KR20060025293A - Electrode device for radiofrequency thermal ablation - Google Patents

Abstract

The present invention relates to an electrode device of high-frequency heat treatment, according to the different treatment method according to the condition of the lesion site, easy and efficient cauterization of the lesion site at high frequency, necrosis as well as the procedure work is improved, the electrode needle of the electrode device It is to reduce the adhesion of the carbonized material on the surface of the.

To this end, the present invention, the power supply unit 1, the oscillation unit 2, the amplification unit 3, the output control unit 4, the high frequency electrode unit 10, the fluid infusion unit 7, In the high frequency heat treatment apparatus 100 having the central processing unit 6, the high frequency electrode unit 10 is coupled to the electrode body 11 and the electrode body 11 to insulate the high frequency unit 15. The electrode needle 14 formed with a plurality of holes 14a and a temperature sensor 16 is coupled to the electrode body 11, and the electrode body 11 has a suction part 17 that sucks moisture contained in the lesion site. The electrode body 11 is detachably coupled, and the fluid supply part 18 for supplying fluid to the lesion part is detachably coupled to the electrode body 11, and the output cable 19 for transmitting high frequency to the high frequency electrode part is detachably coupled to the electrode body 11. It is.

High frequency heat treatment, high frequency electrode part, electrode needle, suction part, infusion solution part

Description

Electrode device of high frequency thermal therapy {ELECTRODE DEVICE FOR RADIOFREQUENCY THERMAL ABLATION}

1 is a block diagram of a high frequency heat treatment apparatus of the present invention.

Figure 2 is a block diagram showing an electrode device of the present invention high frequency heat treatment.

Figure 3 is an enlarged detail view showing the electrode needle of the electrode device of the present invention.

Figure 4 is another embodiment showing the electrode needle of the electrode device of the present invention.

5a and 5b are still another embodiment showing the electrode needle of the electrode device of the present invention.

6a to 6d are views showing various shapes of a plurality of electrode needles separated.

* Description of the symbols for the main parts of the drawings *

10: high frequency electrode portion 11: electrode body

12: output coupling portion 13: body coupling portion

14: electrode needle 14a: hole

15: insulation 15a: marker

16: temperature sensor 17: suction

18: Sap supply unit 19: Output cable

20: guide 100: high frequency heat treatment apparatus

The present invention relates to a high-frequency heat treatment apparatus, and more particularly to an electrode device of high-frequency heat treatment to easily cauterize the necrotic lesions, such as cancer tissue (cancer cells) generated in the body.

In general, the high-frequency heat treatment device is to heat the lesion at high frequency to cauterize the necrotic lesions such as cancer tissue.

If cancerous tissue is generated in the body organs (liver, thyroid, etc.), it is treated by surgical and non-surgical methods.

Here, the surgical operation is to cut the lesion area in which the cancer tissue is generated after the incision of the body by using a surgical tool, the surgical area is wide, leaving a large scar as well as care until the surgical site healed There has been a problem in the institution (hospital, etc.) for a long time care.

In addition, when cancer tissues recur, the recurred lesions have to be re-operated, and thus, the patient has a lot of pain as well as an economic burden and a high risk of reoperation.

Recently, many non-surgical methods are used, namely, carotid artery embolization, percutaneous ethanol injection, systemic chemotherapy, and topical heat therapy, among which local heat therapy is most effective.

Such local thermal treatments include radiofrequency ablation, microwave ablation, and laser ablation. Among them, high frequency thermal therapy is most effective, and doctors and patients require the above method.

That is, the high frequency heat treatment is a treatment method in which a high frequency heat is radiated to a lesion site such as cancer tissues, which are caused by body organs, so as to cauterize the lesion site by the high frequency heat.

The electrode device for high-frequency heat treatment is to assemble an electrode needle radiating high frequency to the gripping body, and to install a cooling line for circulating and supplying coolant to the inside of the gripping body and the electrode needle, the insulating portion on the outer peripheral surface of the electrode needle Since the electrode needle penetrates through the skin of the body, the electrode needle passes through the skin of the body and inserts the electrode needle into the lesion.

Then, as power is applied from the outside to the electrode needle, the electrode needle inserted into the lesion portion is heated to radiate high frequency, and the lesion portion such as the cancer tissue is cauterized by the high frequency and heat radiated from the electrode needle. Necrotic

However, since the conventional high-frequency heat treatment method simply radiates high-frequency to the lesion site and cauterizes the lesion site, the lesion site can be treated according to the condition of the lesion site. As a result, there was a problem that all lesions could not be treated.

In addition, as the foreign matter generated when the lesion site is cauterized by the radio frequency radiated to the electrode needle is attached to the surface of the electrode needle, not only the emissivity of the high frequency is dropped from the electrode needle by the attached foreign matter, but also the cauterization range of the lesion site. There is also a problem because it takes a lot of time to cauterize the lesion site because it becomes less.

Thus, in order to quickly calibrate the lesion site, the procedure is very inconvenient as well as the patient suffers as the lesion site should be cauterized by inserting the electrode needle several times or inserting multiple electrode needles at the same time. There were also problems to be followed.

In addition, since the depth of the electrode needle is not accurately known when the electrode needle is inserted into the lesion site, the electrode needle may be inserted too much or too little, of course, depending on the experience or know-how of the operator. There was a problem that the operation is not performed smoothly because the case is inserted into the lesion several times.

The present invention has been made in order to solve the above-mentioned conventional problems, it is possible to change the structure of the electrode device is a high frequency radiation is radiated easily the lesion site such as cancer tissue generated in the body by the high frequency radiation from the electrode device Necrosis is to have the purpose.

In addition, the present invention is to suck out the moisture contained in the lesion area to discharge the foreign matter, etc. generated as the lesion site is cauterized, as well as to prevent the adhesion to the surface of the electrode to cauterize the lesion site more efficiently There is a purpose.

In addition, the present invention is to maximize the cauterization effect of the lesion site by adjusting the radioactive range of the radio frequency by injecting a curable material (ethanol, acetic acid, etc.) to the lesion site through a separate drug injection line The purpose is to improve the operability of the procedure.

In addition, an object of the present invention is to easily check the insertion depth of the electrode while viewing the markers by displaying a plurality of markers on the electrodes of the electrode device for high frequency heat treatment at a predetermined interval.

In order to achieve the above object, the present invention provides a power supply unit to which power is applied, an oscillator for generating high frequency, an amplifier for amplifying high frequency in a predetermined band, an output control unit for outputting high frequency, and a high frequency for radiating high frequency. In the high frequency heat treatment apparatus is provided with an electrode unit, an automatic infusion unit for supplying the sap to the high frequency electrode unit, and a central processing unit for controlling the operation of the components, the high frequency electrode unit, the body coupling portion and the output coupling portion is formed The electrode body is formed by the hand, the front end of the electrode body is formed with a pointed end to radiate high frequency and a plurality of holes are formed on the outer peripheral surface of the end to suck the water in the lesion area as well as the electrode with a built-in temperature sensor The needle is coupled to the outer peripheral surface of the electrode needle, the insulating portion surrounding the remaining portion except for the end portion A suction part detachably coupled to the main body coupling part of the electrode body to suck moisture contained in the lesion part through the electrode needle, and supply the sap to the lesion part from the outside to the body coupling part of the electrode body. A fluid supply part to be detachably coupled, and the output coupling portion of the electrode body is provided with an electrode device of high frequency heat treatment, characterized in that the output cable for transmitting a high frequency sent from the output control unit to the high frequency electrode portion detachably coupled. do.

Hereinafter, preferred embodiments of the present invention configured as described above will be described in more detail with reference to FIGS. 1 to 3.

1 is a configuration diagram of the high frequency heat treatment apparatus of the present invention, Figure 2 is a configuration diagram showing the electrode device of the high frequency heat treatment of the present invention, Figure 3 is an enlarged detail view showing the electrode needle of the electrode device of the present invention.

The present invention is provided with a high-frequency heat treatment apparatus 100 for generating the high-frequency to cauterize the lesion site by necrotic heating the lesion site such as cancer tissue (cancer cells) generated in the body at high frequency.

The high frequency thermal therapy apparatus 100 is provided with a power supply unit 1 to which power is applied from the outside, and the oscillation unit 2 generating high frequency (400 to 500 Hz) by the power applied from the power supply unit 1 is provided. It is connected to the power supply unit 1, and an amplifier 3 for amplifying a high frequency sent from the oscillator 2 in a predetermined band is connected to the oscillator 2.

In addition, an output control unit 4 for outputting the high frequency in order to perform the operation by using the high frequency signal amplified from the amplification unit 3 is connected to the amplification unit 3, the output control unit ( The high frequency electrode part 10 which radiates the high frequency output from 4) to a surgical part (lesion part) is provided.

The output control unit 4 and the high frequency electrode unit 10 are connected between the sorting control unit 4 and the high frequency electrode unit 10, and the output control unit 4 is connected to the high frequency electrode unit 10. An accessory mounting portion 5 for transmitting high frequency is provided.

The accessory mounting portion 5 is coupled to the output control unit 4 and the respective components of the high frequency electrode portion 10 are mounted and coupled.

In addition, the sap (ethanol, acetic acid, etc.), which is connected to the power supply unit 1 and is operated by a power source applied from the power supply unit 1, that is, a curable material, such as a high-frequency electrode unit 10, is used. The fluid infusion | pouring injection part 7 to supply is provided.

The fluid injector 7 is supplied with an infusion from the outside, and the fluid injector 71 for automatically injecting and sending the supplied fluid to the high frequency electrode unit 10, and the infusion injector 71 Is connected to the automatic fluid injector control unit 72 and the fluid injector control unit 72 to adjust the injection amount of the fluid injected into the high frequency electrode portion 10 from the automatic fluid injector 71 and the Each of the components of the high frequency electrode unit 10 is composed of a fluid injector syringe mounting unit 73 is equipped with a fluid supply unit 18 to be described later.

Control and control the operation of each configuration of the high frequency heat treatment apparatus 100 such as the power supply unit 1, the oscillation unit 2, the amplifying unit 3, the output control unit 4, the infusion solution injection unit 7 and the like. The central processing unit 6 is provided.

The central processing unit 6 and the electrode of the high-frequency electrode unit 10 when performing the operation on the lesion site such as cancer tissue by the high frequency output from the output control unit 4 and sent to the high-frequency electrode unit 10 Check the impedance between the operators, and automatically adjust the output of the high frequency in accordance with the value of the checked impedance, that is, when the value of the impedance is increased, the sorting is lowered, and when the value of the impedance is lowered, the inverse relationship is set to increase the output. By controlling the output of the high frequency automatically and the temperature of the high frequency electrode unit 10 to check and adjust the respective components, such as to control.

As shown in FIGS. 2 and 3, the high frequency electrode unit 10 is formed with an electrode body 11 to be easily gripped by a user, and is discharged from the outside to the rear of the electrode body 11. An output coupling part 12 is formed to be coupled to an output cable 19 to be described later to send a signal that senses a high frequency and a temperature to the outside, and water at the lesion is located at a predetermined position on the outer circumferential surface of the electrode body 11. A main body coupling portion 13 is formed to be detachably coupled with each component for sucking or supplying the fluid to the lesion site.

In front of the electrode body 11 is inserted into the lesion site, and the electrode needle 14 for radiating high frequency sent from the outside to be cauterized by heating the lesion site at a high frequency is coupled.

The electrode needle 14 is sharply formed so that the end is easily penetrated through the skin of the body or inserted into the lesion.

Electricity is transmitted to the outside from the outer circumferential surface of the remaining portion except the one end portion of the electrode needle 14, ie, the electrode body 11 side, to which the radio frequency is radiated from the one end of the electrode needle 14 by a predetermined length. The insulation 15 is wrapped to insulate or prevent the passage.

The outer peripheral surface of one end of the electrode needle 14, which is not enclosed with the insulating portion 15, a plurality of water to suck the water in the lesion area into the electrode needle 14 to discharge to the outside or to supply the fluid to the lesion site Holes 14a are formed.

Each hole 14a of the electrode needle 14 uniformly sucks moisture from the lesion site through the hole 14a, or supplies the electrode needle 14 so that the sap can be uniformly supplied to the lesion site. It is formed in the radial form on the outer peripheral surface of the electrode needle 14 as a center.

At least three holes 14a are formed on the outer circumferential surface of the electrode needle 14 in a radial form so as to smoothly and uniformly suck the water from the lesion and to supply the sap, wherein each of the holes 14a is It is most preferable to form three.

That is, when the holes 14a are formed too much, the strength of the electrode needle 14 may be weakened. When the holes 14 are formed at three or less holes, the moisture in the lesion area may not be sucked uniformly. Not only can the problem occur, it can also cause the problem of not evenly supplying the fluid to the lesion site.

In addition, each of the holes 14a formed in the radial shape has a better effect, that is, the suction on the lesion site and the fluid supply to the lesion site more smoothly in the outer peripheral surface of the electrode needle 14 in the drawings It can be formed in two stages, three stages, four stages, etc., respectively, so as to be positioned on the upper and lower sides, which are to be variously provided according to the purpose of use, function, effect, and manufacturing condition of the electrode needle 14. to be.

Meanwhile, the temperature sensor 16 detects heat generated by the high frequency radiated from the electrode needle 14 and checks the temperature of the electrode needle 14 by the detected heat inside the electrode needle 14. ) Is built-in. That is, when the temperature checked by the temperature sensor 16 is higher than the set temperature (80 ~ 90 ℃) of the electrode needle 14, the high-frequency heat treatment device 100 is automatically turned off (OFF), which is high This is to prevent damage to the normal organs around the lesion by temperature.

The electrode body 11 is contained in the lesion part through each hole 14a of the electrode needle 14 in order to reduce the generation of foreign substances generated by cauterization of the lesion part by high frequency radiation emitted from the electrode needle 14. A suction part 17 for generating a suction force for sucking moisture is detachably coupled to the main body coupling part 13.

That is, by combining the suction unit 17, which functions as a syringe, to the main body coupling portion 13 of the electrode body 11 to suck the moisture of the lesion site through the suction unit 17 to discharge the outside to the outside The generation of foreign matter (carbonized material) generated when the lesion area is cauterized by high frequency is reduced, as well as the amount of foreign matter adhered to the surface of the electrode needle 14 is reduced, so that the high frequency is smooth in the electrode needle 14. The radiation of the electrode needle 14 is improved due to the radiation.

The electrode body 11 has an electrode needle to expand the range of cauterization and minimize cancer necrosis at the time of cauterization of the lesion by radio frequency radiating from the electrode needle 14, and to treat cancer cells around the non-necrotic lesion. A fluid supply part 18 for supplying a curable material (ethanol, acetic acid, etc.) to the lesion site through each hole 14a of 14 is detachably attached to the body coupling unit 13. Are combined.

One end of the infusion supply unit 18 is coupled to the main body coupling portion 13 of the electrode body 11, the other end of the infusion supply unit 18 of the infusion injector injection unit (7) 73).

In addition, as the suction unit 17 and the infusion supply unit 18 are detached and coupled to the main body coupling unit 13 of the electrode body 11, only one of the suction unit 17 and the infusion unit 18 is combined. use. In other words, when sucking water from the lesion site, the suction unit 17 is coupled, and when the sap is supplied to the lesion site, the fluid supply unit 18 is coupled.

The electrode body 11 sends high frequency to the electrode needle 14 of the high frequency electrode part 10, that is, the high frequency electrode part 10, and sends the high frequency transmitted from the output adjusting part 4 to the electrode needle 14 Output cable 19 to send the temperature sensed by the temperature sensor 16 of the to the central processing unit 6 is detachably coupled to the output coupling portion 12 of the electrode body (11).

On the outer circumferential surface of the insulating part 15 of the electrode needle 14, a predetermined interval so that the depth of the electrode needle 14 inserted into the lesion part to be cauterized by necrosis of the lesion part can be accurately confirmed from the outside through a monitor of the measuring device. A plurality of markers 15a indicated by are formed.

The marking interval of the marker 15a may be represented by any of cm, mm, and the like so that the doctor in charge of the operation may easily know the insertion depth of the electrode needle 14 while performing the procedure. The marker 15a of any part of 15a displays the marker 15a differently from the marker 15a displayed on the electrode needle 14 in order to more clearly and accurately indicate the insertion depth of the electrode needle 14. That is, the marker 15a may be displayed in such a manner that the length of the marker 15a is long or wide.

Here, when the viscosity of the moisture contained in the lesion is high on the outside of the electrode needle 14, that is, the electrode needle 14 including the outer peripheral surface insulating portion 15 of the electrode needle 14 14 is further provided with a hollow guide (SHEATH) 20 for sucking the high viscosity water as it is not easy to suck and discharge the high viscosity water to the outside through each hole (14a) of 14). It is.

The guide hole 20 has a larger outer diameter than the outer diameter of the electrode needle 14 so that the electrode needle 14 can be easily inserted and removed, as well as the electrode needle 14 and the insulating part 15 are all wrapped. Formed.

On the other hand, another embodiment showing the electrode needle 14 of the high frequency electrode portion 10 in the present invention, as shown in Figure 4, one end of the electrode needle 14 formed in a straight line from the electrode body 11 is The electrode needle 14 penetrates the skin of the body and is easily inserted into the lesion site without being in contact with other organs and bones of the body, and the contact area between the inserted electrode needle 14 and the lesion site is increased. In order to be inclined at a predetermined angle (α) with respect to the electrode body 11 as a reference.

The inclined portion is formed by inclining only the portion of the electrode needle 14 exposed to the outside without the insulation 15 is wrapped in the electrode needle 14, or the insulated portion of the exposed electrode needle 14 ( 15) One end of the electrode needle 14 may be inclined to include a portion, or the entire electrode needle 14 may be inclined at a predetermined angle α, that is, in a round shape. It is to be variously prepared according to the purpose of use, function, effect and production conditions or consumer's requirements.

The inclined angle α of the electrode needle 14 is formed to be 15 to 45 degrees, wherein the inclined angle α of the electrode needle 14 does not come into contact with other organs and bones of the body. In order to easily insert into the site and to widen the contact area between the inserted electrode needle 14 and the lesion site, it is preferable to form at 30 °.

When the inclined angle α of the electrode needle 14 is 15 ° or less, the electrode needle 14 is not substantially different from the one formed in a straight line, and thus no distinct effect is seen. When the photographic angle α is 45 ° or more, the electrode needle 14 may not easily be inserted into the lesion site, but may also come into contact with other organs and bones of the body.

In another embodiment of the present invention, the electrode needle 14 of the high frequency electrode part 10 is surrounded by the insulating part 15 of the high frequency electrode part 10, as shown in FIGS. 5A and 5B. In addition to widening the contact area between the electrode needle 14 and the lesion part of the portion excluding the damaged part, the externally applied lesion is neutered in a wide range to be neutered in a wide range and applied externally. A plurality of electrode needles 14 having a certain strength and hardness so as to be collapsed or unfolded by a force and having a certain elasticity are separated from a portion where the insulating portion 15 ends.

The plurality of electrode needles 14 formed separately may be formed so that both the end portion of the insulating portion 15 and the end of the electrode needle 14 are coupled, or the portion of the electrode portion 14 is terminated. 14 and the end of the electrode needle 14 may be formed in a free end state.

In order to squeeze and unfold the plurality of electrode needles 14 formed in the plurality, the electrode needles 14 are inserted into the guide hole 20 having a diameter larger than the outer diameter of the electrode needle 14. Should move back and forth.

That is, when a force is applied to the plurality of separated electrode needles 14 or inserted into the guide 20, the electrode needles 14 are pinched as shown in FIG. 5A, and a force applied to the electrode needles 14. If removed or removed in the guide 20 is formed to expand as shown in Figure 5b.

The electrode needle 14 is formed in an elliptical shape as shown in FIGS. 5A and 5B or a circular, irregular shape as shown in FIGS. 6A to 6D, and a shape in which the end of the electrode needle 14 is unfolded. This can be done by increasing the contact area between the plurality of separated electrode needles 14 and the lesion site and easily necrosizing and necrosing the lesion site heated at a high frequency radiated from the electrode needle 14 in a wider range. As long as the shape can maximize the effect of the electrode needle 14 may be produced in any shape.

 As described above, by manufacturing the electrode needle 14 in the shape as shown in Figures 5a, 5b and 6a to 6d, the electrode needle 14 is used according to the purpose of use, function, effect and manufacturing conditions, consumer requirements It can be provided in various ways.

At this time, the guide 20 is positioned to surround the outside of the electrode needle 14 as well as coupled to the electrode body 11 or the insulating portion 15 to enable the reciprocating movement of the electrode needle 14. Alternatively, the guide 20 may be provided separately.

Referring to the operation of the present invention configured as described above is as follows.

First, the output cable 19 is coupled to the output coupling portion 12 of the electrode body 11 to which the electrode needle 14 is coupled, and the suction portion (3) is attached to the body coupling portion 13 of the electrode body 11. 17) or combine the sap supply 18.

At this time, the suction unit 17 and the infusion supply unit 18 coupled to the main body coupling portion 13 of the electrode body 11 is selected to combine according to the state of the lesion site.

That is, when the lesion site is myoma (hard lump state) such as liver cancer, the fluid supply unit 18 is supplied to the main body coupling unit 13 as the fluid (ethanol, acetic acid, etc.) must be supplied to the lesion site. When the lesion site is a cyst such as the thyroid gland (a state of being filled with water), the suction part 17 in the main body coupling part 13 is required to suck water (water, etc.) contained in the lesion area. ).

As such, when the coupling of the electrode needle 14, the output cable 19, the suction unit 17, and the fluid supply unit 18 to the electrode body 11 is completed, the surgeon operating the patient is a body that is the surgical site of the patient. After cutting a predetermined length, the operator grasps the electrode body 11 of the high frequency electrode part 10 and inserts the electrode needle 14 of the electrode body 11 into a lesion such as cancer cells.

At this time, when the lesion site is myoma (hard lump state) such as liver cancer, the fluid supply unit 18 is coupled to the fluid supply unit 18 to the body coupling unit 13 of the electrode body 11. Supply fluid to the lesion site through

In other words, when the fluid supply unit 18 is coupled to the electrode main body 11, the fluid injector 71 of the fluid infusion unit 7 is supplied by the power applied to the power supply unit 1 of the high frequency heat treatment apparatus 100. Sap is supplied to the sap is sent from the automatic fluid injector 71 to the automatic fluid injector control unit 72, the fluid is injected by the automatic fluid injector control unit 72, the infusion amount of the infusion syringe injection unit It is supplied to the infusion supply part 18 of the high frequency electrode part 10 couple | bonded with 73.

The sap supplied to the sap supply part 18 flows into the electrode main body 11 and the electrode needle 14 while flowing in the sap supply part 18, and each hole 14a formed at one end of the electrode needle 14 flows. Through the fluid is injected into the lesion.

On the other hand, if the state of the lesion is a cyst such as the thyroid gland (a state filled with water), the suction part 17 is coupled to the body coupling part 13 of the electrode body 11 and then contained in the lesion part. Water (water, etc.) is sucked out and discharged to the outside of the high frequency electrode unit 10.

In other words, when the suction unit 17, such as a syringe form, is coupled to the electrode body 11, the electrode needle 14 of the electrode body 11 is inserted into the lesion area and then the suction unit 17 is operated. The suction force is generated in the suction unit 17.

Moisture contained in the lesion site is introduced into each of the holes 14a through the holes 14a of the electrode needles 14 by the suction force generated, and moisture is absorbed by the electrode needles 14 and the electrodes by the continuous suction force. Water flowing into the suction unit 17 while flowing through the main body 11 may be discharged or discarded into the outside of the high frequency electrode unit 10.

In this way, the state of the lesion site is confirmed and the high frequency is emitted to the lesion site after supplying sap to the lesion site or removing a certain amount of water according to the state of the lesion site.

That is, since the electrode needle 14 is inserted in the lesion part in the state in which the output cable 19 is coupled to the electrode body 11, the power is applied from the power supply unit 1 of the high frequency heat treatment apparatus 100. The high frequency is generated in the oscillator 2, and the high frequency is amplified while passing through the amplifier 3 and then sent to the high frequency electrode unit 10 through the output control unit 4.

High frequency sent to the high frequency electrode portion 10 flows into the electrode needle 14 of the electrode body 11 while flowing in the output cable 19, the high frequency is radiated to the lesion site through one end of the electrode needle 14, The lesion site is necrotic and necrotic due to the radiated high frequency, thereby treating the patient as the lesion site, ie, cancer cells, is killed.

On the other hand, when the lesion is left without cauterization due to the radiated radio frequency, when the therapeutic drug is injected through the fluid supply unit 18, the remaining cancer cells are killed by the drug.

Here, since the temperature sensor 16 is installed inside the electrode needle 14, the temperature sensor 16 senses and checks the temperature of the electrode needle 14 when the high frequency radiation radiates the lesion site. When the detected temperature is higher than the set temperature, the detection signal is sent to the central processing unit 6, and the central processing unit 6 cuts off the power applied to the power supply unit 1, so that the high frequency from the electrode needle 14 Do not radiate.

In addition, as a plurality of markers 15a are displayed on the outer circumferential surface of the insulating portion 15 surrounding the outer circumferential surface of the electrode needle 14, the depth of the electrode needle 14 inserted into the lesion site is measured. Since the marker 15a seen through the monitor of the device can be accurately known, medical accidents occurring during the procedure can be prevented.

Here, when the condition of the lesion site is a cyst and the viscosity of the water is high, the electrode needle 14 may not be easily introduced into the hole at the lesion site because the moisture may not flow into each hole 14a of the electrode needle 14. Prior to inserting, the highly viscous water at the lesion site should be removed first.

To this end, a guide (SHEATH) (20) is inserted into the lesion site through the incision in the body and then the pumping force of the pump (not shown) coupled to the rear end of the guide (20) of the lesion site Moisture with high viscosity is introduced into the guide 20 and removed.

Then, when the moisture having a high viscosity is removed, the electrode needle 14 is inserted into the guide hole 20 inserted into the lesion site, and then the high frequency radiated from the electrode needle 14 as described above. The lesion is cauterized to necrosis to treat the patient's disease.

On the other hand, another embodiment of the electrode needle 14, as shown in Figure 4, by forming one end of the electrode needle 14 formed in a straight line from the electrode body 11 inclined at a predetermined angle (α), the electrode needle When the electrode 14 is inserted into the lesion site, the electrode needle 14 penetrates the skin of the body and is easily inserted into the lesion site without being in contact with other organs and bones of the body. As the electrode needle 14 becomes wider in contact with the lesion area, the lesion area is cauterized in a wide range at high frequency radiated from the electrode needle 14 to increase necrosis.

In addition, in another embodiment of the electrode needle 14, as shown in FIGS. 5A, 5B and 6A to 6D, the electrode needle 14 of the portion except for the portion in which the insulating portion 15 is enclosed is not. After being separated into a plurality of pieces to have a certain elasticity to expand and spread, the electrode needle 14 is inserted into the guide 20 after inserting a guide 20 into the lesion site through the skin of the cut body. When the electrode is inserted, the electrode needle 14 is recessed as shown in FIG. 5A.

At this time, using a separate member, that is, a sharp pointed member to penetrate the skin of the body to the lesion site by using a separate member to facilitate insertion of the guide 20 into the lesion site, and then removing the guide. When the sphere 20 is inserted, the insertion of the guide 20 is made very easy.

When the electrode needle 14 is pushed in the state where the end of the electrode needle 14 is positioned at the end of the guide 20 inserted into the lesion, the electrode needle 14 comes out of the end of the guide 20. At the lesion site it is spread as in FIG. 5B.

Therefore, the contact area between the electrode needle 14 and the lesion area becomes wider, and as a result, high frequency radiation is radiated over a wide range of the lesion area in the electrode needle 14, so that the lesion area is cauterized by necrosis in a wide range. It will increase the effectiveness of the treatment.

When the necrosis of the lesion is completed, the electrode needle 14 is pulled out when the electrode needle 14 is completed, and the electrode needle 14 that is opened is inserted into the guide hole 20, and in this state together with the guide hole 20. The electrode needle 14 is pulled out or the electrode needle 14 is pulled out to the outside of the guide 20 to be washed and stored.

As described above, the electrode device of the radiofrequency thermal therapy according to the present invention has been described with reference to the illustrated drawings. Of course, modifications may be made.

As described above, the present invention simplifies the structure of the electrode device of high-frequency heat treatment and supplies fluid to the lesion site or sucks water contained in the lesion site according to the condition of the lesion site such as cancer cells. The high frequency is not only smoothly radiated from the electrode needles, and therefore, there is an effect of easily cauterizing and necrosing lesions such as cancer cells generated in the body.

In addition, by sucking the moisture contained in the lesion site through the suction portion of the electrode device to the outside, the amount of foreign matter (carbon material, etc.) generated as the lesion site is cauterized by the high frequency can be reduced as well as the generated As the amount of the foreign matter decreases, the foreign matter, etc., is prevented from adhering to the surface of the electrode, thereby effectively cauterizing and necrosing the lesion site.

In addition, the lesion site such as myoma is made by injecting a sap (ethanol, acetic acid, etc.), which is a curable material, through the sap supply part, thereby adjusting the radiation range of high frequency and making the condition of the lesion site good for treatment. Since radiating high frequency from the electrode needle to the lesion site, not only the cauterization effect of the lesion site is maximized, but also the workability of the procedure is improved.                     

In addition, by forming the electrode needle to be inclined at a predetermined angle or by separating the electrode needles into a plurality of ends, the contact area between the electrode needle and the lesion area is increased, and the lesion area can be rapidly expanded in a wider range. Easy to cauterize within the time, necrosis can not only reduce the operation time, but also maximize the therapeutic effect.

In addition, by displaying a plurality of markers on the outer circumferential surface of the insulation portion surrounding the outer circumferential surface of the electrode needle at a predetermined interval, the operator can monitor the position of the marker of the electrode needle through the monitor of the measuring device when the electrode needle is inserted into the lesion site. By checking the depth of the electrode needle accurately, there is also an effect that the operation is made easier.

This effect is a very useful invention that improves the quality of the overall product and the consumer's reliability of the product.

Claims (9)

Supplying fluid to a power supply unit to which power is applied, an oscillator for generating high frequency, an amplifier for amplifying high frequency in a predetermined band, an output control unit for outputting high frequency, a high frequency electrode unit for radiating high frequency, and the high frequency electrode unit In the high-frequency heat treatment apparatus having an automatic infusion unit and a central processing unit for controlling the operation of the components, The high frequency electrode unit, The main body coupling portion and the output coupling portion are formed to form an electrode body to be held by hand, The front end of the electrode body is pointed to form a point to radiate high frequency, and a plurality of holes are formed on the outer peripheral surface of the end to suck water from the lesion, as well as an electrode needle with a built-in temperature sensor, The outer circumferential surface of the electrode needle is provided with an insulating portion surrounding the remaining portion except the end portion, A suction part detachably coupled to the main body coupling part of the electrode body to suck moisture contained in the lesion part through the electrode needle, The fluid supply part for supplying the fluid to the lesion site from the outside is detachably coupled to the body coupling portion of the electrode body, The output coupling unit of the electrode body is an electrode device of high frequency heat treatment, characterized in that the output cable for transmitting a high frequency sent from the output control unit to the high frequency electrode unit detachably coupled. The method of claim 1, Electrode of the electrode needle is a high-frequency heat treatment electrode device characterized in that at least three or more radially formed on the outer peripheral surface as the center of the electrode needle. The method of claim 1, One end of the electrode needle is formed to be inclined at a predetermined angle (α) relative to the electrode body to increase the contact area between the electrode needle and the lesion area, characterized in that the electrode device of high frequency heat treatment. The method of claim 3, wherein Inclined angle (α) of the electrode needle is an electrode device of high frequency heat treatment, characterized in that formed in 15 ~ 45 °. The method of claim 1, Electrode device of the high frequency heat treatment, characterized in that a plurality of markers (MARKER) displayed at a predetermined interval is formed on the outer peripheral surface of the electrode needle. The method of claim 1, The electrode device of the high frequency heat treatment, characterized in that the outer side of the electrode needle is further provided with a guide having an outer diameter larger than the outer diameter of the electrode needle to surround the electrode needle in order to suck the water of high viscosity at the lesion site. The method of claim 1, Electrode needle of the portion except the portion wrapped with the insulating portion is a high-frequency heat treatment electrode device, characterized in that formed in plurality from the end of the insulating portion to be folded or unfolded by the external force. The method of claim 7, wherein Electrode needles formed of a plurality of the electrode unit of the high frequency heat treatment, characterized in that the end portion of the electrode needle and the end of the insulating portion is coupled. The method of claim 7, wherein Electrode device of the high frequency heat treatment, characterized in that the plurality of electrode needles formed separated is coupled to the end of the insulating portion and the end of the electrode needle is formed in a free end state.

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