KR20220067645A - Catheter apparatus for accurate supply signal - Google Patents

Abstract

One embodiment of the present invention relates to a catheter device inserted into the human body to perform both a drug treatment and an electrical treatment on a target region in the body simultaneously, and the catheter device includes: a catheter having one end inserted into the body and formed into a tube shape to deliver a conductive drug to the target region in the body through a tube; an electrical stimulation unit for applying an electrical signal to the drug in the tube such that an electrical stimulation is applied to the target region in the body using the drug as a medium; and an application electrode provided on the inner wall of the catheter and connected to the electrical stimulation unit, wherein the electrical stimulation unit applies the electrical signal to the application electrode.

Description

A catheter device capable of applying a signal at an accurate level {CATHETER APPARATUS FOR ACCURATE SUPPLY SIGNAL}

The present invention relates to a catheter device capable of applying a signal of an accurate level, and more particularly, when it is inserted into the human body and simultaneously performs a pharmacological treatment and an electrical treatment on a target site in the body, the accuracy of the signal applied to the target site in the body is an improved catheter device.

When there is low back pain and radiating pain in the lower extremities that do not respond to conservative treatment in lumbar degenerative nerve stenosis, disc protrusion and prolapse, spondylolisthesis, etc., adhesiolysis and anti-iflammatory agent, hyaluronidase, etc. (epidural neuroplasty). 1 shows an example in which a catheter (10) is inserted into the body along a guide wire (W) for epidural neuroplasty.

With a cause and indication similar to the above, a needle with an active tip of about 1 cm in length is placed in the dorsal root ganglions, and then radiofrequency ablation is performed to form a nerve lesion in the lesion and improve symptoms.

These epidural neuroplasty and radiofrequency ablation can improve low back pain and low back pain caused by the above causes by different mechanisms, respectively.

On the other hand, epidural neuroplasty using a navigation epidural catheter and radiofrequency ablation of the dorsal root ganglion cannot be performed at the same time because the skin puncture site is different even though the indications and patient groups are almost the same, or even if both procedures are performed at the same time, the It takes a long time to puncture the dorsal root ganglion and may cause discomfort to the patient.

Therefore, it is necessary to develop a catheter device that can perform radiofrequency ablation while performing epidural neuroplasty.

An object of the present invention is to provide a catheter device with improved accuracy of a signal applied to a target site in the body when it is inserted into the human body and simultaneously performs a pharmacological treatment and an electrical treatment for a target site in the body.

The technical problems to be achieved by the present invention are not limited to the technical problems mentioned above, and other technical problems not mentioned can be clearly understood by those of ordinary skill in the art to which the present invention belongs from the description below. There will be.

In order to achieve the above technical problem, an embodiment of the present invention is a catheter device that is inserted into the human body and simultaneously performs a drug treatment and an electrical treatment for a target site in the body, one side of which is inserted into the body, and is formed in the shape of a tube. a catheter for delivering a conductive drug to the target site in the body through a conduit; An electrical stimulation unit for applying an electrical signal to the drug in the conduit and an inner wall of the catheter so that electrical stimulation is applied to the target site in the body using the drug as a medium, an application electrode connected to the electrical stimulation unit Including, wherein the electrical stimulation unit provides a catheter device capable of applying a signal of an accurate level that applies the electrical signal to the applying electrode.

A conductive stimulation transmitting unit may be provided on one side of the catheter inserted into the body, and the stimulation transmitting unit may receive the electrical signal transmitted through the drug and spread the electrical stimulation around the target site.

The electrical stimulation unit may be connected to the stimulation transmitting unit through a conductor provided in the sidewall of the catheter.

It may further include a guide wire that is detachably accommodated in the conduit of the catheter and is inserted into the body prior to the catheter to guide the movement direction of the catheter to reach the target site.

It accommodates the drug and may further include a drug receiving unit connected to the other side of the catheter.

The drug receiving unit may be made of an insulating material.

It may further include a measuring unit for measuring the electrical characteristics of the drug and a control unit for adjusting the level of the electrical signal applied by the electrical stimulation unit based on the electrical characteristics.

The measuring unit may measure the electrical properties of the drug accommodated in the drug receiving unit.

A measuring electrode is provided at a position adjacent to the one end of the catheter, the measuring unit is connected to the measuring electrode through a conductor provided in the sidewall of the catheter, and the measuring unit is in contact with the measuring electrode Electrical of the drug characteristics can be measured.

a user interface for receiving identification information of the drug; A memory in which electrical characteristic data and identification information of a plurality of drugs are matched and stored, and a control unit for adjusting an electrical signal applied by the electrical stimulation unit, wherein the control unit stores the electrical characteristic data matching the received identification information into the memory The electrical signal may be loaded from and adjusted based on the loaded electrical characteristic data.

A drug sensing electrode provided at a position adjacent to the one end of the catheter and a control unit connected to the drug sensing electrode, and controlling the electrical stimulation unit to apply the electrical signal when a drug is detected by the drug sensing electrode can

The applying electrode may be provided at a position adjacent to the one end of the catheter.

Further comprising a drug sensing electrode provided at a position adjacent to the one end of the catheter, the drug sensing electrode may be provided at a position far from the one end of the catheter compared to the applying electrode.

According to an embodiment of the present invention, when a drug is injected into a target site in the body using a catheter, electrical stimulation is performed in the target site using the drug as a medium, so that the pharmacological treatment and electrical treatment of the target site in the body are performed at once. This can be done during surgery.

That is, according to an embodiment of the present invention, since radiofrequency ablation can be performed while performing epidural neuroplasty, the treatment effect can be maximized, the patient's discomfort can be reduced, and the operation time and medical cost can be saved.

In addition, according to an embodiment of the present invention, since the level of the electrical signal applied to the drug by the electrical stimulation unit is adjusted based on the electrical characteristics of the drug, an electrical stimulation of an accurate level required for treatment can be applied to a target site in the body.

In addition, according to an embodiment of the present invention, since a measuring unit for measuring the electrical properties of the drug is provided and the electrical signal applied by the electrical stimulation unit is automatically adjusted based on the measured electrical properties, the precise level required for treatment regardless of the type of drug of electrical stimulation can be applied to a target site in the body.

In addition, according to an embodiment of the present invention, since the stimulation transmitting unit is provided at one end of the catheter to be inserted into the body, the electrical signal transmitted through the drug can be effectively transmitted to the target site in the body.

In addition, according to the embodiment of the present invention, since the measuring electrode is provided at one end of the catheter inserted into the body, the electrical properties of the drug can be measured more accurately.

In addition, according to an embodiment of the present invention, since the applying electrode connected to the stimulation transmitting unit is provided at one end of the catheter inserted into the body, the electrical signal transmitted through the drug can be transmitted to the target site in the body without loss.

In addition, according to an embodiment of the present invention, since a drug sensing electrode is provided at one end of the catheter to be inserted into the body, an electrical signal is applied only when the drug is administered without a separate control process, so that the power efficiency of the catheter device can be increased. have.

In addition, according to an embodiment of the present invention, since the drug sensing electrode may be provided at a position farther from one end of the catheter compared to the application electrode, the detection of the drug and the application of the electrical signal can be sequentially performed without a separate control algorithm. .

It should be understood that the effects of the present invention are not limited to the above-described effects, and include all effects that can be inferred from the configuration of the invention described in the detailed description or claims of the present invention.

1 shows an example in which a catheter is inserted into the body along a guide wire for epidural neuroplasty.
2 is a view showing a catheter device according to an embodiment of the present invention.
3 is a view showing a catheter device according to another embodiment of the present invention.
Figure 4 is an enlarged view showing one end of the catheter according to an embodiment of the present invention.
5 is a view showing a catheter device according to another embodiment of the present invention.
6 is a view showing a catheter device according to another embodiment of the present invention.

Hereinafter, the present invention will be described with reference to the accompanying drawings. However, the present invention may be embodied in several different forms, and thus is not limited to the embodiments described herein. And in order to clearly explain the present invention in the drawings, parts irrelevant to the description are omitted, and similar reference numerals are attached to similar parts throughout the specification.

Throughout the specification, when a part is said to be “connected (connected, contacted, coupled)” with another part, it is not only “directly connected” but also “indirectly connected” with another member interposed therebetween. "Including cases where In addition, when a part "includes" a certain component, this means that other components may be further provided without excluding other components unless otherwise stated.

The terminology used herein is used only to describe specific embodiments, and is not intended to limit the present invention. The singular expression includes the plural expression unless the context clearly dictates otherwise. In the present specification, terms such as “comprise” or “have” are intended to designate that a feature, number, step, operation, component, part, or combination thereof described in the specification exists, but one or more other features It should be understood that this does not preclude the existence or addition of numbers, steps, operations, components, parts, or combinations thereof.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

2 is a view showing a catheter 100 device according to an embodiment of the present invention.

As shown in FIG. 2 , the catheter 100 device may include a catheter 100 , a drug receiving unit 200 , an electrical stimulation unit 300 , a measuring unit 400 , and a control unit 500 .

The catheter 100 may deliver the drug M into the body of the patient. As an example, the catheter 100 may be formed in the shape of a tube.

In addition, the catheter 100 may include a side wall 110 , and a conduit P surrounded by the side wall 110 therein may be formed. For example, the drug (M) may be delivered into the body of the patient through the conduit (P) inside the catheter (100).

One side of the catheter 100 may be inserted into the body of the patient. In addition, the catheter 100 may be bent and made of a flexible material so as to reach a treatment target site in the body.

Meanwhile, a separate operation for accurately inserting the catheter 100 into the treatment target site may be performed.

For example, a needle may be used for skin puncture. Then, the catheter 100 may be inserted into the punctured skin area. In addition, a synthetic resin member for securing the insertion path of the punctured site may be used.

In addition, a guide wire (not shown) may be provided. The guide wire may be separably accommodated in the conduit P inside the catheter 100 .

For example, the guide wire may be inserted into a target site of the patient prior to insertion of the catheter 100 . Then, the catheter 100 may be inserted along the guide wire to reach a target site in the body of the patient. That is, the guide wire may guide the movement direction or movement path of the catheter 100 .

The drug receiving unit 200 may be connected to the other side of the catheter 100, and may receive the drug (M). For example, the drug receiving unit 200 may be connected to the other side of the catheter 100 with a filter (not shown) interposed therebetween.

In addition, the drug receiving unit 200 may inject the drug (M) accommodated therein into the catheter (100). For example, the drug receiving unit 200 may inject the drug (M) into the catheter 100 on the principle of a syringe. Such injection can be made through known means.

In addition, the drug receiving unit 200 may be made of an insulating material. This is to prevent the electrical signal from flowing to the outside through the drug receiving unit 200 when the electrical stimulation unit 300 to be described later applies an electrical signal to the drug (M).

On the other hand, the electrical stimulation unit 300 may apply an electrical signal to the drug (M). For example, the electrical signal may be an AC signal.

For example, the electrical stimulation unit 300 may apply an electrical signal to the drug (M) accommodated in the drug receiving unit (200). In this case, the drug (M) may be a conductive drug (M). And, the applied electrical signal may be transmitted through the drug (M).

For example, the drug (M) accommodated in the drug accommodating unit 200 may be injected into the catheter 100 to reach the end of one side of the catheter 100 . At this time, the electrical signal applied to the drug (M) may reach the end of one side of the catheter 100 using the drug (M) as a medium.

At this time, since the end of one side of the catheter 100 has reached the target site in the body, the electrical signal transmitted through the drug M may also be applied to the target site in the body. At this time, the patient's body (B) may serve as a grounding. That is, the electrical stimulation due to the electrical signal may be applied to the target part of the body.

According to this, electrical stimulation may be applied at the same time as the therapeutic drug M is injected into the target site of the body. That is, epidural neuroplasty and radiofrequency ablation can be performed simultaneously.

On the other hand, the electrical stimulation unit 300 may apply an electrical signal to the drug (M) injected into the conduit (P) in the catheter (100) of course.

And, the measurement unit 400 may measure the electrical properties of the drug (M). For example, the measurement unit 400 may measure the electrical characteristics of the drug (M) accommodated in the drug accommodating unit (200). For example, the electrical characteristic may be an impedance.

In addition, the control unit 500 may adjust the level of the electrical signal applied to the drug (M) by the electrical stimulation unit 300 based on the electrical characteristics of the drug (M) measured by the measurement unit (400).

For example, when the impedance of the drug (M) is higher than the reference value, the controller 500 may control the electrical stimulation unit 300 to apply an electrical signal of a higher voltage to the drug (M).

As another example, when the impedance of the drug (M) is lower than the reference value, the controller 500 may control the electrical stimulation unit 300 to apply an electrical signal of a lower voltage to the drug (M).

3 is a view showing a catheter 100 device according to another embodiment of the present invention.

3 , the catheter 100 device may include a user interface 1000 and a memory 1100 .

In the embodiment of FIG. 2 , the controller 500 acquires the electrical characteristics of the drug solution accommodated in the drug accommodating unit 200 through the measurement unit 400 , whereas in the embodiment of FIG. 3 , the controller 500 controls the electrical characteristics of the drug solution is different in that it is obtained through the user interface 1000 and the memory 1100 .

The user interface 1000 may receive identification information for the drug (M) from the user of the catheter 100 device. To this end, the user interface 1000 may include an input means such as a touch screen or a button unit.

And, the memory 1100 may store the data for the electrical characteristic data and identification information of the plurality of drugs (M).

In addition, the controller 500 may load electrical characteristic data matching the identification information input by the user from the memory 1100 . And, the control unit 500 may adjust the level of the electrical signal applied to the electrical stimulation unit 300 to the drug (M) based on the loaded electrical characteristic data.

4 is an enlarged view showing one end of the catheter 100 according to an embodiment of the present invention.

As shown in Figure 4, the catheter 100 may be provided with a stimulation transfer unit 150 at one end.

The stimulus transmitting unit 150 may be made of a conductive material. In addition, the stimulation transmitting unit 150 may receive an electrical signal transmitted through the chemical. In addition, the stimulation transmitting unit 150 may transmit the received electrical signal to an adjacent body part.

For example, one end of the catheter 100 may reach a target site in the body of the patient according to the method described with reference to FIG. 2 . In this case, the stimulus diffusion unit may be in contact with the target body part and its peripheral part.

For example, the drug (M) may be in contact with the stimulus delivery unit 150 in the process of being discharged through the opening of one end of the catheter 100. Since the contact between the drug M and the stimulation transmitting unit 150 is essentially made, electrical stimulation to a target site in the body can be applied more effectively.

In addition, the stimulation transmitting unit 150 may expand the area to which the electrical stimulation is applied to the target body part and its peripheral part. That is, as the area to which the electrical stimulation is applied expands, the operation may be easier.

In addition, the stimulus transmitting unit 150 may be made of a magnetic material. According to this, there is an advantage that remote navigation (Ex. Remote Magnetic Navigation) of one end of the catheter 100 provided with the stimulation transmitting unit 150 can be performed.

Meanwhile, the stimulation transmitting unit 150 may be directly connected to the electrical stimulation unit 300 through a conductor provided in the sidewall 110 of the catheter 100 . In this case, the electrical signal applied by the electrical stimulation unit 300 may be applied to the stimulation transmitting unit 150 through the conductor.

5 is a view showing a catheter 100 device according to another embodiment of the present invention.

As shown in FIG. 5 , the measurement electrode 120 may be provided at a position adjacent to one end of the catheter 100 . The measuring electrode 120 may be provided inside the catheter 100 so as to be in contact with the drug M moving through the conduit P.

In addition, the measuring electrode may be connected to the measuring unit 400 through a conductor provided inside the sidewall 110 of the catheter 100 . The conductor 121 provided inside the sidewall 110 of the catheter 100 may extend along the sidewall 110 of the catheter 100 to a position adjacent to the other side of the catheter 100 .

And the measuring unit 400 may measure the difference between the electrical characteristics of the drug (M) located in the drug receiving unit 200 and the electrical characteristics of the drug (M) adjacent to the measuring electrode (120). At this time, the drug M may be in a state of being injected to a position adjacent to the measurement electrode 120 within the catheter 100 . And, the electrical stimulation unit 300 may be in a state in which an electrical signal is applied to the drug (M).

And, the control unit 500 may adjust the level of the electrical signal applied to the electrical stimulation unit 300 to the drug (M) based on the difference in the measured electrical characteristics.

This is because an electrical signal applied to a target site in the body may be attenuated due to the impedance of the drug M or the length of the catheter 100 .

That is, as the measurement electrode 120 is provided at one end of the catheter 100, an electrical stimulation of an accurate level required for treatment may be applied to the target site.

6 is a view showing a catheter 100 device according to another embodiment of the present invention.

As shown in FIG. 6 , the application electrode 130 and the drug sensing electrode 140 may be provided on the inner wall of the catheter 100 .

For example, the application electrode 130 and the drug sensing electrode 140 may be provided at a position adjacent to one end of the catheter.

The application electrode 130 may be connected to the electrical stimulation unit 300 through a conductor provided inside the sidewall 110 of the catheter 100 . The conductor 131 provided in the sidewall 110 of the catheter 100 may extend along the sidewall 110 of the catheter 100 to a position adjacent to the other side of the catheter 100 .

In addition, the electrical stimulation unit 300 may apply an electrical signal to the application electrode 130 .

According to this, the electrical signal is applied to a position closer to the target site in the body compared to the case where it is applied to the drug accommodating unit 200 . That is, an accurate level of electrical stimulation required for treatment may be applied to the target site.

Also, the drug sensing electrode 140 may be connected to the electrical stimulation unit 300 through a conductor provided inside the sidewall 110 of the catheter 100 . The conductor 141 provided in the sidewall 110 of the catheter 100 may extend to a position adjacent to the other side of the catheter 100 along the sidewall 110 of the catheter 100 .

And, the control unit 500 may detect that the drug (M) is injected to a position adjacent to one end of the catheter 100 through the drug sensing electrode (140).

In addition, the control unit 500 may control the electrical stimulation unit 300 to apply an electrical signal to the application electrode 130 .

Accordingly, since the electrical stimulation unit 300 can apply an electrical signal when the drug (M) is injected to a position adjacent to one end of the catheter 100, the power efficiency of the catheter 100 device can be increased.

In addition, the drug sensing electrode 140 may be provided at a position farther from one end of the catheter 100 compared to the application electrode 130 .

According to this, the detection of the drug (M) and the application of the electrical signal can be made sequentially without a separate control algorithm.

On the other hand, when the drug (M) is sensed by the drug sensing electrode 140, the electrical stimulation unit 300 may apply an electrical signal to the drug (M) in the drug receiving unit 200, of course.

The description of the present invention described above is for illustration, and those of ordinary skill in the art to which the present invention pertains can understand that it can be easily modified into other specific forms without changing the technical spirit or essential features of the present invention. will be. Therefore, it should be understood that the embodiments described above are illustrative in all respects and not restrictive. For example, each component described as a single type may be implemented in a dispersed form, and likewise components described as distributed may also be implemented in a combined form.

The scope of the present invention is indicated by the following claims, and all changes or modifications derived from the meaning and scope of the claims and their equivalents should be construed as being included in the scope of the present invention.

100: catheter 200: drug receiving section
110: side wall 120: measuring electrode
130: applying electrode 140: drug sensing electrode
150: stimulation transmitting unit 300: electrical stimulation unit
400: measurement unit 500: control unit
1000: user interface 1100: memory

Claims (13)

As a catheter device that is inserted into the human body and simultaneously performs drug treatment and electrical treatment for a target site in the body,
a catheter having one side inserted into the body and having the shape of a tube to deliver a conductive drug to the target site in the body through the tube;
An electrical stimulation unit for applying an electrical signal to the drug in the conduit so that electrical stimulation is applied to the target site in the body using the drug as a medium; and
It is provided on the inner wall of the catheter and includes an applying electrode connected to the electrical stimulation unit,
The catheter device capable of applying a signal of an accurate level to which the electrical stimulation unit applies the electrical signal to the applying electrode.
According to claim 1,
A conductive stimulation transmitting unit is provided on one side of the catheter inserted into the body,
The catheter device capable of applying a signal of an accurate level to which the stimulation transmitting unit receives the electrical signal transmitted through the drug and spreads the electrical stimulation around the target site.
3. The method of claim 2,
The electrical stimulation unit is a catheter device capable of applying a signal of an accurate level that is connected to the stimulation transmitting unit through a conductor provided in the sidewall of the catheter.

According to claim 1,
It is separably accommodated in the conduit of the catheter, which is inserted into the body prior to the catheter and further comprises a guide wire for guiding the movement direction so that the catheter reaches the target site. catheter device.
According to claim 1,
A catheter device capable of applying a signal of an accurate level that accommodates the drug and further comprises a drug receiving part connected to the other side of the catheter.
6. The method of claim 5,
A catheter device capable of applying a signal at an accurate level that the drug receiving unit is made of an insulating material.
6. The method of claim 5,
a measuring unit for measuring the electrical properties of the drug; and
The catheter device capable of applying a signal of an accurate level further comprising a controller for adjusting the level of the electrical signal applied by the electrical stimulation unit based on the electrical characteristics.
8. The method of claim 7,
The measuring unit is a catheter device capable of applying a signal of an accurate level to measure the electrical characteristics of the drug accommodated in the drug receiving unit.
8. The method of claim 7,
A measuring electrode is provided at a position adjacent to the one end of the catheter,
The measuring unit is connected to the measuring electrode through a conductor provided in the sidewall of the catheter,
The measuring unit is a catheter device capable of applying a signal of an accurate level to measure the electrical characteristics of the drug in contact with the measuring electrode.
According to claim 1,
a user interface for receiving identification information of the drug;
A memory in which electrical property data and identification information of a plurality of drugs are matched and stored; and
And a control unit for adjusting the electrical signal applied by the electrical stimulation unit,
The control unit loads the electrical characteristic data matching the received identification information from the memory,
A catheter device capable of applying a signal of an accurate level that adjusts the electrical signal based on the loaded electrical characteristic data.
According to claim 1,
a drug sensing electrode provided at a position adjacent to the one end of the catheter; and
The catheter device that is connected to the drug sensing electrode, and further comprises a control unit for controlling the electrical stimulation unit to apply the electrical signal when a drug is detected on the drug sensing electrode, the catheter device capable of applying a signal of an accurate level.
According to claim 1,
The application electrode is a catheter device capable of applying a signal of an accurate level that is provided at a position adjacent to the one end of the catheter.
13. The method of claim 12,
Further comprising a drug sensing electrode provided at a position adjacent to the one end of the catheter,
The drug sensing electrode is a catheter device capable of applying a signal of an accurate level that is provided at a position far from the one end of the catheter compared to the application electrode.

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