DE3512018C1 - Catheter with drive and lens system for the use of a laser - Google Patents

Abstract

In order to reach pathological foci inside the body as far and as gently as possible even via bent pathways a high-performance catheter having a nozzle head can be used for driving purposes using intermittent fluid, this catheter also being suitable for the use of laser light if it has a lens system with lens/lenses on/in the nozzle head and the catheter wall reflects the laser light on the inside, and this can be achieved by a metallic coating. Laser light in front of the catheter can then be focussed or, for example, dispersed through a concave lens far inside the body for treating disorders. For control purposes in the body, an endoscope with a lens system complementary to the lens system of the nozzle head of the catheter can be advanced through the same high-performance catheter. On the other hand, it is also possible to introduce a glass optic light guide for lasers through the advanced catheter to the front lens system of the nozzle head to make optical contact, or to insert/advance the relatively rigid glass optic light guide of the laser device far into the pathologically altered pathway of the body in a protected, almost conventional manner, even if the front lens is removed by the investigator with a wire where the front nozzle is then open and wide, in order to treat different disorders.

Description

The invention is based on a catheter with drive and op Technology for the use of lasers by means of a cylinder that is continuous for the laser light the one with a laser device that is outside the human being body.

An important tool for inside the body therapy, prophylaxis, another measure carefully To be able to guide is the catheter.  

There is still trouble due to crooked lei pathways of the body as in the arteriosclerotic changed important coronary arteries with a Ka to get through.

From DE-OS 35 00 544 "functionality additional device on the catheter / medical device pressure hose with nozzle head "is a high-performance cartridge known that used in full length swings and a kind of front-wheel drive with vibrator effect with the nozzles of the nozzles set to the rear head. Technically, this is achieved in that High pressure fluid, for example with 10 pressure pulses per Second is chopped into intermittent fluid by a regenerator. Vibrations / wave movements min friction, as is well known. That was what Prin was looking for zip to a catheter also in front through curved lei lanes or possibly through several stenoses can. I have this new catheter type as "Hochlei stungskatheter "designated.

Another problem today is how to measure that free, yet highly effective, medically against Laser diseases that can be used for various diseases  gently into the inside of the body over lei can be presented as in an arteriosclero tables and partially closed hearts coronary artery.

From DE-OS 29 11 478 a catheter according to the preamble of claim 1 is known. A drive element becomes largely parallel led to the optical fiber. As drive elements who called a flexible shaft or hose for hydraulic or pneumatic systems that are also in a common flexible protective tube can be nen.

DE-OS 29 50 976 describes that for laser light energy transmission Removal of a blockage in a pipe as a sleeve several components at the same time are brought in like an observation sub-bundle and light fibers Observation in the body's conduction path. Also one Aspiration device is also over the sleeve the apparently rigid pipe operated.

In patent 31 11 497 is from one Lens in the nozzle head on the catheter not noted. Such an optic is but required to be at the front on the high-performance cat  to bundle the laser light, for example for burning of vascular occlusions; otherwise / also need we inserted one or more lenses, firmly in the nozzle head let for the additional look one in the same High performance catheter advanced at other times doskops. One in a high performance catheter united multi-purpose device is not known to us the. It was already possible to use lasers remotely light through conduits like arteries through one To give light guide that out of a special and layered glass strand. Such glass strands for lasers are relatively rigid and can be ver equally to a catheter less well in morbidly Make changes to the body's pathways. Especially the use of laser light for treatment differs whose diseases also increasingly inside the body gaining in importance, it is necessary to send one to one To create catheter-coupled device with which it gentle and better than with the glass light guide alone for lasers, far into the interior of the body to advance action of diseases.  

This object is achieved in that the catheter body from a pressure-resistant, with respect to the Longitudinal axis of flexible material, that the distal part of the catheter is powered by a drive a replaceable nozzle head is equipped with nozzle for propulsion at the front of the catheter, that the optics are used in a pressure-resistant manner in the front part of the nozzle head, and that after removing the cylinder for the passage of the Laser light can be inserted after an endoscope front until contact with the optics of the nozzle head represents and thus a beam path is reached that the Assessment of images proximal to the eyepiece by an Un searchers allowed.

The advantageous developments of the invention are in the sub claims specified.  

With the invention shown above, there are several Advantages. With the high-performance catheter I created after P 31 11 497.0 you continue gently in Lei pathways of the body, i.e. in places inside the body Body, previously a catheter without intermittent Fluid and vibrations not accessible along the entire length were. This advantage can now be attributed to the introduction of Laser light is transmitted far inside the body the, the laser light or an inserted endoscope also stronger curvatures of a conduit of the body follows. At so far / otherwise not reached Now, laser light can be focused or focused in the body are scattered for very different medical Purposes; such actions as burning one up Vascular occlusion by laser can be inserted Endoscope can be checked. There is not always one for lasers Glass fiber is required as a light guide because the laser light in the fluid present in the catheter anyway, such as physiological Saline can be passed on. However, the ge mirror the entire inner surface of the catheter to the Lichtre inflection. The optics for lasers are then firmly in the nozzle head and can be used with the entire nozzle head be replaced / screwed on to the catheter. The  High performance catheter with its fluid filling is therefore become a light guide itself. The same fluid can for cooling during laser use or for rinsing an endoscope inserted into the catheter will. There is also the possibility of getting blood on the front Flush away the catheter for a picture of pathological changes to get changes in the body's conduction path. It can also cause the laser effect far inside the Control body as in the branch of a coronary artery be lated. For scattering the laser light inside of the body for the treatment of organ diseases concave lenses in the nozzle head of such a high performance catheters are used. The laser light can ver separated bundled, or also distracted by mirrors, to the side, with only a part of this Devices present in the cavity of the nozzle head has in optical connection to the front lens. It There are currently (bare) endoscopes that only have one Have a diameter of 1.8 mm. Optical adjustment of the endoscope brought through the catheter would be required such.  

If the mirroring inside the catheter is difficult to carry out bar or the loss of energy in laser light conduction The fluid in the fluid, like physiological saline, is too large can be, the laser light in several actions with the help of the high-performance catheter the patent claims described far in conduits of the body. The first action exists in it, with sterile the body fluid adjusted Fluid is also applied to the inside of the body approaching the focus of the disease. The second action consists of the laser light guide within the pre brought high-performance catheters, for example from a consisting of concentric double glass rods, up to the front Nozzle head in contact with the adapted lens of the nozzle head forward. Control would be the same with you intermittently advanced endoscope possible. Third, there is also the possibility of a wide one Front nozzle of the nozzle head of a high-performance catheter for example with a ball valve for the first Arguments to close with jet jet drive this ball valve from the examiner by thread let go, so that now the glass cylinder as a laser  light guide gently along the entire length through the front brought through high-performance catheter for irradiation can be advanced in the organism. That way the examiner would also be able to interchangeably use one thin bare endoscope possible. Via the wide front nozzle the high pressure catheter can also guide wires forward into the diseased conduction pathway of the body the, even devices for control with fluid jets, as described in the patent specification P 35 32 885.1. Other advantages are that once in the far High performance catheter advanced pathway of the body can also be used for very conventional purposes, such as Injection, aspiration, blood pressure measurement, introduction of Contrast agents. These are medical measures that take ei Glass cylinder designed for laser light conduction none if can be provided alone. The high-performance cat ter with drive, blunt in front, not prone to perforation The nozzle head can be used by the doctor for quite a number rich purposes are used, including for the use of lasers. The physiological saline for the transmission of laser light in the catheter could also ge colors, contain a specific dye with secondary change in the laser light effect.  

An embodiment of the invention is shown in the drawing shown.

Fig. 1 shows a high-performance catheter ( 1 ) with the nozzle head ( 2 ), therein an optical component, a lens ( 3 ), a solid-state laser ( 4 ), the flash tube ( 5 ) for "pumping", which is a completely reflective surface of the Laser (M 1 ), the surface of the laser (M) which is semitransparent to light, the laser upstream, which seals against fluid in the rear part of the catheter, for rays through casual glass cylinders or cylinders ( 6 ) made of transparent material, the connecting pieces for pressure and negative pressure ( 7 a and 7 b) , the interrupter for fluid ( 8 ) to generate fluid intermittently, the pressure vessel ( 9 ) with float valve ( 10 ), the safety valve ( 11 ), a manometer of the pressure vessel ( 12 ), a filler neck ( 13 ), valves on the feed lines ( 14 a, 14 b, 14 c) , the oxygen pressure bottle ( 15 ), therein the reducing valve ( 16 a and 16 b) . Laser beams inside the catheter have the identification number ( 17 ), the associated focus in front of the nozzle head ( 2 ) with the lens ( 3 ) has the identification number ( 18 ). The ver mirrored inner surface of the catheter is ( 19 ) and the fluid, at the same time optical medium with ( 20 ), the nozzles of the nozzle head ( 2 ) for propulsion to the rear ( 2 ) designated ( 21 ).

FIG. 2 shows the front part of the same catheter ( FIG. 1) with the nozzle head ( 2 ) and the lens ( 3 ), the nozzles ( 21 ) provided for propulsion to the rear, and the endoscope which is advanced into the front part of the catheter ( 22 ) with the optical fibers ( 23 ), a cold light fiber ( 24 ) for lighting on the front of the catheter, the optical transmission element ( 25 ) as the front part of the inserted endoscope with contact to the lens ( 3 ) and fluid now for rinsing, for example Elimination of blood. The wall of the catheter is again referred to as ( 1 ).

Fig. 3 shows the rear part of the catheter ( 1 ) with the attachment piece ( 7 ), a glass cylinder or glass-like cylinder ( 6 ) which does not impede the use of laser, a sealing clamp with screw clamp ( 31 ), the proximal abutment for the Glass cylinders he required at higher fluid pressures by a fixed ring screw plug ( 32 ) with a central through-hole and a suitable thread ( 30 ).

Fig. 4 shows the same converted the rear part of the catheter now for an inserted endoscope ( 22 ) with eyepiece ( 33 ). Only for flushing now required fluid ( 20 ) must be sealed proximally in the catheter by a wide rubber ring ( 34 ) to the inserted endoscope ( 22 ), this also requires a clamp with screw clamp ( 31 ).

Fig. 5 shows the view of the front part of the nozzle head ( 2 ) with the lens embedded therein ( 35 ) (ring lens), the hatched, which is usually made of metal, pre-formed almost hemispherical part of the nozzle head ( 2 ).

Fig. 6 shows the longitudinal section through the front part of the catheter ( 1 ) with the nozzle head ( 2 ) and the ring-shaped optics or ring lens ( 35 ), the inside of the nozzle head ( 2 ) before existing optics light-refractive aspherical mirror ( 36 ), the laser beam path ( 17 ) with refractions of the rays on the aspherical mirror / mirrors on the one hand and light refraction also in the ring-shaped optics ( 35 ) at the front of the nozzle head ( 2 ) with the focus or ring focus now pulled apart to form a ring in front of the catheter / nozzle head ( 37 ) for large-scale burning, for example, of a thrombus occluding a vessel, or in order to be able to burn / remove arteriosclerotic plaques with the high-energy laser light that protrude far into the vascular clearing and severely narrow the clearing from the inside.

Fig. 7 shows the front part of a high-performance catheter ( 1 ) with nozzle head ( 2 ) and relatively wide front nozzle ( 44 ), which is currently closed by a conical closure body ( 40 ). This closure body is advanced from proximally through a wire to the front nozzle for closure thereof. The spring ( 39 ) is interposed in order to counteract elongation from the outset when pressure is exerted by fluid.

Fig. 8 shows the open front nozzle ( 44 ) in the path of the body with the forward piston-shaped, angled guide wire ( 41 ).

FIG. 9 likewise shows, in a high-performance catheter ( 1 ), the lens advanced by a wire for the focus formation of laser beams in the correspondingly prepared catheter. The optics / lens ( 42 ) is laterally encompassed by a metal ring which merges proximally into holding wires ( 38 ), these holding wires ( 38 ) uniting with the front part of the wire via a short spiral / spring ( 39 ) which the lens ( 42 ) was introduced into the nozzle head ( 2 ).

Fig. 10 shows a narrow-caliber catheter ( 1 ) with the connection piece ( 7 ) for fluid ( 20 ) with proximally flared cone for receiving the correspondingly larger-lumen glass cylinder ( 6 ), behind which the laser device ( 4 ) is coupled, whereby it often involves the use of a fixed laser.

Claims (37)

1. Catheter with drive and optics for the use of laser by means of a continuous for the laser light Zylin ( 6 ), and a laser apparatus ( 4 ), which is located outside the human body, characterized in that the catheter body ( 1 ) a pressure-resistant, bezüg Lich the longitudinal axis flexible material that the distal part of the catheter is equipped with a drive from a replaceable nozzle head ( 2 ) with nozzles ( 21 ) for propulsion at the front of the catheter ( 1 ) that the optics like a lens ( 3 ) in the front part of the nozzle head ( 2 ) is inserted pressure-resistant and that after removing the cylinder ( 6 ) for the passage of the laser light, an endoscope ( 22 ) can be pushed forward until contact with the optics of the nozzle head ( 2 ) is produced and a beam path is thus achieved which allows an examiner to assess images proximal to the eyepiece ( 33 ). 2. Catheter according to claim 1, characterized in that the cylinder ( 6 ) for guiding the laser light consists of the fluid present in the catheter, such as physiological saline ( 20 ). 3. Catheter according to claim 1 or 2, characterized in that the catheter ( 1 ) is internally coated for reflection of the laser light tes, for example with a reflective metal layer. 4. Catheter according to claim 1, characterized in that the cylinder ( 6 ) consists of a light guide made of solid Ma material, but also extended and narrowed ver ver pushed into the catheter ( 1 ), receive contact for laser light transmission with the front nozzle of the nozzle head can. 5. Catheter according to one of claims 1 to 4, characterized in that fluid ( 20 ) in the catheter is now available at even low pressure for cooling the optics when using a laser or for rinsing at the front of the catheter when an endoscope ( 22 ) is used or inserted into the catheter. 6. Catheter according to one of claims 1 to 5, characterized in that the clearing of the proximal part of the catheter ( 1 ) for sealing against fluid leakage through a relatively wide sealing ring ( 34 ), which is made of rubber, over the rear part of the endoscope ( 22 ) is also sealed on the outside with a clamp ( 31 ). 7. Catheter according to one of claims 1 to 6, characterized in that the high-performance catheter ( 1 ) further include a pressure line to the regenerator / fluid interrupter ( 8 ), Wei ter to the pressure vessel ( 9 ) for fluid or to a pump, where also a O ₂ pressure bottle ( 15 ) can be used to increase the partial pressure of oxygen in the fluid. 8. Catheter according to one of claims 1 to 7, characterized in that the catheter is equipped with an optic, a lens ( 3 ) or more lenses in the nozzle head ( 2 ), this lens being used solely for the use of a laser device ( 4 ) for focus formation ( 18 ) in front of the catheter ( 1 ), for diffusing the light or for angular deflection. 9. Catheter according to one of claims 1 to 8, characterized in that in the nozzle head ( 2 ) of the catheter ( 1 ) existing optics ( 3 ) is used for the optical coupling of an inside the Ka theter advanced endoscope ( 22 ). 10. Catheter according to one of claims 1 to 9, characterized in that a high-performance catheter with intermittent fluid ( 20 ) is used for the use of laser ( 4 ) or for endoscopy, which has a wide front nozzle ( 44 ). 11. Catheter according to one of claims 1 to 10, characterized in that through the front nozzle ( 44 ) of a high-performance catheter ( 1 ) after advance in the body of the light guide of a laser device ( 4 ) as a glass fiber for various me medical purposes in the interior the body is pushed. 12. Catheter according to one of claims 1 to 11, characterized in that for the cooling of the lens or the optics ( 3 ) in the nozzle head ( 2 ) of the catheter ( 1 ) there are other nozzles that are not directly driving the Catheters. 13. Catheter according to one of claims 1 to 12, characterized in that the nozzle head ( 2 ) is made of pressure-resistant glass, PVC or the like for radiation-permeable material, that the lens ( 3 ) or several lenses are ground therein, so that there is no need to attach the lens in the nozzle head. 14. Catheter according to one of claims 1 to 13, characterized in that the cylinder ( 6 ) for the closure of the rear part of the catheter ( 1 ) consists of glass or similar radiolucent substance such as PVC for laser use. 15. Catheter according to one of claims 1 to 14, characterized in that the catheter ( 1 ) for overpressure and underpressure per neck ( 7 a, 7 b) has. 16. Catheter according to one of claims 1 to 15, characterized in that a vacuum pump for suction in the catheter ( 1 ) is available, such as an intermediate Wulf bottle to collect secretions / blood. 17. Catheter according to one of claims 1 to 16, characterized in that the pressure vessel ( 9 ) has a Schwimmerven valve ( 10 ) at the base, so that no gas embolisms can occur inside the body. 18. Catheter according to one of claims 1 to 17, characterized in that one or more mirrors ( 36 ) at the front of the Ka theter ( 1 ) or in the nozzle head ( 2 ), a predetermined deflection of the rays, for example to the side, to Lich the catheter with laser beams ( 17 ) of different types to be effective for different biological purposes. 19. Catheter according to one of claims 1 to 18, characterized in that not only cold light with a proximal light source is present for the endoscope insert on the front of the catheter or on the inserted endoscope ( 22 ), but also a generally electrically operated lamp of the nozzle head ( 2 ). 20. Catheter according to one of claims 1 to 19, characterized in that the catheter with intermittent pressure, but also with continuous and lower pressure at the time of cooling the optics of the nozzle head ( 2 ) when using a laser ( 4 ) or for rinsing operated at the front of the catheter ( 1 ) with the endoscope inserted. 21. Catheter according to one of claims 1 to 20, characterized in that the laser light ( 17 ) is scattered with a concave lens in the front of the nozzle head ( 2 ). 22. Catheter according to one of claims 1 to 21, characterized in that the catheter wall ( 1 ) itself is made of a material which reflects the laser light ( 17 ) for transmission in the catheter. 23. Catheter according to one of claims 1 to 22, characterized by a wire, on the front part of which the optics ( 42 ) for the laser are located, which are brought into the nozzle head ( 2 ) only after the catheter ( 1 ) has been advanced in the body becomes. 24. Catheter according to one of claims 1 to 23, characterized in that an annular lens ( 35 ) is located in the nozzle head ( 2 ) for laser light, so that the laser light radiation can be pulled apart at the front of the catheter to form a ring, for example for burning. 25. Catheter according to one of claims 1 to 24, characterized in that for refraction of the laser light ( 17 ) inside the catheter in or on the nozzle head ( 2 ) mirror ( 36 ) various types such as plane mirror, concave mirror, spherical concave mirror, Parabo ID caps, parabolic mirrors or aspherical mirrors or several such mirrors, mirror systems, can be used or are available. 26. Catheter according to one of claims 1 to 25, characterized in that a suitable for the optics ( 3, 35 ) of the nozzle head ( 2 ) ge light refraction is provided, such that a prism is used in the nozzle head of the high-performance catheter ( 1 ) . 27. Catheter according to one of claims 23 to 26, characterized in that the front nozzle ( 44 ) by a ball or a closure cone ( 40 ) from the proximal by a wire ( 38 ) via a cord with a ball can be temporarily closed. 28. A catheter according to any one of claims 10 to 27, characterized in that a guide wire ( 41 ) can be brought forward for guiding the catheter via the elongated clearing of the high-performance catheter and a wide front nozzle. 29. Catheter according to one of claims 23 to 28, characterized by a wire ( 38 ) with an optic or a lens ( 42 ) for the temporary closure of the front nozzle ( 44 ). 30. Catheter according to one of claims 23 to 29, characterized by a net on the wire forward in the high-performance catheter ( 1 ) advanced optics ( 42 ) which the controlled light beam or the laser light to the side and thus deviating from the longitudinal axis of the catheter in guides the organism. 31. Catheter according to one of claims 23 to 30, characterized in that when using the laser the optics ( 42 ) front in the nozzle head ( 2 ) carrying wire ( 38 ) as well as the spiral spring required for pressing ( 39 ) reflecting in the outermost layer is made for light reflection. 32. Catheter according to one of claims 23 to 31, characterized in that the wire ( 38 ) in front with the optics ( 42 ) for the laser and ( 4 ) at the same time with the front part of a transparent, front and back ground flat cylinder ( 6 ) is connected, which is connected at its rear part to the laser light generator. 33. Catheter according to one of claims 1 to 32, characterized in that for coupling a fixed laser ( 4 ) the proximal part of the catheter or high pressure catheter ( 1 ) for receiving egg nes a glass cylinder or a translucent cylinder ( 6 ) for coupling is reinforced conically on the laser device ( 4 ). 34. Catheter according to one of claims 1 to 33, characterized in that the optics ( 3, 35 ) at the front in the catheter ( 1 ) in the nozzle head ( 2 ) consists partly or entirely of a material which can be deformed under pressure, such that that depending on the variable, proximally controllable pressure effect of the fluid, the light or laser light scattering is different and focusing or dispersion are possible. 35. Catheter according to one of claims 3 to 34, characterized in that a silver coating is used for the mirroring inside the catheter ( 1 ), the nozzle head ( 2 ) or other device inside. 36. Catheter according to one of claims 1 to 35, characterized in that the catheter wall ( 1 ) as well as the optical system of the nozzle head ( 2 ) in the laser insert ( 4 ) is cooled by fluid ( 20 ) low temperature. 37. Catheter according to one of claims 1 to 36, characterized in that the fluid ( 20 ) like physiological saline has no dust-like deposits in order to avoid heating of the fluid when laser light passes through.