DE8714707U1 - Shock wave generator for contactless destruction of concretions in the body of a living being - Google Patents

Description

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87 G 3 4 3 5 EN

Siemens AG

Shock wave generator for contactless destruction of concretions in the body of a living being

The invention relates to a shock wave generator for the contactless shattering of concretions in the body of a living being, which has a shock wave source and focusing means for the shock waves emanating from the shock wave source, wherein the shock wave source can be acoustically coupled to the focusing means.

ΓΛ Such a shock wave generator emits shock waves that converge in a focus. To break up a concretion in the body of a living being, the body is positioned relative to the shock wave generator, for example with the aid of an X-ray location system, in such a way that the concretion to be broken up is in the focus of the shock waves. The shock waves then exert mechanical stress on the concretion, causing it to break up, so that the remains of the concretion can pass naturally.

A shock wave generator of the type mentioned above is known from DE-OS 33 28 051. This has a shock wave source

a liquid-filled housing, ( ) which can be driven in a shock-like manner and by means of which plane shock waves can be introduced into the liquid. These spread out in the liquid, which serves as a means of acoustic coupling, and reach the focusing means arranged at a distance from the membrane, which are designed as an acoustic converging lens. The acoustic converging lens emits focused shock waves which exit through an outlet opening in the housing. This is closed by means of a flexible bag, by means of which the shock wave generator can be pressed against the body of the living being for acoustic coupling.

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The known shock wave generator is bulky and requires a considerable amount of space, particularly in the direction of the shock waves' propagation. Since the shock wave generator is integrated into a large therapy facility in the practice, its bulky shape means that it represents an obstruction to other equipment components and therefore has to be acoustically decoupled from the body of the living being, i.e. withdrawn, in order to enable certain device functions required during treatment, e.g. to be able to attach an X-ray film cassette close to the body of the living being to take an X-ray picture of the treatment area. This is disadvantageous because when the shock wave generator is reconnected to the body of the living being, there is a risk that the concretion will no longer be in the focus of the shock waves.

P The invention is based on the object of designing a shock wave generator of the type mentioned at the beginning in such a way that, as a component of a therapy device, it does not represent an obstruction for other parts of the device and, if possible, it is not necessary to disconnect the shock wave generator from the living being during treatment.

According to the invention, this object is achieved in that the shock wave generator has two parts that can be separated from one another, one of which contains the shock wave source and the other the Al (") focusing means. With the shock wave generator according to the invention, it is thus possible to leave the part of the shock wave generator containing the focusing means coupled to the body of the living being and to remove the part of the shock wave generator containing the shock wave source, so that other device components can be moved in the required manner without the shock wave generator having to be disconnected as a whole. Since the part of the shock wave generator that contains the focusing means can always remain coupled to the body of the living being, there is no risk of shifts in the focus of the

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Shock waves occur relative to the concretion to be shattered*

According to a variant of the invention, the focusing means are designed as an acoustic Fresnel lens. This is particularly advantageous because a Fresnel lens has a smaller extension in the direction of its acoustic axis compared to a corresponding ordinary lens. It is thus possible to advantageously design the part of the shock wave generator that contains the focusing means and always remains coupled to the body of the living being with a short overall length. Also with regard to the overall length of the part of the shock wave generator containing the focusing means, it is advantageous if the means for acoustic coupling provided between the shock wave source and the focusing means according to a variant of the invention are connected to the part of the shock wave generator containing the shock wave source.

According to one embodiment of the invention, a coupling disk can be arranged between the shock wave source and the focusing means as a means for acoustic coupling, the material of which has such an acoustic impedance that the transfer of the shock waves from the shock wave source into the focusing means takes place essentially without reflection.

In order to enable the acoustic coupling of the shock wave generator to the body of the living being to be treated, one embodiment of the invention provides that the part of the shock wave generator containing the focusing means has a flexible bag arranged in front of the focusing means, which, together with the focusing means, encloses a space filled with liquid and which can be pressed against the body of the living being.

According to particularly advantageous embodiments of the invention, it is provided that the part containing the shock wave source

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of the shock wave generator has an opening containing the acoustic axis of the shock wave generator and that the part of the shock wave generator containing the focusing agent is permeable to X-rays at least in the area aligned with the opening. It is then possible to observe the process during the fragmentation of the concretions by means of shock waves using an X-ray system whose beam path runs along the acoustic axis of the shock wave generator or, after separating the part of the shock wave generator containing the shock wave source, to observe the X-ray system to be fragmented. by means of a runway system that radiates the body of the living being at different angles, while the part of the shock wave generator containing the focusing means is coupled to the body of the living being.

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

Fig. 1 shows a longitudinal section through a shock wave generator according to the invention in a first operating state, and

Fig. 2 shows a partial longitudinal section through the shock wave generator according to the invention according to Fig. 1 in a second operating state.

As can be seen from Fig. 1, the shock wave generator according to the invention has a membrane 1 made of an electrically conductive material as a shock wave source, which can be driven in a shock-like manner by means of a flat coil 2 arranged opposite it in order to generate shock waves. For this purpose, the flat coil 2 is connected with its connections 3 and A to a high-voltage supply (not shown), which emits a high-voltage pulse. This results in the flat coil 2 building up a magnetic field extremely quickly. At the same time, a current is induced in the membrane 1 which is opposite to the current flowing in the flat coil 2 and therefore

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according to a magnetic counterfield is generated* under the effect of which the membrane 1 is suddenly moved away from the flat coil 2, which is separated from the membrane 1 by an eleventh insulating foil 5. As a result, a plane shock wave is generated in a coupling disk 7 pressed between the membrane 1 and an acoustic Fresnel lens 6 provided as a focusing means, which serves as a means for acoustically coupling the membrane 1 with the Fresnel lens 6*, which passes into the Fresnel lens 6 and is radiated in a focused manner by it. The coupling disk 7 is made of a material which produces such an acoustic impedance.

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The shock wave passes from the membrane 1 into the coupling disk 7 and from there into the circular disk-shaped Fresnel lens 6. The shock wave emitted by the Fresnel lens 6 spreads out in a liquid volume enclosed by the Fresnel lens 6, a flexible bag 8 and an annular housing part 9 and exits the shock wave generator through an outlet opening 10 closed by the bag 8. By pressing the flexible bag 8 against the body of a living being to be treated, the shock wave can be coupled into it.

The membrane 1, the insulating film 5, the flat coil 2 and an insulating body 11 supporting them are of annular shape and are accommodated in a housing part 12 in which they are held by means of screws 13 and a retaining ring 14.

The membrane 1, the flat coil 2, the insulating film 5, the insulating body 11 and the housing part 12 with the retaining ring 14 and the screws 13 thus form a part 15 of the shock wave generator containing the shock wave source. In contrast, the Fresnel lens 6 and the flexible bag 8 together with the housing part 9 form a part 16 of the shock wave generator containing the focusing means.

The parts 15 and 16 of the shock wave generator are separable in the manner indicated in Fig. 2. In connection with the

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Fig. 1 clearly shows that the mutually facing end faces of the housing part 9 and the retaining ring 13 serve as stop surfaces, so as to ensure that the coupling disk 1 is pressed in the required width between the membrane 1 and the Firesnel lens 2. The annular coupling disk 7 is also connected to the membrane 1, e.g. by means of a seal, and is thus a component of the part 15 of the shock wave generator containing the shock wave source.

It is clear that the shock wave generator according to the invention has only a small overall length, whereby in particular the length of the part 16 of the shock wave generator containing the focusing means is particularly small. The part 16 of the shock wave generator therefore does not represent an obstruction for other device components, even if it is coupled to the body of the living being to be treated.

As already mentioned here, the Fresnel lens 6 emits the shock waves in a focused manner so that they converge in a focus F which lies on the acoustic axis 17 of the shock wave generator, which coincides with the longitudinal axis of the shock wave generator. Due to the ring-shaped shape of its components, the part 15 of the shock wave generator containing the shock wave source has an opening 18 whose axis corresponds to the acoustic axis 17 of the shock wave generator. In addition, the Fresnel lens 6 and the bag 8 are each made of a material that is permeable to X-rays, so that the part 16 of the shock wave generator containing the focusing means is permeable to X-rays in its area aligned with the opening. It is therefore possible to observe this process during the fragmentation of a concretion by means of shock waves with the aid of an X-ray system whose beam path runs along the acoustic axis 17 of the shock wave generator through the opening 18. A corresponding X-ray beam 19 is shown in dashed lines in Fig. ¹ .

After separation of the part containing the shock wave source 15

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&iacgr; of the shock wave generator from which the focusing means
containing part 16 (Fig. 2) it is even possible
a concretion to be crushed by means of two the body of the
living being under different angles of radiating
To locate X-ray beams 19, 20.

The flexible bag 8 is provided with a
Liquid can be added. This makes it possible to
Shock wave generator by supplying fluid to the body
of a living being to be treated, as the

flexible sack 8 due to its bellows-like formation in |

Direction to the focus F of the shock wave generator and 1 is pressed against the body of the living being. If the shock wave §

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8 Protection claims
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Claims (8)

&bull; » ft ft ft ft 87 G 3 4 3 5 DE Protection claims 1. Shock wave generator for contactless fragmentation of concretions in the body of a living being, which has a shock wave source (1) and focusing means (6) for the shock waves, the shock wave source (1) being acoustically coupled to the focusing means (6), characterized in that the shock wave generator has two separable parts (15, 16), of which one (15) contains the shock wave source (1) and the other (16) contains the focusing means (6). 2. Shock wave generator according to claim 1 , characterized in that the focusing means are designed as an acoustic Fresnel lens (6). 3. Shock wave generator according to claim 1 or 2, characterized in that means (7) for acoustic coupling are provided between the shock wave source (1) and the focusing means (6). 4. Shock wave generator according to claim 3, characterized in that the means (7) for acoustic coupling are connected to the part (15) of the shock wave generator containing the shock wave source (1). ^! 5. Shock wave generator according to claim 3 or 4, characterized in that a coupling disk (7) is arranged as a means for acoustic coupling between the shock wave source (1) and the focusing means (6), the material of which has such an acoustic impedance that the transfer of the shock waves from the shock wave source (1) into the focusing means (6) takes place essentially without reflection. 6. Shock wave generator according to one of claims 1 to 5, characterized in that the part (16) of the shock wave generator containing the focusing means (6) 87 6 3 4 3 5 EN generator has a flexible bag (8) arranged in front of the focusing means (6), which, together with the focusing means (6), encloses a space filled with liquid and which can be pressed against the body of the living being. 5 7. Shock wave generator according to one of claims 1 to 6, characterized in that the part (15) of the shock wave generator containing the shock wave source (1) has an opening (18) containing the acoustic axis (17) of the shock wave generator. 8. Shock wave generator according to one of claims 1 to 7, characterized in that the Λ Λ the part (16) of the shock wave generator containing the focusing means (6) is permeable to X-rays at least in its region (6, 8) aligned with the opening (18).