DE19828616A1 - X-ray tube for introduction by catheter into a body vessel of a patient e.g. for treating arterial or venal stenosis - Google Patents

Abstract

An X-ray tube has a vacuum housing section (9) of biocompatible material for directly contacting body tissue and/or fluids. An Independent claim is also included for a catheter with a shaft (3) provided with the above x-ray tube (1) at its distal end.

Description

The invention relates to an X-ray tube for introduction to Body vessels of a living being having a vacuum housing, in which a cathode and an anode are arranged. The The invention also relates to a catheter with a shaft, ver the distal end of such an X-ray tube see is.

X-ray tubes of the type mentioned above are usually for the treatment of diseases with X-rays in the body used inside of patients. Such miniaturi based, insertable into body vessels and thus in immediate X-ray that can be placed close to the tissue to be treated tubes offer the advantage that essentially only that acting and no healthy tissue with X-rays is hit, which is damaged by the X-rays could be damaged.

One area of use for such X-ray tubes is treatment of vasoconstrictions (stenoses) in arteries or veins. In 30 up to 50% of cases in which patients with vascular PTCA treatment (Percutane transluminare Coronary angiography) to widen the vasoconstrictions pull, restenosis occurs after about six months education. By a treatment following the PTCA treatment The constriction of the vessels with X-rays can cause the an reduce the number of patients with restenosis. The Treatment with x-rays is usually done under Use of an X-ray tube arranged on a catheter of the type mentioned at the beginning, which is caused by arteries or veins advanced to the vasoconstriction to be treated and ent is placed speaking relative to the vasoconstriction. The The catheter's x-ray tube is then more suitable  Position relative to the vasoconstriction, which is with x-ray can be applied.

Such a catheter with an X-ray tube is for example known from WO97 / 07740. The catheter has a fle xiblen shaft, in the distal end of which the X-ray tube for the purpose of treating x-ray constriction radiation is arranged. Around the catheter with an x-ray tube Being able to insert the patient's body is the Kathe ter from a body-compatible, a so-called biocom patible material, e.g. B. polyethylene, polyurethane, etc., from educated. If the X-ray tube is not within the The shaft of the catheter is also otherwise Body tissue or body fluids in contact Vacuum housing of the x-ray tube with a layer of one such biocompatible material are coated.

A disadvantage of the known X-ray tube or the known catheter with an X-ray tube that the Be action of a patient created with the x-ray tube X-rays not only the vacuum housing, but also must penetrate the layer of biocompatible material, which absorbs x-rays. For this reason, the X-ray tube with a higher tube current to generate the thera required for the treatment of vasoconstriction Operative X-ray dose operated. But this leads to undesirably to a greater heat development in the loading drove the x-ray tube with the risk of excessive er heating and thus damage to the x-ray tube or the distal end of the catheter surrounding artery or vein webes.

The invention is therefore based on the object of an x-ray tube of the type mentioned in such a way that the Proportion of X-rays generated during operation of the X-ray tube radiation is reduced, which is absorbed before it reaches the tissue to be treated. Another job  the invention is a catheter with an X-ray tube to be trained in such a way that the proportion of X-rays during operation generated X-ray radiation is reduced, which is absorbed before it ge to the tissue to be treated reaches.

According to the invention, this object is achieved by an X-ray tube for introduction into the body vessels of a living being showing a vacuum housing in which a cathode and a Anode are arranged, the vacuum housing at least a housing made of a biocompatible material Seabschnitt, which in the treatment of a Lebe essence with x-rays in direct contact with Body tissue and / or body fluids of the living being can be brought. According to the invention, the vacuum is thus X-ray tube housing, preferably in the area where X-rays are generated, one from a biocompatible and X-ray transparent material cut open which for the introduction of the X-ray tube in Body vessels of living things with no additional layer a biocompatible material. To this The x-ray generated in the operation of the x-ray tube must be so radiation no longer the vacuum housing of the X-ray tube and the layer of biocompatible arranged around the vacuum housing blem material, but only from a biocompatible Material-formed housing section of the vacuum housing penetrate, causing the degree of absorption of the generated X-ray radiation is reduced. The vacuum housing of the Röntgen Genre tube does not necessarily have to be only one of these trained housing section, but can be full be consistently made of a biocompatible material. The vacuum housing of the X-ray tube or the corresponding Be The range of the vacuum housing is so from the biokompati blen material designed to be vacuum tight and pressure stable is.  

The elimination of the additional biocompatible layer around that Vacuum housing of the X-ray tube has the advantage of ge lower absorption of x-rays the further ahead partly that the overall diameter of the X-ray tube is reduced device. In this way, the x-ray tube can be used for treatment smaller body vessels are introduced. Beyond that compared to the manufacture of such an x-ray tube the known x-ray tube arranged on the catheter ver simple because manufacturing steps like the outer coating of the vacuum housing with the biocompatible material can.

Variants of the invention provide, as a biocompatible mate rial for the housing section of the vacuum housing of the X-ray tube glassy carbon, z. B. SIGRADUR, or titanium nitride (TiN) to choose. Both materials are vacuum-tight, pressure-resistant and advantageously have very good blood and tissue compatibility. Glassy carbon also has a low density of ρ = 1.54 g / cm ³ and a low core charge number, so that glassy carbon advantageously has a high level of radiation transparency for X-rays.

The further object of the invention is achieved by a Catheter with a shaft, the distal end of which he X-ray tube according to the invention is provided. By the X-ray gene tube is arranged at the distal end of a catheter, can easily get this into the body, for example in arteries or veins for the treatment of vasoconstrictions, are introduced, the embodiment of the invention X-ray tube due to the elimination of the additional biocompatibility layer around the vacuum housing of the X-ray tube effective treatment with X-rays with low ab sorption of X-rays by materials allowed.

An embodiment of the X-ray tube according to the invention is shown in the accompanying schematic drawing.  

The figure shows an X-ray tube 1 according to the invention. In the case of the present exemplary embodiment, the x-ray tube 1 is arranged at the distal end of a catheter 2 with a flexible shaft 3 formed from a plastic. The catheter 2 with the X-ray tube 1 has been inserted into an artery 4 for the treatment of a vasoconstriction not shown in the figure.

The X-ray tube 1 has a cathode 5 and an anode 6 , which are each connected via an insulator 7 or 8 to a housing section 9 of the X-ray tube 1 . The insulator 8 and the housing section 9 form a vacuum housing 10 .

For the electrical connection of the X-ray tube 1 , for example to a high-voltage generator, which is not shown in the figure, but is known per se, a supply cable 11 is supplied through the shaft 3 with electrical supply lines, not shown, but known per se. The supply cable 11 has at its end a connector 12 connected to the X-ray tube 1 for connecting the electrical supply lines to the internal connecting lines of the X-ray tube 1 . The internal connecting lines of the X-ray tube 1 for the electrical connection of the cathode 5 and the anode 6 are not shown in the figure.

In order to be able to insert the catheter 2 with the X-ray tube 1 for the treatment of vasoconstrictions into the artery 4 , the shaft 3 of the catheter 2 is made of a body-compatible, a so-called biocompatible material, e.g. As polyethylene or polypropylene, and the liquids with body tissue or Körperflüs, in the present case blood 13 , in direct contact housing section 9 of the vacuum housing 10 made of a likewise biocompatible material, for. B. glassy carbon or titanium nitride (TiN) formed. The materials glassy carbon and titanium nitrite are characterized in that they are well suited for the production of pressure-resistant, vacuum-tight housing and have good blood and tissue tolerance. Glassy carbon also has a low density of ρ = 1.54 g / cm ³ and a low core charge number, so that glassy carbon has a high radiation transparency for X-rays.

In the case of the present embodiment, the Ge housing section 9 of the vacuum housing 10 is therefore formed from the glass carbon SIGRADUR.

The advantage of the formation of the catheter 2 with an X-ray tube 1 with a housing section 9 made of a biocompatible material is that by eliminating the required in known catheters, the vacuum housing of the X-ray tube surrounding layer of a biocompatible material, a lower absorption of ge during operation the X-ray tube 1 generated X-ray radiation occurs. The X-ray tube 1 can therefore be operated with a lower tube current, with less heat developing during operation of the X-ray tube 1 , so that the risk of damage from overheating of the tissue surrounding the X-ray tube 1 or the distal end of the catheter 2 is reduced.

For example, it has been shown in the treatment of vascular constrictions with x-rays in arteries that in the operation of the x-ray tube according to the invention compared to a known x-ray tube, whose vacuum housing with an approx. 200 μm thick layer of biocompatible material, in the present case nitrile silicone rubber , is coated, with an applied tube voltage of 20 kV on the innermost layer of blood vessels in an artery an x-ray dose which is higher by a factor of approx. 2.1 is absorbed. This makes it possible light to reduce the power of the X-ray tube 1 arranged on the shaft 3 of the catheter 2 accordingly in comparison to known X-ray tubes or to shorten the treatment time significantly while maintaining the power.

The elimination of the additional envelope of the vacuum housing 10 of the X-ray tube 1 has also, that the Ge samtdurchmesser the X-ray tube 1 and the distal end of the catheter 2 reduces the advantage so that the catheter 2 genröhre with Rönt 1 introduced into smaller vessels and this can be treated with X-rays.

The X-ray tube according to the invention can in cross section Have a diameter of less than 1.5 mm.

Moreover, the structure of the invention facilitates the x-ray tube 1, the manufacture thereof can, since manufacturing steps such as the coating of the vacuum enclosure 10 of the Rönt genröhre 1 with a layer of biocompatible material covered ent.

The structure shown in the figure of the X-ray tube 1 according to the invention or of the catheter 2 according to the invention is only to be understood as an example and can deviate from the structure described above in the context of the invention.

So z. B. the vacuum housing of the X-ray tube 1 be completely dig from the biocompatible material. However, there is also the possibility of forming only the housing section of the vacuum housing, which is to be penetrated by X-rays during operation of the X-ray tube, from a biocompatible and X-ray transparent material.

The application of the X-ray tube according to the invention or he inventive catheter is the example of the Be action of vasoconstriction in arteries. The X-ray tube or the catheter can also be used for treatment Vascular narrowing in veins or for other medical purposes treatments are used.

However, the use of the X-ray tube or the catheter is not limited to the medical field.

Claims (4)

1. X-ray tube for insertion into body vessels ( 4 ) of a living being, comprising a vacuum housing ( 10 ) in which a cathode ( 5 ) and an anode ( 6 ) are arranged, the vacuum housing ( 10 ) comprising at least one housing section (biocompatible material) ( 9 ), which can be brought into direct contact with body tissue and / or body fluids ( 13 ) of the living being in the treatment of a living being with X-ray radiation. 2. X-ray tube according to claim 1, whose housing section ( 9 ) is made of glassy carbon. 3. X-ray tube according to claim 1, the housing section of ( 9 ) titanium nitride (TiN). 4. catheter with a shaft ( 3 ), the distal end with an X-ray tube ( 1 ) according to one of claims 1 to 3 is seen ver.