DE2538960A1 - Therapeutic destruction of concretions by impulse laser - uses elliptical focussing chamber with shock waves produced at focal point - Google Patents

Abstract

The device for contactless destruction of concretions comprises a rotationally elliptical focussing chamber (6) in which shock waves are produced at a focal point (f1) and focused onto the concretion which is located at a second focal point (f2). Outside the focussing chamber is a giant impulse laser (2) whose beam (4) is widened, and in the wall (18) of the focussing chamber is a lens system (22) which converges the widened laser beam at the first focal point. Pref. a beam splitter splits the beam into two or more partial beams, and in the wall of the focussing chamber are two or more light-transmitting windows with focussing lens systems which focus the beams at the first focal point. At the first focal point may be a positionable pin (40), and near this point may be an injection nozzle which produces a zone of different light absorption in the liquid (8)-filled cavity of the focussing chamber at the first focal point.

Description

Device for contact-free splitting of in the body

of a liver iron located calculus I) íe invention relates a device for trundling in the body of a living being Concrements, with shock waves in a rotationally cable-shaped focusing chamber generated in one focal point and on the calculus located in the second focal point be focused.

A device of this type is known from DT-OS 23 51 247 which the shock waves are generated by underwater spark discharge. To do this will be high voltages between 1 5 kV and 30 kV are required, so that the body of the living being tn is in the immediate vicinity of voltage and current-carrying parts. J # ie treating Doctors and assistants are usually dealing with complicated electrical issues and electrical devices that, if used incorrectly, can damage the health of the Endanger patients. But it is to relieve the hospital staff required that z. B. high-voltage devices from trained maintenance technicians are regularly checked for their safety.

When crushing concrements by means of electrically generated Shock waves can change the shock wave energy only within small limits or only with considerable equipment expenditure by changing the distance between the underwater electrodes be made possible. As a rule, the distance between the electrodes must be used to generate high-intensity shock waves amount to a few mm, creating the shock wave source no longer has point-like geometry and imaging errors when focusing develop can.

Furthermore, the underwater electrodes wear out a lot, so that the The lifespan is limited and for this reason regular maintenance of the facilities used is required.

The invention is based on the object of a line for smashing of noncrements located in the body of a living being by means of a focusing chamber generated shock waves, whereby in the vicinity of the living being no high current and live components are available and an uncomplicated control of the Shock wave energy is possible.

This object is achieved according to the invention by an outside of the Giant pulse laser located in the focussing chamber, its emitted pulse Beam widened with the help of a lens system and vortex through one in the wall The lens system located in the focusing chamber that uses the expanded laser in the pulse beam combined at the focal point of the rotational elliptical focusing chamber.

It is known that with the help of intense laser beams, which are introduced into liquids, shock waves can be generated (Xppl. Phys. Lett.

Jan 15, 1967, pages 46 to 48). The duration of the laser pulse is between 10 and 50 nsec and the required energies are around 0.1 to 10 J.

A practical application outside of the basic research of the sun generated shock waves is not specified.

In a further advantageous embodiment of the invention is itlì beam path of the pulse laser provided a beam splitter that divides it into two or several partial beams split and are in the wall of the focusing chamber two or more radiation-permeable windows with focusing lens systems arranged, which allow penetration of the partial beams into the focusing chamber, in which they are focused in the focal point of the focusing chamber and united in a criss-cross fashion will.

According to the invention, it is also advantageous if the focus a light-absorbing medium (e.g. dyes, suspensions) in the focusing chamber or suitable devices such as foils, stises or wires. Ilierbei comes there is a high level of heating and plasma formation in the area of the focal point of the focusing chamber and to create a shock wave.

In an advantageous development of the invention, window and liner systems are used in the focusing chamber, which are touched by the propagating shock wave can be designed either from a material with high tensile strength exist or are attached to the housing in a damping manner. The shock wave should be as possible pass through the lens system and is then destroyed or behind the lens system but reflected from the lens system.

Further advantages, features and possible uses of the invention result from the figures, which are described below.

They show: FIG. 1 shows the basic representation of the coupling the pulsed laser beam of a giant pulsed laser into a focusing chamber and FIG. 2 shows an enlarged illustration of a lens system that covers the wall of a coupling device breaks through.

In FIG. 1, a pulsed laser beam is generated by means of a ruby laser 2, for example 4 generated and expanded to a circular area of approx. 10 to 20 mm.

This laser beam 4 hits a focusing chamber 6, the one Is part of an ellipsoid of revolution and with a liquid, such as. B. water 8, is filled. One focal point of the ellipsoid of revolution 6 is denoted by f1, the other focal point of this ellipsoid is in the body 10 of a living being exactly at the point where a calculus 12 is present. The patient is means a device not shown so positioned compared to the focusing chamber 6, that the concrement 12 is in the second focal point f2, The The patient sits, for example, in a tub, not shown, so that the liquid 8 constantly touches the surface 16 of the body 10 and also the cavity of the focusing chamber fills out.

In the area of the pulsed laser beam 4 there is a wall 18 of the focusing chamber 6 pierced by a bore 20 in which a lens 22 or a lens system is attached. Lens 22 is a focusing lens that is attached to its edges in a Damping device 24 is mounted vibration-free. This lens focuses the expanded laser pulse beam 4 on the focal point fl, so that in this focal point there is a very high energy density that triggers a shock wave of a known type. The shock waves now run in a straight line or on the inner wall 26 of the focusing chamber 6 reflects to the focal point ~ 2, where it turns a kidney stone 12 into small, disposable Smash fragments.

A material is preferably used as the material for the converging lens 22 used, whose acoustic impedance should be much greater than that of the coupling fluid 8. If water is used as the coupling liquid, then the converging lens 22 (or Lens system) can be made of glass, for example. The thickness of the converging lens 22 should be greater than the mean wavelength of the shock wave pulse. In this Most of the shock wave energy falls on that of the coupling liquid 8 adjacent surface is reflected as a pressure wave. Only a small part penetrates into it Converging lens and is reflected on the opposite surface as a tensile wave. Destruction of the converging lens due to the flaking effect known from the literature is avoided with an appropriate choice of acoustic impedance conditions. the Pressure load on the converging lens is due to the vibration-free mounting in the damping ring 24, which can for example consist of polyurethane, collected. The collecting lens 22 can be used directly as an e-entry window. Another advantageous one The configuration of the lens system is shown in FIG. 2, the focusing chamber locked by means of a window 38 is and a converging lens 30 (or lens system) is present, which acoustically adapted to the coupling liquid is. Sanimell lens 30 is located in a damping ring 32, which is secured by a clamping ring 34 is held in a groove in the bore 20. Bore 20 tapers in the direction on focal point ~ 1J without the beam path being obstructed. Behind the converging lens 30 in the direction of wall 1 8, the bore 20 is cylindrical and with an insulating material 36, which causes damping of the Sanimell lens 30 via clamping ring 34. On the side of the giant pulse laser 2, the bore 22 is by means of a plane-parallel Window 38 closed, which is held by a fastening ring 40. On both sides of the converging lens 30 is the one for the shock wave transmission necessary liquid. The converging lens 30 itself consists of a material which Has the same acoustic impedance as possible as the coupling liquid, for example made of plexiglass, if the coupling liquid consists of water. The shock wave penetrates then the converging lens 30 without destroying it. In the damping insert 36 is a large part of the shock wave energy is annihilated so that the window 38 is not destroyed can be. The plane-parallel window 38 has a thickness which is greater than the mean wavelength of the shock wave also has a greater acoustic impedance as the coupling fluid, so that the part of the shock wave that has not yet been absorbed as a pressure wave is reflected. The entry window 38 is through the damping ring 40 mounted vibration-free.

The bore and lens system can also be designed in such a way that the shock wave energy is destroyed by reflection.

A device for the advantageous conversion of the energy of the laser beam -in shock wave energy at the focal point f1 of the ellipsoid of revolution 6 is shown in FIG. 1 shown. For this purpose, a means that absorbs laser light is used - in the exemplary embodiment a pin 40 - with its tip 42 aligned exactly with Brelmpunkt f1. Instead of of the pen, a small tube can also be positioned at the focal point f1, from which a liquid that strongly absorbs the laser light is exactly at the focal point f1 is injected. For each Laser flash and thus for each individual A little liquid is ejected from the shock wave or the pen 40, which is shortened by burning, pushed in.

The exact focal position of the tip 42 of the pen 40 can, for example controlled by means of a fine beam of light perpendicular to the metal pin traverses the rotational elliptical focusing chamber at the focal point fi.

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Claims (7)

Patented device for the contactless smashing of Concrement located in a living being, with an elliptical of revolution Focusing chamber generates shock waves in one focal point and on that in second Focal point located calculus are focused, characterized by a Riesern pulse laser (2) located outside the focusing chamber (ß), whose Beam (4) is expanded and through one in the wall (18) of the focusing chamber (6) located lens system <22), which the expanded laser pulse beam (4) combined in the Brennpw # t (fl) of the rotationally elliptical focusing chamber (6). 2. Apparatus according to claim 1, characterized in that a beam splitter splits the pulsed laser beam (4) into two or more partial beams and in the Wall 18 of the focusing chamber (6) has two or more light beam permeable windows are arranged with focusing lens systems, which the partial beams in the focal point Focus (~ 1) of the focusing chamber (6) and join in a criss-cross fashion. 3. Device according to claims t to 2, characterized in that In the focal point (f1) of the focusing chamber there is a burnable, positionable one Pin (40) is located. 4. Device according to claims 1 to 2, characterized in that an injection nozzle is arranged near the focal point (f1) of the focusing chamber, the one area of different light absorption in the one filled with liquid 8 Cavity of the focusing chamber created at the focal point (~ 1). 5. Device according to claims 1 to 4, characterized in that Filters can be introduced into the beam path of the laser pulse beam (4). 6. Device according to claims 1 to 5, characterized in that in the area of the window the shock wave energy by means of a damping insert is reduced and that the window formed as a lens system (22) only on pressure is claimed. 7. Device according to claims 1 to 5, characterized in that the lens or the lens system adapted acoustically to the coupling liquid (8) is and there is coupling fluid on both sides of the lens system and the walls are lined in the beam path with a damping material in which the shock wave is absorbed.