KR20170028531A - retractable flexible cautery device - Google Patents

Abstract

The present invention relates to a retractable and flexible cautery device. The cautery device performs cautery on a lesion with a high frequency by supplying a high-frequency current to a cautery tip drawn out of an electrode portion. The cautery tip, which is of variable type, is drawn out of the electrode portion while maintaining a shape increasingly curved in stages when used by drawing means. After used, the cautery tip is drawn into the electrode portion by the drawing means while maintaining an increasingly linear shape starting from the curved shape. The cautery device can be easily inserted from the beginning into the position of the lesion where cauterization is performed. Even when it is required to pass through a curved passage to reach the position of the lesion, the cautery device can pass through it without troubles because of the cautery tip drawn out in a curved form.

Description

A retractable flexible cautery device

More particularly, the present invention relates to a retraction cautery apparatus, and more particularly to a retraction cautery apparatus which comprises a cauterizing mechanism used for high frequency cautery, an electrode unit, a guide tube, and a cauterizing tip. When the cauterizing tip is withdrawn through the electrode unit and the guide tube, This is about an elastic cauterization device used for local non-surgical localized removal.

The survival rate was increased due to embolization of the cancer cells by blocking the blood supplied to the cancer cells. However, because of the repetitive embolization, damage to the nourishing blood vessels of the tumor occurred and regional tumor ablation was more frequent than in the past .

In the past, the use of Percutaneous Ethanol Injection (PEI) has been widely used, however, it is not effective for solid metastatic cancer and requires about five treatments for one lesion .

Recently, radiofrequency ablation (RFA) and cryoablation have been used. Among them, high - frequency cautery has been found to contribute to improvement of short - term treatment results and long - term survival rate of patients in various studies.

However, unlike surgical resection, high-frequency endoscopy does not require general anesthesia or incision, and despite the great advantage of being able to perform multiple operations, percutaneous radiofrequency ablation under imaging induces the following problems.

First, it is difficult to treat the tumor located under the liver capsule, which is difficult to induce ultrasonography. However, metastatic tumors tend to develop at this location relatively.

Second, in the process of generating high heat using high frequency for inducing cancer cell necrosis, there is a possibility of damaging the liver organs such as diaphragm, colon, gallbladder and the like.

Third, in the case of percutaneous radiofrequency ablation, it is very difficult to perform the cauterization in cases of lesions located under the hepatic capsule, which are difficult to induce ultrasound or CT, and lesions attached to the gallbladder, colon or diaphragm.

To overcome these problems, laparoscopic high frequency procedures have recently been attempted. FIG. 1 is a photograph of a real image showing such a conventional laparoscopic RF electrode surgical apparatus 10, and FIG. 2 is a conceptual diagram showing the limitations of the conventional technique of FIG. That is, as shown in FIG. 1, in the conventional RF electrode surgical apparatus 10, the active tip 11, which generates heat by high frequency, is firmly extended.

However, in the case of laparoscopic radiofrequency ablation, most of the lesions of the lesion that is the limit of the percutaneous radiofrequency ablation can be performed, but the electrode is advanced through the skin using the non-bendable electrode used in the percutaneous radiofrequency ablation The procedure was difficult.

Specifically, it is very difficult to perform the procedure at a portion in contact with the diaphragm (see Fig. 2 (a)) which is the upper portion of the liver and a portion in contact with the posterior peritoneal membrane (Fig. 2 (b)).

In order to solve such a problem, a 'high-frequency electrode surgical apparatus equipped with a flexible tube' described in Patent Document 1 of the prior art document is proposed, in which an active tip is connected to the end of a flexible tube connected to the body of the electrode, The flexible tube is made to move freely in the body when the cautery is performed.

However, when the flexible tube is used from the beginning, it is difficult to send the active tip to the lesion site when the flexible tube is inserted into the body. In other words, if the flexible tube should pass along the curved path formed from the vicinity of the lesion where the cauterization is performed, the flexible flexible tube is inserted from the insertion position rather than the curved environment to the lesion position for performing the desired cautery There is a problem with.

Korean Patent Registration No. 10-0954285 Japanese Laid-Open Patent Publication No. 2009-183697

SUMMARY OF THE INVENTION The present invention has been made in order to solve the above-mentioned problems, and it is an object of the present invention to provide a cauterizing device, When the vicinity of the lesion site where the cauterization is performed is the environment of the curved passage, it is first inserted through the guide tube, and then the curved cautery tip is drawn out from the vicinity of the lesion position So that the tip portion of the tip can easily reach the lesion while being smoothly drawn along the curved passage as a whole.

In order to achieve the above object, the present invention provides a cauterizing device for cauterizing a lesion by a high frequency by supplying a high frequency current to a cauterizing tip drawn out from an electrode portion, When the electrode portion is drawn into the electrode portion by the drawing means after use, the electrode portion is curved gradually while being kept in a linear shape gradually while being kept in a linear shape, And the like.

The electrode unit is composed of a body having a high frequency generating unit and a guide tube connected to one end of the body, the high frequency current being supplied to the high frequency generator through a wire, And is connected to the wire receiving / receiving means and the electric wire of the body, and is guided through the body and the guide tube to radiate the high frequency at the end.

In addition, it is preferable that the drawing and inputting means comprises a draw-out mouth slot formed elongated along the longitudinal direction of the body and a slider connected to the cut-off tip through the draw-out slot.

It is also preferable that a portion of the guide tube is curved.

The stopper may further include a stopper for fixing the take-out means at a predetermined position, wherein the stopper is preferably drawn or drawn in stepwise.

Preferably, the stopper is a slider guide having a corrugated surface formed in correspondence with the spring protrusion at either one of a spring protrusion provided at one side of the slider and a slot for the outflow entrance.

Preferably, the stopper is a stop button connected to the rear of the slider.

Wherein the guide tube is fixed by an inner tube fixing portion formed in the connector through a connector inside the body and is fixed by an outer tube fixing portion in one longitudinal direction of the connector, The mounting portion is preferably connected to the connector by a slider connection formed in the connector.

According to the elastic cauterization device of the present invention, the cauterization device can be inserted from the beginning to the lesion site where the cauterization is performed, and even when the cauterizer device needs to pass through the curved passage to the lesion position, There is an effect that can be.

In addition, since the cauterization tip is drawn out gradually and gradually in a stepwise manner when the cauterization tip is drawn out, the cauterization tip can pass through various types of passageways up to different lesion positions with a degree of bending.

1 is a photograph showing a conventional laparoscopic RF electrode surgical apparatus
Fig. 2 is a conceptual diagram showing the limitations of the prior art of Fig. 1
Figure 3 is a top view of a stretch cautery mechanism according to the present invention;
Figure 4 is a side view of a flexible,
5 is a perspective view showing the interior of the elastic cautery mechanism according to the present invention;
Fig. 6 is a view showing the internal construction of the elastic cautery mechanism according to the present invention

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings. It is to be understood that the present invention is not limited to the disclosed embodiments, but may be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete, It is provided to inform.

Fig. 3 is a plan view of a retraction cautery mechanism according to the present invention, and Fig. 4 is a side view of a retraction cautery mechanism according to the present invention.

3 and 4, the elastic cauterizing mechanism according to the present invention has a basic configuration of an electrode unit 1 and a cauterizing tip 2, and the electrode unit 1 is constituted by an external high- And a guide tube (4) connected to the body (3). The cauterization tip 2 is formed in a variable shape and is connected to a draw-out means 5 provided in the body 3 in a bent state and is guided by the guide tube 4 (Not shown). The tip of the guide tube 4 is slightly curved so that the end of the cautery tip 2 is drawn or drawn in a bent state.

The cutting tip 2 is connected to an electric wire supplied with a high frequency current in the body 3 and is not straightly drawn out when it is pulled out from the curved end of the guide tube 4 by the draw- More and more curved shape. Conversely, when the cutting tip 2 is pulled into the curved end of the guide tube 4 by the drawing-out means 5, it is drawn in a curved shape and forcibly becoming a straight line. When the cutting tip 2 is pulled out from the guide tube 4, it can not be formed if it is made of a completely flexible material when viewed from a material viewpoint. In other words, it is preferable that the cutting tip 2 is formed in a pre-bent state in a variable shape and is formed of a flexible material having a proper strength so as to maintain a straight shape when drawn and retain a curved shape when drawn. Therefore, a metal wire such as a metal wire which can be repeatedly bended and spread as a constituent material of the cutting tip 2 may be suitable.

Fig. 5 is a perspective view showing the inside of a stretch cautery mechanism according to the present invention, and Fig. 6 shows an internal construction of a stretch cautery mechanism according to the present invention.

5 and 6, the drawing-out means 5 is provided with a lead-out insertion slot 6 formed in the body 3 of the electrode unit 1 along the longitudinal direction thereof, as in a general cutter knife, Button, and a slider 7 is inserted and installed in the draw-out entrance slot 6. The slider 7, And the slider 7 is connected to the cauterization tip 2 inserted into the body 3. The guide tube 4 into which the cutter tip 2 is inserted is inserted through a connector 9 provided inside the body 3 and is provided with a hole shaped inner tube fixing portion 4a ). An outer tube fixing portion 4b having a hole formed on a side thereof for fixing the guide tube 4 is provided on one side of the longitudinal direction of the connector 9 inside the body 3 so that the guide tube 4 is fixed to the outer tube fixing portion 4b, And a slider mounting portion 11 provided with a slider 7 is disposed at the rear side of the connector 9 in the longitudinal direction of the connector 9 to form a hole-like slider connection portion 10 formed on a side surface of the connector 9, Respectively.

Therefore, when the slider 7, which is the draw-out input means 5, is pushed up along the draw-out mouth 6 as if pulling or pulling a knife from a general cutter knife, the cut- The cauterization tip 2 is drawn into the curved end of the guide tube 4 when the slider 7 is pushed down and pushed down along the withdrawal entrance slot 6. [

A stopper 8 for stopping the slider 7 at an appropriate position and adjusting the drawing length of the cutting tip 2 is provided on the drawing input and output means 5, A spring protrusion 8a provided on one side surface of the slider 7 and a slider guide 8b having a wave surface formed corresponding to the spring protrusion 8b on either side of the long side of the draw- ). When the cutter tip 2 is drawn out by a predetermined length by the stopper 8 as described above, the spring protrusion 8a rides over the slider guide 8b of the waveform and the slider 8 advances. However, The spring protrusion 8a is caught by the corrugated portion of the slider guide 8b and does not move forward any more when the advancing of the slider 8 is stopped after the withdrawal of the cutting tip 2 by the stopper 8b, .

The stopper 8 has a stop button 8a and a wavy slide guide 8b connected to the rear of the slider 7. The slide button 7 is pushed up by the stopper 8, The stop button is depressed at that position to serve as a stopper that prevents the slider from moving forward or backward beyond the slider guide on the wave surface. Since it is the same as that installed on the knife, detailed configuration and operation will be omitted.

Advantages of using the elastic cautery mechanism of the present invention constructed as described above are as follows.

When a normally cauterized lesion is cauterized by high frequency treatment, the cauterization device is inserted from the outside of the body to allow the tip that radiates the high frequency to reach the lesion site. In the case of using the elastic cauterization device of the present invention, Hold the guide tube (4) into the body once toward the lesion site.

When the guide tube 4 is inserted into the body and a curved passage is formed to the lesion position to make the cauterization difficult, the slider 7 of the draw-out means 5 is pushed up to push the guide tube 4 When the cauterization tip 2 is bent and drawn out through the curved end, the cauterization tip 2, which is bent and drawn out, moves along the curved passage and moves to the lesion position without fail.

In this state, the lesion is cauterized by the high frequency supplied to the end of the cauterization tip 2 through the guide tube 4 in the body 3 of the electrode part 1 by the electric wire connected to the cauterization tip 2, .

When the cauterization treatment is finished, the slicer 7 of the draw-out means 5 is pushed and pressed down along the curved passage while the cauterization tip 2 is flexed to be drawn into the curved end of the guide tube 4, The inserted guide tube 4 is taken out of the body to complete the use of the elastic cauterizing device of the present invention.

When the cautery tip 2 in use is pulled out to a desired length so as to reach the lesion position, the stopper 8 provided on the pull-out mouth means 5 provided on the body 3 is used for the cautery, ) Will no longer advance or retreat.

The above-mentioned elastic cauterization device of the present invention is particularly useful in such cases because conventional straight tools are inconvenient and untouched in cauterizing or cutting tissue in a narrow joint endoscope as well as a laparoscope.

Although the present invention has been described with reference to the drawings, it is to be understood that the invention is not limited to the disclosed embodiments and drawings, It should be understood that various modifications may be made by those skilled in the art.

1: Electrode part 2: Waste tip
3: Body 4: Guide tube
4a: inner tube fixing portion 4b: outer tube fixing portion
5: withdrawal input means 6: withdrawal entry slot
7: Slider 8: Stopper
8a: spring projection 8b: slider guide
9: connector 10: slider connection
11: Slider mounting portion

Claims (8)

A cauterization device for cauterizing a lesion by a high frequency by supplying a high frequency current to a cauterization tip drawn out from an electrode part,
The cauterizing tip is drawn out while being kept in a shape gradually becoming more and more curved in a stepwise manner as the electrode unit rotor is being taken out by the draw-out input means by the draw-out input means, and when the lead- So as to be drawn in while maintaining a more linear shape. The method according to claim 1,
Wherein the electrode unit comprises a body having a high frequency generating unit receiving a high frequency current through a wire, a body provided with a take-out means for moving in the longitudinal direction on an outer surface thereof, and a guide tube connected to one end of the body,
Wherein the cauterizing tip is connected to the drawing-out means and the electric wire of the body, and is drawn through the body and the guide tube to radiate a high frequency at the end. 3. The method of claim 2,
Wherein the draw-out mouth means comprises a draw-out mouth slot formed elongated along the longitudinal direction of the body and a slider connected to the cut-off tip through the draw-out mouth slot. 3. The method of claim 2,
Wherein a portion of the guide tube is curved at an end thereof. 3. The method of claim 2,
Further comprising a stopper for fixing the take-out means at a predetermined position, wherein the stopper allows the cauterizing tip to be pulled in and out stepwise. The method of claim 3,
Wherein the stopper is a slider guide having a corrugated surface formed in correspondence with the spring protrusion at one long side of either a spring protrusion provided at one side of the slider or a slot for drawing out the insertion hole. The method of claim 3,
Wherein the stopper is a stop button connected to the rear of the slider. The method of claim 3,
Wherein the guide tube is fixed by an inner tube fixing portion formed in the connector through a connector inside the body and is fixed by an outer tube fixing portion in one longitudinal direction of the connector, Wherein the mounting portion is connected to the connector by a slider connection formed in the connector.

Images