This application claims the benefit of European Patent Application No. 21187775.8, filed Jul. 26, 2021, the contents of which are incorporated herein by reference as if fully rewritten herein.
The invention refers to an electrosurgical instrument, particularly a hybrid instrument that comprises an electrode as well as a fluid nozzle.
From DE 36 16 616 A1 an instrument is known denoted as radio frequency cutting device that consists of a hose in the distal end of which a threaded bushing is inserted. The face of this threaded bushing is offset backwardly in proximal direction with reference to the distal face of the flexible hose. The threaded bushing comprises a passage opening that is narrowed at its distal end. An electrode that is held in a holder extends through the narrowed area of the threaded bushing. The holder is located in the passage channel, but does not extend into the narrowed area.
In a further embodiment illustrated in this document the passage channel is conical, wherein the holder is also configured in a conical manner. Also in this embodiment the holder cannot be moved up to the distal end of the instrument or also only into the threaded bushing.
Further, generic prior art is known from EP 1 752 108 A1, EP 2 156 801 A1, EP 1 726 267 B1 and U.S. Pat. No. 6,193,717 B1.
In such instruments the electrode is frequently configured as hollow filigree small tube that is positioned in a retracted position inside the instrument and projects in an extended position from the distal end of the instrument. The electrode is thereby slim, i.e. long in relation to its diameter, and thus subject to the risk of breakage.
It is one object of the invention to provide an improved instrument.
This object is solved by means of an electrosurgical instrument as described herein.
The instrument according to the invention comprises a distal end piece having a distal end surface and a passage channel, whereby the distal end surface surrounds a mouth opening at which the passage channel opens out. A holder is arranged in the passage channel that is movable linearly in axial direction between a retracted position and an extended position. The axial direction extends from a proximal section of the end piece toward the mouth opening. In the extended position the holder ends flush with the end surface or projects therefrom. A distal end section of the holder comprises a seat opening in which the electrode is arranged. It projects with a section out of the seat opening.
Due to this configuration, the length of the section of the electrode projecting from the holder is minimized, whereby the risk of breakage of the electrode is reduced compared with configurations in which the holder of the electrode remains behind the distal end surface of the end piece, as it is the case in the prior art. In the invention the length of the section of the electrode projecting from the holder is kept as short as possible, whereby the ratio between the length of this section and its diameter (aspect ratio) can be increased. This is particularly of advantage for thin electrodes that are in addition hollow, i.e. that comprise a lumen, with which liquid can be channeled through the electrode and discharged at the distal end thereof. Such electrodes can be manufactured, for example, from tungsten or hard metal by metal injection molding methods (MIM) or by other suitable methods. In the arrangement according to the invention, the holder can serve as heat sink for the electrode that can heat during operation. The heat capacity of the holder serves for cooling the electrode and thus reduces detrimental heat-related phenomena, such as embrittlement of the material of the electrode, adhesion of tissue, forced break durations between subsequent activations and the like. With the inventive configuration the holder can absorb heat emitted from the electrode across short distance.
The concept according to the invention allows the minimization of the length of the electrode. The length of the electrode is composed of the length of the section projecting from the holder and the length of the section held in the holder. If the electrode comprises a fluid channel, its length and therefore its flow resistance is also minimized. Thereby the fluid pressure is reduced that is necessary in order to create a fluid jet at the distal end of the electrode appropriate for sub-tissue injection. Accordingly, the pump power required for supplying the fluid can be reduced.
The concept according to the invention allows a simplified assembly of the electrode. It can be inserted in the holder positioned in the distal end piece and then fixated therein. For fixation of the electrode a laser-welded joint can be used between the electrode and the holder. The laser-welded joint can be applied as soon as the holder is in extended position. The joint site between the holder and the electrode is therefore located in the same plane as the distal end surface of the end piece or even distally in front thereof and is therefore easily accessible.
In a preferred embodiment the passage channel formed in the end piece comprises a narrowed distal section that adjoins a remaining passage channel—that is preferably cylindrical—via a shoulder. The shoulder forms a stop means for the holder, the extension of which extends through the narrowed section. The shoulder can be a ring shoulder. Particularly the shoulder can comprise a planar ring surface or a ring surface that is located on a surface of a cone having an opening angle larger than 90°, preferably larger than 120° or 160°. The ring surface forms a stop surface for the holder. Preferably the extension is at least as long as the narrowed section, such that the end of the extension is flush with the face side distal end surface of the end piece or projects beyond it in the extended position. The seat opening for the electrode extends preferably through the entire extension into the holder.
Further details of advantageous embodiments of the invention are subject of the claims and are further apparent from the drawing and/or the associated description. The drawings show:
In
The instrument 11 comprises a flexible hose 17 that extends from the proximal end section of instrument 11 up to its distal end section 18. For example, such an instrument can be used endoscopically in that it is inserted in the body of a patient through the working channel of an endoscope in order to carry out surgical treatments there. The instrument is thereby preferably a hybrid instrument that allows the treatment of tissue by means of a pin or needle-shaped electrode 19 illustrated, e.g. in
At its distal end section 18 the instrument 11 comprises an end piece 21, the configuration and shaping is particularly apparent from
Instead of a flexible hose, also a rigid shank can be provided. The end piece 21 can be inserted into the shank or can be part of the shank. It can also be a monolithic component of the hose.
In the distal section 18 of instrument 11 shown in
For supply of electrode 19 with treatment current, holder 31 can be provided with current via a wire 45 guided through the lumen of fluid hose 33. The wire 45 is connected with the surgical generator 14 via connection device 16. As an alternative, wire 45 can be arranged inside the wall of fluid hose 33.
The electrode 19 provided with voltage and current respectively can be used for cutting tissue, in that it is pierced in the tissue and is then moved laterally. The voltage applied to the electrode 19 creates sparks between the tissue and the electrode 19 that coagulate and evaporate the tissue. In this manner a cut can be created.
The holder 31 comprises a seat opening 34 that extends coaxially to the holder and the end piece 21 from the distal end into the holder 31, as particularly also apparent from
The holder 31 comprises a cylindrical section, as apparent from
A shoulder 37 is formed between extension 36 and the remaining section of holder 31, wherein the shoulder can abut against ring shoulder 28. If shoulder 37 abuts against ring shoulder 28, the holder 31 and together therewith electrode 19 are in the extended position according to
The electrode 19 can be configured as capillary tube, i.e. as thin wall slim hollow cylinder that surrounds a fluid channel 38. The fluid channel can end in a nozzle opening 39 at the distal end of electrode 19. The nozzle opening 39 can be formed by the open end of the fluid channel 38. As an alternative, the nozzle opening 39 can be formed by a narrowing of fluid channel 38 at its distal end.
The electrode 19 can consist of hard metal, tungsten or the like. It comprises a section 40 projecting from holder 31 and a section 41 held in the seat opening 34. The section 41 is thereby preferably longer than the extension 36 and thus also longer than the diameter reduced section 29. The length of section 40 is preferably multiple times longer than the diameter of electrode 19. Particularly the length 40 is preferably more than 5 times and further preferably more than 10 times as long as the diameter of section 40.
The electrode 19 is preferably connected with holder 31 in a substance bond manner. For this purpose the extension 36 can be connected with electrode 19 by means of one or multiple welded joints 42, particularly at the face side end of extension 36. For example, the welded joint 42 can be a laser-welded joint. The laser-welded joint can comprise a weld seam or one or more weld spots.
At its distal end the extension 36 comprises a conical taper 43 (i.e. a conical section 43) that ends at the weld joint 42. The conical taper 43 can serve as insertion aid, if the holder 41 moves from its retracted position into the extended position and thereby the extension 36 has to enter the diameter reduced section of end piece 21. In addition, the conical section 43 can be used to reduce local stress in the electrode 19 in the vicinity of the weld joint 42, if the electrode 19 is subject to radial forces.
In addition, shoulder 37 can comprise a conical section 44. It serves as insertion aid during insertion of holder 31 into the end piece 21, which simplifies the assembly.
Apart therefrom, the explanations and comments provided to
The surgical device 10 described so far operates as follows:
During operation instrument 11 is connected to apparatus 12. The respective type of operation, namely sub-injection or resection, is selected by the user by means of non-illustrated control means, e.g. a pedal. The instrument 11 is inserted through an appropriate device, e.g. an endoscope, into the body of the patient. For example, if the surgeon now desires to sub-inject a tissue section, he or she transitions the holder 31 and electrode 19 therewith in the retracted position according to
After this process has been terminated the treating person can switch apparatus 12 and instrument 11 from sub-injection mode into the resection mode. For this holder 31 and therewith electrode 19 are transitioned into the extended position according to
With the respective voltage applied and current-applied electrode 19 now a desired tissue section can be cut from the tissue structure, just like with a scalpel and then removed from the body of the patient.
During use of instrument 11 it can be switched between the sub-injection mode and the resection mode in any number of times.
The electrosurgical instrument 11 according to the invention comprises a basic body configured as hose 17 or as hollow rod on which an end piece 21 is configured or into which an end piece 21 is inserted. The end piece 21 comprises a passage channel 27 that comprises a narrowed section 29 at its distal end. The electrode 19 is held in a holder 31 that comprises an extension 36 surrounding the electrode 19. The extension 36 is configured to extend through the narrowed section 29 of passage channel 27 up to the end surface 23 such that it outcrops at the mouth opening 30 of narrowed section 29, if electrode 19 is in the extended position. At this section of extension 36 located at the mouth opening 30 the electrode 19 is connected with, preferably welded to the extension 36.
Number | Date | Country | Kind |
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21187775.8 | Jul 2021 | EP | regional |