CS261485B1 - Device for clinic out-of-body lithotripsy of gall stones - Google Patents

Abstract

Lithothripsy designed for removing gallstones comprises an elliptical reflector (1) in which a water spark gap (9) is installed, allocating probe (3) and a control unit. The elliptical reflector (1) may be supported by a manipulator (2) with six degrees of freedom carrying also the locating probe (3). Above the elliptical reflector (1) the patient's bed (4) is situated. A water bag may be attached to the load bearing port of the reflector or the patient's bed may be a water bath with a sealing collar (9). <IMAGE>

Description

The present invention relates to an apparatus for the clinical performance of an out-of-body lithotripsy of gallstones by means of a shocked wave, consisting of an elliptical reflector, in which a spark gap with a source is located, and further a positioning probe.

Z čs. AO No. 251 199 is known for experimentally performing or disrupting gallstones by a focused shock wave. Focused shock wave is already clinically used to treat kidney stones. The generation of the pressure wave excels by the electric discharge in water, which is the Bodots source of the Spherical pressure wave. In order to achieve the desired effect, that is, breaking the stone with minimal damage to the surrounding tissues, the shock wave energy must be focused. The focusing is carried out by means of an elliptical cavity, which concentrates the pressure surge from the original focal point, where the spark gap is located, by reflection into the second focal point of the rotating ellipsoid. The location of the second focus is located at the site of the localization of gallstone, and therefore half the ellipsoid is used for focusing. The known device has been tested by breaking human gallstones in pigs-t. however, for clinical purposes, this device does not allow reliable stability of the water spark, perfect alignment of gallstones and easy manipulation with the shock wave applicator.

According to the invention, these devices are overcome by a device for the clinical performance of the extracorporeal gallstone lithotripsy by a focused shock wave, consisting of an elliptical reflector in which a spark gap with the source is located, and a sighting probe. It is based on the fact that an elliptical reflector, in which a water spark gap is connected, connected via a one-way switch to a pulse capacitor, is provided on a manipulator with six degrees of freedom, also carrying a sighting probe,

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- 2 above the elliptical reflector is the patient bed. According to another feature of the invention, the elliptical reflector is provided with a water bag mounted on the abutment portion of the elliptical reflector. According to an alternative embodiment, the patient bed is provided with a water bath with sealing collars. According to another embodiment, the spark gap tips are connected to the electrodes of two series-connected capacitors wound in parallel. It is further preferred that the water spark gap has one tip located in a plane passing through the plane of the optical reflector and the other tip in the direction of its major axis. Alternatively, the sparks of the water spark may be provided in the focal plane of the optical reflector, perpendicular to its major axis.

The main advantage of the device according to the invention lies in the possibility of generating reproducible shock waves, the possibility of continuously adjusting the distance between the electrode tips while significantly extending their lifetime and increasing the reliability of cholelithiasis treatment due to perfect alignment of gallstones and correct alignment of the patient and elliptical reflector. The adjustment of the relative position is possible by using a manipulator with six degrees of freedom. The patient bed allows perfect acoustic contact of the elliptical reflector with the patient. The electrical equipment is connected to the control unit, allowing optimal timing of the shock wave exit.

The apparatus according to the invention is explained in more detail below with reference to the accompanying drawings, in which: FIG. 1 shows a schematic front view of the apparatus; FIG. 2 shows the water spark gap; FIG. 5 shows an alternative water spark gap; FIG. 5 shows an alternative circuit according to FIG. 4.

As can be seen from FIG. 1, the device consists of an elliptical reflector 1 provided on an aipulator 2 with six degrees of freedom. On the manipulator 2, a two-dimensional sighting probe 6 is positioned at a suitable location ^, namely in such a way that the focal point of the elliptical reflector 1 is still positioned in the plane of representation of the two-dimensional imaging probe 2. it is possible to change the eccentricity by changing the size of the semi-axes

- 3 261 485 outbreaks of the ellipse * This gives the possibility of focusing the shockwave into deep-lying gallstones, for example when they are wedged on the bile ducts. A pulse capacitor 2 is coaxially connected to the elliptical reflector 1. The manipulator 2 is formed by a cross table 5, which enables displacement in the x and χ axes. A jack is mounted on the cross table 6 which allows hydraulic movement of the arm 8 in the z-axis direction. The arm 8 is pivotally mounted on the jack 7 so that it can be rocked in an angle range. The arm 8 carries its own elliptical reflector 1, which can be swiveled in an angle range (i) or swiveled within an angle range. The walls of the patient bed 4 are connected waterproof to the upper edges of the elliptical reflector 1. Alternatively, the water bath may be replaced by a water bag, flowing directly onto the upper aperture of the elliptical reflector 1. FIG. The pulse capacitor 2 is located on the side of the elliptical reflector 1. Fig. 3 shows an alternative embodiment of the water spark gap 2. One tip of the water spark gap 2 lies in a plane that passes through the focal point. the elliptical reflector 1 and the second tip are located in the direction of its main axis. The pulse capacitor 2 is ⁱⁿ this case provided on the axis of the elliptical reflector 1 in its lower part. In both cases shown in Figures 2 and 3, the distance between the sparks of the water spark gap 2 can be adjusted.

Fig. 4 shows the shock wave generator connection. An auxiliary capacitor 11 is charged from a high-voltage direct current source 10 via a resistor 13, from which a pulse capacitor 2 is pulse-charged via a choke 12 ^to which a water spark gap 2 generating a pressure wave is connected. A one-way switch 14, 4 is connected in the charging circuit of the pulse capacitor 2, which transmits current in only one direction.

FIG. 5 shows an alternate circuit of a pressure wave generator using an input voltage doubling circuit.

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The capacitor 15 is charged from another high voltage source 19 via another choke 18. Another capacitor 16 is charged simultaneously through another choke 18 and another resistor 17. After the one-way switch 14 is closed, the capacitors 15 and the next capacitor 16 are reversed so that double the initial voltage.

The device according to the invention is furthermore provided with a control unit for ensuring the accurate operation of the shock wave. The control unit not only synchronizes the shock wave operation with the electrocardiogram and the breathing cycle, but also monitors physical parameters such as the distance of the water spikes tips.

The apparatus according to the invention is operated as follows. The patient is placed on the bed 5 with the front abdominal wall on the table top. The acoustic contact of the respective torso portion of the patient is made with a water bath or a water bag. When using a water bath, the sealing collars prevent water flow. The water bath is found only in the abdominal wall, the upper and limb body parts are free of water. The sealing cuffs allow good fixation of the abdominal cavity organs. When using a water bag, it is mounted directly on the top opening of the elliptical reflector 1. Then, the gallstones are measured using the two dimensional sighting probe 2. The correct alignment of the elliptical headlight 1 is ensured by moving the entire manipulator assembly. the probe 2 fixed to the elliptical reflector 1 so that the plane shown intersects the main axis of the elliptical reflector 1 just at the focal point away from the water spark 9 when transmitting a shock wave by means of transfer water bags with two-dimensional sighting probe 2 ^s 111θΐθ ¹¹¹ patient · In this case, a defined movement is required so that the focus of the elliptical reflector 1 away from the water spark gap is still visible on the monitor 9 to make sure the focus is correct. However, a shock occurs when the control unit approves the trigger. The device according to the invention allows both total breakage

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Gallstones as well as disruption by small bursts of impact. However, this second treatment should be suitably combined with pharmacology of dissolution therapy.

Claims (6)

A device for the clinical performance of an extracorporeal gallstone lithotripsy by a focused shock wave, consisting of an elliptical reflector in which a spark gap with a source and data from a sighting probe is located, characterized in that an elliptical reflector (1) in which a water spark gap (9) is provided (1) connected via a one-way switch (14) to a functional capacitor (5) > provided on a manipulator (2) with six degrees of freedom, also carrying a sighting probe (5), with a bed (4) above the elliptical reflector (1) patient. Device according to Claim 1, characterized in that the elliptical reflector (1) is provided with a water bag mounted on its abutment part. Device according to claim 1, characterized in that the patient bed (4) is provided with a water bath with sealing collars (8). 4. Apparatus according to claim 1, characterized in that the sparks of the water spark (9) are connected to the electrodes of two series-connected capacitors (15 &apos; 16) charged in parallel. 5. Apparatus according to claims 1 and 4 _f, characterized in that the water spark (9) has one tip located on a plane passing through the focus of the elliptical reflector (1) and the other tip in the direction of its major axis. Device according to Claims 1, 4 and 5, characterized in that the points of the water spark (9) are arranged in the focal plane of the elliptical reflector (1) perpendicular to its main axis.