DE6904590U - KATHERTER - Google Patents

Description

"Catheter ^{1. 1}

The invention relates to a catheter for the intravascular exchange of gases and solutions.

If biological exchange organs such as kidneys, liver or lungs fail or are switched off, extravascular, mostly extracorporeal, would become Exchange systems are used, such as extracorporeal dialysis, exchange transfusion, blood oxygenator, etc. These systems and methods have the disadvantage that blood damage is usually caused by the device being used or by the transfused foreign blood, and there are bleeding disorders due to anticoagulant additives. It can be considered in this context for the addressed A person skilled in the art, namely the doctor, is known to presume that one is made of

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Catheters made from glass, rubber or plastic by natural means Execution passages of the body is introduced into hollow organs and is used for emptying or flushing them. Furthermore can It can be assumed as known that under dialysis the separation of colloidal and crystalloid, genuinely dissolved substances is understood by means of diffusion through semi-permeable walls, the real solution enters the presented one through such a wall Solvent while retaining the colloidal particles.

The aforementioned disadvantages of previously known systems are intended according to the invention largely switched off, which appears possible if the gas and solution exchange within the body's own vascular system, e.g. the great vena cava. According to the invention, a catheter which creates this possibility consists of a central one Tube with one end of which is connected to one end of a cladding tube arranged coaxially at a spacing, the wall of which is semipermeable is trained. The space between these two tubes should preferably be covered with a large-pore fabric, braid or the like. be populated, and it is best to use the end of the connection facing away opening ends of the two tubes to be offset parallel to each other and to train them as connecting pieces, so that a perfusion system for gases or solutions can be connected in a simple manner. In a preferred embodiment closes the cladding tube, which acts as a diffusion membrane, on which So the blood flows along the outer wall, one end of the central tube and this is about at least one hole in his Wall with the with a large-pore fabric, braid or the like. padded Space between the pipes in connection.

The drawing shows an embodiment of the in a longitudinal section catheter according to the invention. This catheter is made up of one central tube 1, which is spaced from a coaxially spaced

Cladding tube 2, which acts as a diffusion membrane and therefore from a material creating this possibility is made, is included. This cladding tube 2 closes the upper end of the central tube 1 from, this closure exile preferably tapering to a point Has shaping. The lower opening end of the cladding tube 2 is designed as a connection piece 3, which to the as Connection piece 4 formed opening end of the central tube 1 is arranged offset in parallel. The space between the Central tube 1 and the cladding tube 2 is made with a large-pore fabric, Braid or the like. filled up, as indicated by 5. the two tubes 1 and 2, or more precisely the cavity of the central tube 1 and the space between its outer wall and the inner wall of the cladding tube 2 are about openings 6 in the wall of the central tube in connection with each other.

As already stated above, the wall of the cladding tube acts as a Diffusion membrane between the blood flowing around the catheter and the blood flowing through the space between the tubes Gas or solution. Material, wall thickness and surface are essential for the diffusivity, as need not be explained in more detail of the cladding tube as well as the concentration gradient or partial pressure difference of the solutions or gases flowing against each other are decisive. Silicone rubber should preferably be used for the cladding tube Find. For the large-pored tissue, braid or the like filling the space between the tubes. the proviso applies that there is no It is intended to influence the gases or solutions flowing through, the direction of which is determined by the individual case, i.e. the connection pieces 3 and 4 can function as inflow or outflow openings for the perfusion system to be connected can be exchanged alternately.

Claims (7)

Expectations 1. Catheters for the intravascular exchange of gases and solutions, characterized by a central tube (1), one end of which has one end of a coaxially spaced HUllrohres (2) is connected, the wall of which is semipermeable. 2. Catheter according to claim 1, characterized in that that the space between the tubes (1, 2) with a large-pore fabric, braid or the like. (5) is filled. 3. Catheter according to claim 1 or 2, characterized in that that the opening ends (3, 4) of the two tubes (2, 1) facing away from the connecting end are offset parallel to one another. 4. Catheter at least according to claim 3, characterized in that the opening ends of the two tubes (1, 2) are designed as connecting pieces (4, 3). 5. Kc ^ heter according to any one of claims 1-4, characterized in that the outer wall of the cladding tube (2) is uneven is. 6. Catheter according to one of claims 1-5, characterized in that the jacket tube (2) has one end of the central tube (1) and this over at least one hole (6) in its wall with the space between the Pipes is in communication. * · I »II IMI ft» · > K - "V. 7. Catheter after one of the AnjprfrcJ * »t ζ ei ο h η« t that 4 «·
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