Title of Invention | DEVICE FOR MUCOSA RESECTION |
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Abstract | To carry out a mucosa resection, liquid is injected beneath a tissue which is then separated by means of mechanical or electrosurgical equipment. This procedure is time-consuming and complicated. A device is proposed that comprises a facility for endoscopic water-jet surgery with a control device for regulating the pressure with which a water jet is discharged from a nozzle to obtain a predetermined amount of energy. An adjusting means is provided for setting the pressure to a first and a second value. The first value is so chosen that the water jet penetrates the mucosa in such a way that it is lifted from the underlying muscularis through the formation of a fluid deposit. The second value is adjusted and different to the first pressure in such a way that the mucosa is sectionally cut through by the water jet. |
Full Text | "Device for Mucosa Resection" Description The invention relates to a device for mucosa resection, in particular by means of endoscopic methods. To treat gastrointestinal carcinomas, mucosa resections must be carried out that are usually conducted by means of endoscopic methods. Changes to the tissue are marked (dyed) upon recognition and then injected underneath with a physiological saline solution. This lifts the mucosa from the underlying layer, the muscularis. As a result, a sufficiently safe distance from the muscularis can be achieved and thus possible perforation can be avoided. The removal of the damaged mucosa can occur by means of various techniques, e.g. by snares or by IT knife. In all cases, however, it is extremely desirable to guarantee a specific, spatially restricted lifting of the mucosa and a correspondingly specific and spatially restricted separation, which is usually associated with considerable surgical effort, requiring great skill and experience on the part of the surgeon. In particular it causes considerable problems to puncture the submucosa initially with a (flexible) needle and inject a desired (small) amount of fluid to lift the mucosa. The puncture depth, the dosage and thus the form of lifting are dependent on the operating personnel. Once the mucosa has been lifted, its separation must occur, wherein the time following the injection and the lifting of the mucosa play an essential part, since the injected fluid escapes from the submucosa and the lifting achieved consequently recede until no further separation of the damaged tissue is possible. In such cases, a new injection must be given and the attempt made again to carry out the desired separation. Particularly when a tumour lies behind a fold, a snare cannot be placed or fixed quickly enough around the lesion. The object of the invention is to provide a device for mucosa resection, by means of which mucosal tissue can be safely removed in a simple manner. This object is achieved by a device according to patent claim 1. In particular the object is achieved by a device for endoscopic mucosa resection, comprising a facility for endoscopic water-jet surgery with a control device for regulating the pressure at which a water jet is discharged from a nozzle to obtain a predetermined amount of energy, and with an adjusting means for setting the pressure to a first value, at which the water jet penetrates the mucosa in such a way that it is lifted from the underlying muscularis through the formation of a fluid deposit, and to a second value, different from the first value, at which the mucosa is sectionally cut through by the water jet. Thus, both the injection to lift the mucosa and the severing of the tissue are effected by means of a single instrument and, indeed, merely by a suitable adjustment of the pressure. A further advantage of the device according to the invention is that, as a result of the severing, at least part of the fluid effecting the separation replaces fluid escaping from the deposit and thus achieves the lifting. Preferably, the adjusting means is configured in such a way that a predetermined amount of fluid is discharged upon setting the pressure to the first value and actuating a first starting switch. This enables a very simple and precise dosage of the amount of fluid to occur, which lifts the mucosa. The adjusting means is further preferably configured in such a way that, upon setting the pressure to a second value and actuating a second starting switch, the fluid is discharged in an essentially continuous manner while the second starting switch is operated. This hands the cutting of the tissue completely over to the surgeon. The adjusting means is further preferably configured in such a way that the first pressure can be adjusted independently of the second pressure. As a result, the pressure required to lift the mucosa and the pressure required to cut it can be adapted in each case to the physiological circumstances. It is also possible to equip the adjusting means with a ratio setting mechanism, which permits a predetermined ratio of the first pressure to be set in relation to the second. In particular, when a peak pressure setting mechanism is provided, a quick adjustment to changing tissue conditions can be made. The second pressure can preferably be adjusted in several stages to adapt to different tissue types, guaranteeing easy operability through the choice of few values. The pressures in the different stages can preferably be adjusted independently of each other, which in turn facilitates the handling during an operation. Preferably a display mechanism is provided to indicate different operating modes, in particular in relation to a currently set pressure value or also a previously set pressure value for lifting or cutting through the mucosa, so that the surgeon can easily see the values he has so far been operating with or the values that are currently set. To operate the device, a foot switch is preferably provided for optional setting of the first or second pressure, that is, for switching between injecting and cutting. In this case, it is also possible to work with a single starting switch that will trigger the particular operation (injection/separation). Preferred embodiments of the invention emerge from the sub-claims. Below, an embodiment example of the invention is described with reference to a drawing which depicts a device according to the invention in a schematic representation. As shown in the drawing, a conventional water-jet facility 10 is provided. Water (physiological saline solution) from a probe 12, which can be introduced into the working channel of an endoscope, is supplied via a supply line 11. The water jet issues from a nozzle 13 at the distal end of the probe 12. To control the water-jet facility 10 an adjusting means 20 is provided which is equipped with various setting mechanisms. In particular, a first pressure setting mechanism 23 and a second pressure setting mechanism 24 are provided here for pre-selecting the first or second pressure. The ratio of the first to the second pressure can be set by means of a setting mechanism 25 and the peak pressure can be set by means of a mechanism 26. These pressure settings are not all independent of each other, the result being that setting occurs either by the setting mechanisms 23 and 24 or by setting of the mechanisms 25, 26. In both cases, the injection duration upon application of the first pressure is set by means of a setting mechanism 28. A foot switch 27 is provided for actuation, which has a first starting switch 21 and a second starting switch 22. Depending on which of the two starting switches 21 or 22 is actuated, the device operates using the first or second pressure. It is also possible, of course, to configure the foot switch 27 in such a way that it only selects the pressure, while the starting signal is given by another switch, e.g. a hand-operated switch. It is likewise possible to provide appropriate hand switches instead of a foot switch. Finally, the adjusting means 20 has further display mechanisms 30 and 31 for indicating the first or second pressure, wherein these display mechanisms are configured in such a way that rapid monitoring to determine which of the two pressures is set is as much facilitated as exact monitoring of the set pressure (as the measured value). In one alternative embodiment of the invention not depicted in the figure, a means is provided for allowing the water jet with the first pressure to issue from a different noz2le 13 to the water jet with the second pressure. As a result it is possible to select variably not only the jet diameter but also the jet direction, depending on whether tissue is to be injected or separated. List of reference numerals 10 Water-jet facility 11 Supply 12 Probe 13 Nozzle 20 Adjusting means 21 First starting switch 22 Second starting switch 23 First pressure setting mechanism 24 Second pressure setting mechanism 25 Ratio setting mechanism 26 Peak pressure setting mechanism 27 Foot switch 28 Injection duration setting mechanism 30 First display mechanism (first pressure) 31 Second display mechanism (second pressure) Patent claims 1. Device for, in particular, endoscopic mucosa resection, comprising a facility (10) for endoscopic water-jet surgery with a control device for regulating the pressure with which a water jet is discharged from a nozzle (13) to obtain a predetermined amount of energy, and with an adjusting means for setting the pressure to a first value, at which the water jet penetrates the mucosa in such a way that it is lifted from the underlying muscularis through the formation of a fluid deposit, and to a second value, different from the first pressure, at which the mucosa is sectionally cut through by the water jet. 2. Device according to Claim 1, characterised in that the adjusting means (20) is configured in such a way that a predetermined amount of fluid is discharged upon setting the pressure to the first value and actuating a first starting switch (21). 3. Device according to one of the previous claims, characterised in that the adjusting means (20) is configured in such a way that, upon setting the pressure to a second value and actuating a second starting switch (22), the fluid is discharged in an essentially continuous manner while the second starting switch (22) is operated. 4. Device according to one of the previous claims, characterised in that the adjusting means (20) is configured in such a way that the first pressure can be adjusted independently of the second pressure. 5. Device according to one of the Claims 1 to 3, characterised in that the adjusting means has a ratio setting mechanism (25) for setting a predetermined ratio of the first pressure to the second pressure. 6. Device according to Claim 5, characterised in that a peak pressure setting mechanism (26) is provided for setting a maximum pressure with which the water jet is expressed from the nozzle (13). 7. Device according to one of the previous claims, characterised in that the second pressure can be adjusted in several stages to adapt to different tissue types. 8. Device according to Claim 7, characterised in that the pressures in the different stages can preferably be adjusted independently of each other. 9. Device according to one of the previous claims, characterised by a display mechanism (30, 31) to indicate different operating modes, in particular in relation to a currendy or previously set pressure value for lifting or cutting through the mucosa. 10. Device according to one of the previous claims, characterised in that the adjusting means (20) has a foot switch (27) for optional setting of the first or second pressure. |
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Patent Number | 268970 | ||||||||
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Indian Patent Application Number | 2842/CHENP/2007 | ||||||||
PG Journal Number | 40/2015 | ||||||||
Publication Date | 02-Oct-2015 | ||||||||
Grant Date | 25-Sep-2015 | ||||||||
Date of Filing | 27-Jun-2007 | ||||||||
Name of Patentee | ERBE ELEKTROMEDIZIN GMBH | ||||||||
Applicant Address | WALDHORNLESTRASSE 17, 72072 TUBINGEN, GERMANY | ||||||||
Inventors:
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PCT International Classification Number | A61B 17/32 | ||||||||
PCT International Application Number | PCT/EP05/12391 | ||||||||
PCT International Filing date | 2005-11-18 | ||||||||
PCT Conventions:
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