DE102009005459A1 - Endovascular laser for introducing laser light into human or animal body, has flexible optical fiber for redirecting laser light, where laser light permeable tip is introduced at distal end of optical fiber - Google Patents

Abstract

The endovascular laser has a flexible optical fiber (100) for redirecting the laser light. A laser light permeable tip (104) is introduced at the distal end of the optical fiber. A laser light permeable protection layer (108), made of a carbonization or dirt repellent material, is affixed on an outer side of the tip. The protection layer is made of Teflon(RTM: Fluoropolymer) or silicone.

Description

The The present invention relates to an endovascular laser according to the preamble of claim 1.

at the treatment of varicose veins, tonsils or diseased trunk veins and in the treatment of prostate, tumors or in the treatment from in cavities having vessels or Organs become common used an endovascular laser, using the endovascular Laser Technology (ELT) Laser light over a flexible optical fiber at the treatment site inside the human or animal body brought is there to treat there with the energy of the laser respectively perform. Belongs to this endovascular laser one in the body lumen optical fiber to be inserted, formed at the distal end of a tip, by means of the guided by the light guide Laser beam is radiated axially and / or radially or spatially.

In a first embodiment the optical fiber is a few millimeters over the protective cover, so that the laser light at this point not only axially, but at least partially also radially out of the optical fiber can emerge. In another embodiment is a glass formed at the distal end of the optical fiber Tip set in which a bubble is enclosed. About these Bubble, the laser light is then radiated all around, that is over 360 °.

at The laser treatment, for example of diseased veins, one goes such that one is punctured by a puncture in the trunk vein from the distal insufficiency point introduces the optical fiber into the lumen of the trunk vein and whose top to the desired Treatment place brings. There the laser is activated, so that through the energy of the laser beam emerging from the tip of the vein can be glued.

at such welding from varicose veins or other parts of the body it happens very often to adhesions of charring at the tip of the light guide, which the desired Significantly reduce the effect of the laser light. This leads to a worse, partly also incomplete welding of the Blood vessels. Even if you pull the optical fiber completely on the vein and cleans of the carbon adhesions, so is a re-introduction almost excluded in the volume of the vein, because the vein already partially closed.

From that The present invention is based on the object, to provide an endovascular laser of the type mentioned, whose tip is during the application is not or not so quickly contaminated.

When technical solution This object is achieved according to the invention an endovascular laser proposed the features of claim 1. Advantageous developments This laser can be found in the dependent claims.

One Laser formed according to this technical teaching has the advantage that through the protective layer, the surface finish of the top changed is where the material of the protective layer is the attachment of charring or at least makes it difficult, if not complete, to remove other impurities prevented. This will improve the functionality of the tip, and thus of the entire endovascular laser, at least for a longer period of time, so that the intended treatment be completed without complications can.

In a preferred embodiment is contained in the protective layer Teflon or silicone and in one very preferred embodiment The protective layer is completely made of Teflon, silicone or a combination the aforementioned materials. The use of Teflon and / or Silicone has the advantage that these materials have a dirt-repellent surface structure own so that the charring or the other pollutions can not get stuck there.

In a particularly preferred development has the protective layer a thickness of preferably 100 μm, but not more than 1000 μm. This has the advantage that by such a thin protective layer, the laser light can still pass sufficiently to the desired treatment perform.

In an alternative embodiment is the protective layer of a metal deposited on the tip educated. Also, this vapor-deposited metal leads to a sufficient Rejection of the charring occurring during the application of the laser or other pollution. It has proved to be advantageous use this deposited metal with a thickness of 20 microns, there are enough Laser light may leak from the tip to the desired treatment perform.

Further advantages of the laser according to the invention will become apparent from the accompanying drawings and the embodiments described below. Likewise, according to the invention, the above-mentioned features and those which are still further developed can be used individually or in any desired combinations with one another. The mentioned embodiments are not exhaustive To understand enumerating enumeration, but rather have exemplary character. Show it:

1 a sectional view of a first embodiment of an optical fiber of an endovascular laser according to the invention;

2 a sectional view of a second embodiment of an optical fiber of an endovascular laser according to the invention.

In 1 is a first embodiment of an optical fiber according to the invention 100 represented over its entire length by a laserlichtundurchlässigen plastic coat 102 is surrounded. At its distal end is on the optical fiber 100 a peak 104 formed by the fact that the optical fiber 100 about 2 mm from the plastic jacket 102 protrudes.

In this embodiment, the optical fiber has a diameter of 0.6 mm = 600 microns, while the plastic sheath has a thickness of 300 microns. This optical fiber 100 is preferably used when the laser light is to be radiated both radially and axially.

The summit 104 that is, the one from the plastic jacket 102 emerging part of the optical fiber 100 is in this embodiment with a 100 micron thick protective layer 108 surrounded by silicone, has a dirt-repellent surface structure, so that occurring in the application of charring is not at the top 104 hold.

In another, not shown embodiment, the protective layer also made of Teflon, or consist of a Teflon-silicone mixture, the advantageously also 100 microns are thick.

In yet another embodiment, not shown here are in the protective layer except Teflon and / or silicone also contain other materials.

In two other embodiments the optical fiber has a diameter of 300 microns, or 400 microns, so that these optical fibers are introduced into the lumens of smaller blood vessels can.

In the in 2 illustrated second embodiment is the optical fiber 200 completely from a plastic jacket 202 surrounded, wherein at the distal end of the optical fiber 200 a peak 204 made of glass. In this top 204 is a bubble 206 provided on the redirected laser beam is radiated all around (360 °). This tip 204 is from a protective layer 208 surrounded by silicone, the optical fiber 200 has a diameter of about 600 microns, while the plastic sheath has a thickness of about 300 microns and wherein the protective layer has a thickness of 100 microns.

In another embodiment not shown here is the protective layer made of Teflon or a Teflon-silicone mixture.

In yet another embodiment, not shown here are in the protective layer except Teflon and / or silicone other materials are present, advantageously also 100 μm are thick.

100 200

optical fiber

102 202

Plastic sheath

104 204

top

206

bubble

108 208

protective layer

Claims (7)

Endovascular laser for introducing laser light into a human or animal body, comprising a flexible optical fiber ( 100 . 200 ) for the transmission of the laser light, at the distal end of a laser light transmissive tip ( 104 . 204 ) is attached or formed, characterized in that on an outer side of the tip ( 104 . 204 ) a laser-transparent protective layer ( 108 . 208 ) is attached from a char and / or soils repellent material. Laser according to claim 1, characterized in that the protective layer ( 108 . 208 ) Teflon, silicone or a combination of the aforementioned materials. Laser according to claim 1, characterized in that the protective layer of teflon, silicone or a combination of formed above materials. Laser according to at least one of the preceding claims, characterized in that the protective layer ( 108 . 208 ) has a thickness of at most 1000 microns, preferably of 100 microns. Laser according to claim 1, characterized in that the protective layer is formed of vapor-deposited metal. Laser according to claim 5, characterized in that the protective layer has a maximum thickness of 100 μm, preferably 20 μm. Laser according to one of the preceding claims, characterized in that the tip ( 104 . 204 ) the laser light radiates all around (360 °).