DE2843061A1 - Plastics catheter tube resistant to torsional deformation - comprises polyethylene helically crosslinked by high-energy radiation - Google Patents

Abstract

Mfr. of a plastics tube, esp. a catheter tube, comprises irradiating it along a helical line, with ionising radiating in order to increase its torsional rigidity. Irradiation is pref. effected along 2 spirals running in counter-direction w.r.t. each other. The tube is pref. made of polyethylene or a blend of polyethylene with a plastic adapted to crosslink when subjected to ionising radiation. In a further variant, the tube is composed of polyethylene contg. a Pb-oxide filler and sheathed in thin, transparent, polyethylene.

Description

Process for the production of a plastic hose,

in particular catheter tube, as well as manufactured according to the method Hose The invention relates to a method for producing a plastic hose, especially catheter. . , hose for insertion into a patient.

A plastic catheter tube for kidney catheterization is known from DE-OS 18 18 183.

This kidney catheter has except at its insertion-side end also near this end and on the side an opening through which the contrast medium flows. Such a catheter is relatively long and elastic, so that when Introducing into a patient easily the natural routes to the patient to be examined It is difficult to reach the area with this catheter with the catheter inserted to bring the laterally arranged opening into the desired position.

It is also covered by the prospectus, Diagnostic and Intervention Products for the Radiologist and Surgeon.

1977-1980 "known from the company William Cook Europe Aps, in a catheter wall insert a helical steel wire or a wire mesh covering in order to thereby increasing the torsional stiffness, so that the catheter is easily adjusted can be. However, this is complex and expensive, and so is the flexibility of the catheter is adversely affected by this.

The invention is based on the object of a simple method to create a plastic hose of the type mentioned at the beginning, that results in a hose that is torsion-resistant, but at the same time slightly bent can be.

This object is achieved according to the invention in that the hose to increase the torsional stiffness helically through a source of ionizing Radiation is irradiated, Due to the fact that cross-links between the Chain-shaped plastic molecules are created when a plastic tube is ionized with Radiation is irradiated, the torsional stiffness becomes dependent on the size and shape of the irradiated area, increased. Because of the helical radiation the flexibility of the plastic tube is retained.

Further details of the invention emerge from the subclaims. The invention is described below with reference to two exemplary embodiments shown in the drawings explained in more detail.

Show it: Fig. 1 is a longitudinal section through a plastic tube to explain the invention, FIG. 2 shows a longitudinal section through a further plastic hose to explain the invention, Fig. 3 is a representation for explanation of the manufacturing method according to the invention for a plastic hose and FIG. 4 shows a plastic hose made according to the invention.

Fig. 1 shows a catheter tube 1, which consists of a mixture of Polyethylene and a radiopaque filler made of e.g. lead oxide. The catheter tube 1 has a thin outer sheath 2 made of transparent polyethylene on.

Fig. 2 shows a further catheter tube 3, which consists of a mixture made of polyethylene and another plastic, e.g. polyacrylate, in which Cross-links are easily formed upon ionizing radiation.

Fig. 3 shows a schematically shown source 4 for ionizing Radiation whose beam 5 depends on the desired width and depth of the area to be irradiated on the catheter tube 1 or 3 by means of a diaphragm 6 is focused on the catheter tube 1 or 3. When irradiating the catheter tube 1 and 3, the ionizing beam 5 is perpendicular to and tangential directed against the catheter tube, so that in the case of the tube according to FIG. 1 the total thickness of the envelope 2 and in the case of the Hose according to FIG. 2, the entire tube is irradiated. The catheter tube will now with means not shown so rotated about its axis of symmetry 7 and along this Axis moved so that a helical line-like irradiation takes place. Because of of the ionizing radiation form the plastic molecules in the irradiated area 7 cross-links. As a result, depending on the width of the irradiated area 7 the torsional stiffness can be increased.

The catheter tube 3 can due to its plastic mixture over the whole thickness line-like and helical according to FIG. 3 with ionizing radiation be irradiated. Depending on the width and depth of the irradiated area 7 the torsional stiffness can be increased.

The increase in the torsional stiffness of a catheter tube can 4 also take place by two opposing directions with the ionizing radiation mutually lying coils are generated.

The invention is not limited to catheter tubes, but rather also refers to plastic tubing used in other areas, such as hoses for ventilators or other hoses that have a high Flexibility combined with high torsional stiffness is required, e.g. water hoses.

Claims (5)

Claims rm method for producing a plastic hose, In particular catheter tubing for insertion into a patient, which is the case e k e n n n z e i c h -n e t that the hose (1, 3) to increase the torsional stiffness helically irradiated by a source (4) for ionizing radiation. 2. The method of claim 1, d a d u r c h g e -k e n n z e i c h n e t that the irradiation takes place on two opposing coils he follows. 3. Plastic hose produced by the method according to claim 1 or 2, d a d u r c h g e -kennz e i c h n e - that the hose is made of polyethylene. 4. Plastic hose produced by the method according to claim 1 or 2, d a d u r c h g e -k e n n n z e- i h n e t that the hose is made of a mixture consists of polyethylene and a plastic, in which cross-links when irradiated be formed with ionizing radiation. 5. Plastic hose produced by the method according to claim 1 or 2, consisting of a mixture of polyethylene and a filler material made of lead oxide, d u r c h e k e nn n n e i c h n e t that the plastic hose is a thin one Has envelope made of transparent polyethylene, which is irradiated.