of the cavity can be introduced so that at least one of the plates (20, 22) has an opening through which i'lüid can be received by the third section (12) of the cavity that at least one of the plates (20, 22) has an opening through which fluid can be introduced into the second section (10) of the cavity, and that at least one of the plates (20, 22) has an opening through which fluid from the second section (10) can be included. 5 0 9 8 L 0/0 9 9 3 9. Dialysis cartridge according to claim 6 or 7> characterized in that the side walls of the sealing element (2) have a first opening through which fluid can be introduced into the first section (δ) of the cavity, that further a second opening is provided through which fluid from the third portion (12) of the cavity can be included that there is also a third opening through which fluid in the second section (10) of the cavity can be accommodated, and that a fourth opening is present through which fluid from your second portion (10) of the cavity can be added. 10. Dialysis patrol according to one of the preceding claims, characterized in that the membrane device is a 'Has a plurality of hollow fibers (1A-), the ends of which in corresponding transverse elements (4, 6) are held so that the fibers extend from the first section (δ) to the third section (12) of the cavity to therebetween To transport fluid. 11. Dialysis cartridge according to one of the preceding "claims, characterized in that a dividing device is provided which divides the first section (8) of the cavity into a first and a second sub-section (40, 42) subdivided that there is also a device which serves to feed fluid into the first subsection (40) introduce so that this fluid from the first sub-section (40) through the Kerabraneinrichturig (14) the third section (12) of the cavity and then λ through the Hembraneinrxchtung (14) the second section (10) flows in, and that a device is present which serves to remove fluid from the second section (10) to record. B η 9 η u η / ο 9 η Ί 12. dialysis cartridge, characterized in that an elastic Sealing element (2) is provided which defines a cavity that furthermore a first and a second elastic transverse element (4, 6) are fastened in the inner side walls of the sealing element (2) and themselves extend therebetween to divide the cavity into first (8), second (10) and third (12) sections subdivide that further a plurality of hollow fibers (14) embedded in the elastic transverse elements (4, 6) and extend between these elements across the second section (10) that the ends of the fibers (14) through the respective transverse elements (4, 6) into the first and third sections (8, 12) of the cavity extend to thereby create passages between the first and third sections (8, 12), through which fluid can flow that continues an ear of flats (20, 22) are provided that a device is also present which serves to one of the plates (20) in engagement with the top of the sealing element (2) and the other of the plates (22) to be held in engagement with the underside of the sealing element (2) in such a way that the sealing element (2) is clamped between the plates (20, 22) that a device is also present which serves to Introduce fluid into the first section (8) of the cavity, which is intended to through the fibers (14) the third section (12) to flow, and that a device is provided, which serves to introduce fluid into the second section (10) of the cavity, which to is intended to flow around the fibers (14). h I) <J B 4 U / Γ) 9 9 3