KR20210152909A - Thermochemical lower extremity varicose veins surgical kit and method of use - Google Patents

Abstract

An objective of the present invention is to provide a thermochemical varicose vein surgery kit which can effectively treat varicose veins thermochemically by a combination of an electrode tip for outputting a high frequency and a drug lumen for injecting a drug, and a method of use thereof. The present invention comprises: a syringe unit (120) supplying a drug; and a catheter(10) composed of a shaft (12) made of a flexible material and configured in a cylindrical tubular shape having a constant diameter, a drug lumen (100) formed therein along the shaft (12) in the longitudinal direction, connected to the syringe unit (120) for supplying a blood vessel occlusion drug at one end, and provided with a nozzle (140) for administering a drug at the other end, and an electrode tip (200) formed on the outer peripheral surface of the end of the shaft (12) corresponding to the nozzle (140) and provided to output a high frequency. Using the present invention, the structure is improved so that the drug penetrates the electrode tip through the nozzle and is administered into the blood vessel, and the surgery is performed in such a way that the drug is administered after thermal damage is applied to the blood vessel. Therefore, it is possible to prevent side effects and maximize the efficiency of damage to the blood vessel caused by a drug by preventing drug deterioration due to high-frequency heat.

Description

Thermochemical lower extremity varicose veins surgical kit and method of use

The present invention relates to a thermochemical varicose vein surgery kit and a method for using the same. In more detail, a thermochemical method that can effectively treat varicose veins thermochemically by a combination of an electrode tip outputting a high frequency and a drug lumen injecting a drug It relates to a varicose vein surgery kit and a method for using the same.

In general, varicose veins in the legs are the superficial veins (superficial veins) in the legs that are stretched and appear outward. As the disease progresses, the valve failure progresses, so chronic venous insufficiency occurs and the vicious cycle is repeated. Chronic venous insufficiency is chronically Complications such as edema, fibrosis of the skin of the lower extremities, and venous ulcers in the lower extremities are accompanied, so prompt treatment is required.

In addition, varicose veins treatment methods include wearing medical compression stockings, vascular sclerosis therapy that degenerates blood vessels by injecting a vasodilator, high-frequency heat occlusion surgery that damages blood vessels by inserting a high-frequency device into the blood vessel and applying heat to the device, and blood vessels There are laser treatments that damage blood vessels with laser beams by inserting a laser device into them, and vein extraction that directly removes veins through surgery.

However, the treatment method of wearing compression stockings has the disadvantage that the fundamental treatment is difficult and it takes a lot of time to recover. , nerve damage, and other side effects remain, and laser treatment also has problems with scars and side effects.

Accordingly, in the previously disclosed Patent Registration No. 10-1995043, a handle defining a receptacle into which a cartridge is inserted, the cartridge comprising: an elongated endoluminal member advancing into the vein from an access site; a handle comprising a wire contained within said elongate endoluminal member having a disturbance member, means for imparting motion to said wire, and a source of venous occlusion material in fluid communication with said endoluminal member; The disturbing member is a tip of a wire, and a technology including a blade configuration for generating a backflow of blood in a blood vessel when the wire is rotated by the tip has been previously registered.

However, in the prior art, when the traumatic tip of the wire is rotated, the technique is configured to contact the inner blood vessel wall and damage the inner blood vessel wall. As the limited and damaged intima is wrapped around, the operation is malfunctioning and it takes a lot of time for more than 8 seconds to treat a 1 cm blood vessel, so the treatment efficiency is greatly reduced. This great evil followed.

On the other hand, in order to solve the problems of the prior art, the present applicant in Patent Registration No. 10-2080330, a catheter consisting of a first lumen to which the swelling liquid is moved and a second lumen to which the drug is moved, and the catheter end A balloon installed to be connected to the first lumen and expanded by the inflation fluid injection pressure to damage blood vessels, an inflator unit connected to the first lumen and provided to control the supply of the inflation fluid, and the second lumen A technology including a syringe unit connected to and provided to control the supply of a drug into a blood vessel damaged by a balloon has been previously registered.

However, the prior art has the inconvenience of having to provide balloons of various sizes to fit the diameter of the blood vessel to be operated because the inner diameter of the vein to be operated differs depending on the location, and as a preparation process for examining the blood vessel and selecting a balloon suitable for it. As a result, there was a problem in that the operation time was prolonged.

KR 10-1995043 B1 (2019.06.25) KR 10-2080330 B1 (2020.02.17.)

Accordingly, the present invention was conceived to solve the above problems, and the structure is improved so that the drug is administered into the blood vessel by penetrating the electrode tip through the nozzle. , It is an object of the present invention to provide a thermochemical varicose vein surgery kit and a method for using the same without the possibility of drug deterioration due to high-frequency heat.

In particular, an object of the present invention is to provide a thermochemical varicose vein surgery kit in which the electrode tip can be cooled by heat exchange with the drug while the drug is continuously moved through the drug lumen.

In addition, to provide a thermochemical varicose vein surgery kit and a method for using the same, which have no side effects by inflicting damage to the blood vessel to be operated in three types, namely thermal, physical, and chemical, and maximizing the efficiency of vascular damage caused by drugs. There is another purpose.

A feature of the present invention to achieve this object, the syringe unit 120 for supplying the drug; A shaft 12 made of a flexible material and having a cylindrical tubular shape having a constant diameter, is formed inside along the shaft 12 in the longitudinal direction, and is connected to a syringe unit 120 for supplying a blood vessel occlusion drug at one end and a drug lumen 100 having a nozzle 140 for administering a drug to the other end, and an electrode tip 200 that is formed on the outer peripheral surface of the end of the shaft 12 corresponding to the nozzle 140 and is provided to output a high frequency and a catheter 10 configured, wherein the shaft 12 is inserted into the blood vessel and moves outwardly while outputting a high frequency through the electrode tip 200. After thermal damage is applied to the blood vessel, the nozzle A blood vessel occlusion drug is administered through 140, and chemical damage by the drug is applied to the blood vessel thermally damaged by high frequency waves to occlude the blood vessel.

At this time, the electrode tip 200 is installed on the outer peripheral surface of the nozzle 140 to output a high frequency in a 360 ° direction, the drug lumen 100 is formed through the center of the electrode tip 200, the electrode tip ( 200) is characterized in that it is provided to be cooled by heat exchange with the drug moving through the drug lumen 100.

In addition, the drug supplied through the syringe unit 120 is characterized in that it is provided to be pre-cooled to 1 ~ 5 ℃ by the cooling module (300).

In addition, the drug lumen 100 is formed as a tubular body and is movably inserted in the shaft 12, and the distance between the nozzle 140 and the electrode tip 200 is adjusted according to the insertion depth of the drug lumen 100. After being thermally damaged by the electrode tip 200, it is characterized in that it is provided to adjust the time difference until chemical damage is applied by the drug.

In addition, a plurality of radially protruding projections 18 are further formed on the outer surface of the rear side of the electrode tip 200 in the catheter 10 to physically damage the inner vessel wall when the catheter 10 is withdrawn. characterized.

In the method of using the thermochemical varicose vein surgery kit according to an embodiment of the present invention, the catheter inserted into the blood vessel so that the electrode tip 200 of the shaft 12 of the catheter 10 coincides with the vascular procedure starting point (P). inserting step (S1); A high-frequency output step (S2) of outputting a high-frequency to the electrode tip 200 by turning on the high-frequency generator; A catheter constant speed withdrawal and drug supply step ( S3); and a blood vessel occlusion step (S4) in which the blood vessel is occluded by the drug injected immediately after thermal damage in the process of withdrawing and transporting the shaft 12 of the catheter 10 at a set speed.

According to the specific means for solving the above problems, the present invention is structured so that the drug is administered into the blood vessel by penetrating the electrode tip through the nozzle, so that the surgery is performed in such a way that the drug is administered after thermal damage is applied to the blood vessel using high frequency. Thus, drug deterioration due to high-frequency heat is prevented, thereby preventing side effects and maximizing the efficiency of damage to blood vessels by drugs.

For the safety of the patient, in an environment where the concentration and dosage of a drug that can be used in a single operation are limited, using the surgical kit of the present invention, the drug is administered in a state that has already damaged blood vessels due to high-frequency heat. Since the occlusion effect of blood vessels can be increased only with low-concentration drugs, it is possible to treat as many blood vessels as possible with one treatment.

In addition, as the drug is continuously moved through the drug lumen, the electrode tip is heat-exchanged with the drug and cooled, so that continuous operation is possible for a long time, and damage to the electrode tip and the burning of blood vessels due to overheating are prevented.

In addition, due to the effect of cooling the electrode tip while using a drug with a low concentration, the side effects such as scars and pigmentation of the existing varicose veins treatment methods and the pain of the patient can be minimized. .

1 is an overall configuration diagram showing a preferred embodiment of the thermochemical varicose vein surgery kit provided by the present invention.
2 is a configuration diagram showing the use of a thermochemical varicose vein surgery kit according to an embodiment of the present invention.
3 is a block diagram showing another embodiment of the thermochemical varicose vein surgery kit provided by the present invention.
Figure 4 is a configuration diagram showing the drug lumen length control structure of the thermochemical varicose veins surgery kit according to an embodiment of the present invention.
5 is a block diagram showing another embodiment of the thermochemical varicose vein surgery kit provided by the present invention.
6 is a block diagram schematically showing a method of using the thermochemical varicose vein surgery kit provided in the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. And in the description of the present invention, if it is determined that the subject matter of the present invention may be unnecessarily obscured as it is obvious to those skilled in the art with respect to related known functions, the detailed description thereof will be omitted.

The present invention relates to a thermochemical varicose vein surgery kit and a method of using the same, which has a structure improved so that a drug is administered into a blood vessel through an electrode tip through a nozzle, so that the surgery is performed in a way that the drug is administered after thermal damage is applied to the blood vessel Therefore, the catheter 10 and the rear end of the catheter consisting of the shaft 12, the drug lumen 100 and the electrode tip 200 in order to prevent drug deterioration due to high-frequency heat to prevent side effects and maximize the blood vessel damage efficiency by the drug. It is connected to the syringe unit 120 for supplying the drug as a main configuration.

1 is an overall configuration diagram showing a preferred embodiment of the thermochemical varicose veins surgery kit provided by the present invention. The drug lumen 100 according to the present invention is inside the shaft 12 of the catheter 10 in the longitudinal direction. Formed in, a syringe unit 120 for supplying a blood vessel occlusion drug is installed on one end, and a nozzle 140 for administering the drug is provided on the other end. The shaft 12 of the catheter 10 is a cylindrical tube having a constant diameter and made of a flexible material to be inserted into the blood vessel, and the drug lumen 100 is formed therein.

At this time, the drug lumen 100 may be formed integrally with the shaft 12 as shown in FIG. 1 or formed as an independent tube separated from the shaft 12 as shown in FIG. 4 , and at one end through the syringe unit 120 . When the drug is supplied, it is administered into the blood vessel through the nozzle 140 at the other end, and is provided to inflict chemical damage on the blood vessel.

The electrode tip 200 according to the present invention is formed on the outer peripheral surface of the end of the shaft 12 corresponding to the nozzle 140, and is provided to output a high frequency. The electrode tip 200 is a device for generating a high frequency by the radiation frequency applied from the high frequency generator.

At this time, the electrode tip 200 is installed in a cylindrical shape at the end of the shaft 12, that is, on the outer circumferential surface of the nozzle 140, and outputs a high frequency in a 360° direction to prevent physical thermal damage to the inner wall of the blood vessel adjacent to the electrode tip 200. formed to apply

2 is a configuration diagram showing the use of a thermochemical varicose vein surgery kit according to an embodiment of the present invention. As shown in FIG. 2 (a), the shaft 12 is inserted up to the vascular procedure starting point P As shown in 2 (b), the blood vessel occlusion drug is administered through the nozzle 140 as shown in FIG. It is provided so that chemical damage is additionally applied to blood vessels thermally damaged by high frequency.

As such, since the surgery is performed in such a way that the drug is administered after heat damage is applied to the blood vessel due to the structure in which the drug is administered into the blood vessel through the electrode tip through the nozzle, drug deterioration due to high-frequency heat is prevented, thereby preventing side effects and drugs It has the effect of maximizing the vascular occlusion efficiency by

The higher the concentration of the drug (hardener), the greater the risk of side effects (liver damage, scarring, pain) and the occurrence of pigmentation increases in proportion to the concentration. Concentration and dosage are strictly limited.

In such an environment, using the surgical kit of the present invention, the occlusion effect of blood vessels can be increased with only a low concentration of drugs as the drug is administered in a state that has already damaged blood vessels with high-frequency heat. It has the advantage of being able to perform surgery on blood vessels.

On the other hand, since the drug lumen 100 is formed through the center of the electrode tip 200 , the electrode tip 200 may be cooled by heat exchange with the drug moving through the drug lumen 100 .

That is, as the drug is continuously moved through the drug lumen 100 while the high frequency is output from the electrode tip 200, the electrode tip 200 is heat-exchanged with the drug and cooled, so safety can be ensured even in continuous use during surgery. In addition, by controlling the temperature of the electrode tip 200 below a certain temperature, damage to the electrode tip 200 and the burning of blood vessels due to overheating are prevented.

As shown in FIG. 1, a scale 12a is displayed on the outer peripheral surface of the shaft 12 constituting the catheter 10, and the scale 12a is a zero point 12b from the end side to which the syringe part 120 is connected. Length unit dimensions are displayed in ascending order based on .

Then, the shaft 12 is cut to match the length of the blood vessel from the blood vessel inlet point to the procedure starting point (P), and the shaft 12 is drawn into the blood vessel so that the zero point 12b of the scale 12a and the blood vessel inlet point match. Thus, it is provided to accurately set the treatment position.

As such, when the scale 12a is displayed on the outside of the shaft 12 inserted into the blood vessel in the catheter 10 in ascending order, it is possible to precisely control the length of the inlet length of the catheter 10 into the blood vessel to be operated, along with vascular surgery Since the catheter 10 is cut to the minimum length (L) to correspond to the length corresponding to the length, the drug residual space through the chemical vessel occlusion part 30 is reduced in proportion to the catheter 10 length, and unused drug is lost has the advantage of reducing

3 is a configuration diagram showing another embodiment of the thermochemical varicose veins surgery kit provided in the present invention, wherein the drug supplied through the syringe unit 120 is prepared by the cooling module 300 at 1 to 5 ° C. It is provided to be cooled. The cooling module 300 is installed on one side of the syringe unit 120 or the drug lumen 100, and is provided to detect the temperature of the drug moving through the drug lumen 100 through a temperature sensor in real time to cool it to a set predetermined temperature. do.

At this time, if the drug cooling temperature by the cooling module 300 is less than 1 ℃, the fluidity is lowered, the drug injection precision is lowered, and when the drug cooling temperature exceeds 5 ℃, the cooling efficiency of the electrode tip 200 by the drug is lowered. , it is preferable to pre-cool the drug to 1-5 °C.

As such, since the drug supplied through the drug lumen 100 passes through the center of the electrode tip 200 in a state of being pre-cooled to 1 to 5 ° C, the properties of the drug may be altered even when the drug is heated by high-frequency heat. temperature is not reached. Accordingly, as the drug is safely protected from high-frequency heat, chemical blood vessel damage efficiency is maximized. The electrode tip 200 damage and the occurrence of scarring of the skin tissue due to heat damage is prevented.

On the other hand, the drug is diluted with a cooling solution and can be administered at a low concentration, thereby reducing the burden on the body. That is, the higher the concentration of the drug (curing agent), the greater the risk of side effects (liver damage, scarring, pain), and the occurrence of pigmentation increases in proportion to the concentration.

In addition, the occlusion of blood vessels is not made with drugs alone, but after heat-damaging with high frequency, the drug is administered to the damaged blood vessels to cause the chemical damage to work together, so that effective occlusion of blood vessels is possible even with a low concentration of drugs.

4 is a configuration diagram showing a structure for adjusting the length of a drug lumen of the thermochemical varicose veins surgery kit according to an embodiment of the present invention, wherein the drug lumen 100 is formed as a tube to be inserted through the shaft 12, and the shaft ( 12) may be configured to be movable within. And the distance between the nozzle 140 and the electrode tip 200 is adjusted according to the insertion depth of the drug lumen 100.

At this time, the shorter the distance between the nozzle 140 and the electrode tip 200, the shorter the time until the drug is administered after thermal damage is applied, and the greater the distance between the nozzle 140 and the electrode tip 200, the greater the thermal damage. After this is added, the time until drug administration is adjustable so that it becomes longer.

Accordingly, it is possible to precisely control the time difference after thermal damage is applied by the electrode tip 200 according to the surgical conditions including the blood vessel size and the blood vessel layer thickness until chemical damage is applied by the drug, thereby reducing the occlusion effect of varicose veins. It can be efficiently controlled and managed.

5 is a configuration diagram showing another embodiment of the varicose vein surgery kit provided in the present invention, in the catheter 10, a plurality of projections 18 that protrude radially from the rear side of the electrode tip 200 on the outer surface. more can be formed.

The protrusion 18 has a sharp end, but as shown, the inclination of the rear edge 18b is higher than the inclination of the front edge 18a, so that it is easily inserted into the blood vessel, and when withdrawing, the protrusion It is configured such that the tip is caught on the inner wall and the inner wall of the blood vessel is damaged by the tip of the protrusion 18 .

When the protrusion 18 is formed on the outer surface of the catheter 10 in this way, physical damage can be easily caused by the protrusion on the inner wall of the blood vessel in the process of withdrawing the catheter 10 in a state where the blood vessel is first thermally damaged with high frequency. Finally, the drug supplied into the blood vessel through the drug lumen 100 has improved penetrating power through the damaged area, so that the blood vessel can be reliably and effectively occluded.

If it is possible to inflict multiple stages of damage in the order of thermal, physical, and chemical to the blood vessel to be operated in this way, it is possible to minimize the side effects that the patient may experience by increasing the occlusion rate of blood vessels while using less drug and laser energy. It has the advantage of dramatically reducing the recurrence rate.

6 is a block diagram schematically showing a method of using the thermochemical varicose vein surgery kit provided by the present invention.

The method of using the thermochemical varicose vein surgery kit according to an embodiment of the present invention includes a catheter insertion step (S1), a high-frequency output step (S2), a constant-rate catheter withdrawal and drug supply step (S3), and a blood vessel occlusion step (S4). is done

1. Catheter insertion step (S1)

The electrode tip 200 of the shaft 12 of the catheter 10 is inserted into the blood vessel so that it coincides with the vascular procedure starting point (P). At this time, the shaft 12 is cut to correspond to the length of the blood vessel from the blood vessel inlet point to the procedure starting point (P), and the shaft 12 is drawn into the blood vessel so that the zero point 12b of the scale 12a and the blood vessel inlet point match. to accurately set the treatment position.

2. High-frequency output step (S2)

The high frequency generator is turned on to output a high frequency to the electrode tip 200 .

At this time, thermal damage is primarily applied to the inner wall of the blood vessel adjacent to the electrode tip 200 by outputting a high frequency in a 360° direction.

3. Catheter constant rate withdrawal and drug supply step (S3)

The shaft 12 of the catheter 10 is drawn out and transferred at a constant speed at a set speed, and at the same time, a certain amount of drug is administered into the blood vessel through the nozzle 140 by the syringe 32 .

At this time, since the drug is administered after the blood vessel is thermally damaged by the high frequency of the electrode tip 200, heat damage of the drug due to the high frequency heat is prevented, and the electrode tip 200 withdrawal speed can be freely adjusted due to the nature of the drug being administered after surgery. There is an advantage that the time is greatly reduced.

Preferably, the electrode tip 200 withdrawal speed of the shaft 12 is set to 1-5 mm/sec. If the shaft 12 withdrawal speed is maintained at less than 1 mm/sec, the operation time is delayed, and if it exceeds 5 mm/sec, the blood vessel occlusion efficiency by drugs and high frequency is lowered, and an area where high frequency is not sufficiently irradiated occurs, so reoperation is required. because it may be necessary.

On the other hand, the drug injection amount is set to 0.1 ~ 0.3 cc / cm, where the drug is used in a low concentration of 1% or less. This is because the higher the concentration of the drug (hardener), the greater the risk of side effects (liver damage, scarring, pain), and the occurrence of pigmentation increases in proportion to the concentration.

4. Blood vessel occlusion step (S4)

In the process of withdrawing and transporting the shaft 12 of the catheter 10 at a constant speed at a set speed, the blood vessel is occluded by the drug injected immediately after thermal damage.

The occlusion of blood vessels does not consist of drugs or heat damage alone, but the physical damage caused by protrusions after heat damage and the chemical damage caused by drug supply work together, so even if a low concentration of drug is used, effective blood vessel occlusion is possible. .

As described above, in the detailed description of the present invention, the most preferred embodiment of the present invention has been described, but various modifications are possible within the scope not departing from the technical scope of the present invention. Therefore, the protection scope of the present invention is not limited to the above embodiments, but the protection scope should be recognized from the techniques of the claims to be described later and equivalent technical means from these techniques.

10: catheter 12: shaft 12a: scale 12b: zero point 18: projection
100: drug lumen 120: syringe 140: nozzle
200: electrode tip
300: cooling module

Claims (7)

Syringe unit 120 for supplying a drug;
A shaft 12 made of a flexible material and having a cylindrical tubular shape having a constant diameter, is formed inside along the shaft 12 in the longitudinal direction, and is connected to a syringe unit 120 for supplying a blood vessel occlusion drug at one end and a drug lumen 100 having a nozzle 140 for administering a drug to the other end, and an electrode tip 200 that is formed on the outer peripheral surface of the end of the shaft 12 corresponding to the nozzle 140 and is provided to output a high frequency A catheter (10) configured; includes,
The shaft 12 is inserted into the blood vessel, and moves outward from the blood vessel while outputting a high frequency through the electrode tip 200. After thermal damage is applied to the blood vessel, a blood vessel occlusion drug is administered through the nozzle 140. A thermochemical varicose vein surgery kit, characterized in that it is provided to occlude the blood vessel by chemical damage caused by the drug to the blood vessel thermally damaged by high frequency.
The method of claim 1,
The electrode tip 200 is installed on the outer peripheral surface of the nozzle 140 to output a high frequency in a 360° direction, and the drug lumen 100 is formed through the center of the electrode tip 200,
The electrode tip 200 is a thermochemical varicose vein surgery kit, characterized in that it is provided to be cooled by heat exchange with the drug moving through the drug lumen (100).
The method of claim 1,
The thermochemical varicose vein surgery kit, characterized in that the drug supplied through the syringe unit (120) is pre-cooled to 1 to 5 °C by the cooling module (300).
The method of claim 1,
The drug lumen 100 is formed as a tubular body and is movably inserted in the shaft 12, and the distance between the nozzle 140 and the electrode tip 200 is adjusted according to the insertion depth of the drug lumen 100, Thermochemical varicose veins surgery kit, characterized in that it is provided to adjust the time difference after the heat damage is applied by the electrode tip (200) until the chemical damage is applied by the drug.
3. The method of claim 1 or 2,
In the catheter 10, a plurality of radially protruding protrusions 18 are further formed on the outer surface of the rear side of the electrode tip 200 to cause physical damage to the inner vessel wall when the catheter 10 is withdrawn. Varicose vein surgery kit.
6. The method of claim 5,
The protrusion 18 has a sharp end, and the inclination of the rear blade 18b is higher than that of the anterior blade 18a, so that it is easily inserted into the blood vessel when drawn in. Varicose vein surgery kit, characterized in that it is configured to scratch or prick the damage.
Using the thermochemical varicose vein surgery kit of any one of claims 1 to 5,
A catheter insertion step (S1) of inserting the electrode tip 200 of the shaft 12 of the catheter 10 into the blood vessel so that it coincides with the vascular procedure starting point (P);
A high-frequency output step (S2) of outputting a high-frequency to the electrode tip 200 by operating the high-frequency generator on;
The catheter constant speed withdrawal and drug supply step ( S3); and
A blood vessel occlusion step (S4) in which a blood vessel is occluded by a drug injected immediately after thermal damage in the process of withdrawing and transporting the shaft 12 of the catheter 10 at a set speed How to use the chemical varicose vein surgery kit.

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