KR20200048240A - Micro catheter - Google Patents

Abstract

A catheter according to an embodiment of the present invention, in the catheter communicating the inner space of the human body and the outer space of the human body, comprises: a first tube part for providing a first space, a predetermined space; and a heating part connected to the first tube part so that a part of the outer surface of the first tube part is surrounded, and discharging heat when predetermined current flows. According to the catheter of the present invention, it is possible to reduce malfunctions.

Description

Micro catheter {MICRO CATHETER}

The present invention relates to a micro catheter, which is inserted into a human body and relates to a micro catheter that communicates with the inner space of the human body and the outer space of the human body.

A catheter generally refers to a rubber or metal tube that connects the human organs or blood vessels to the outside of the human body, and injects the drug or injects the contents of the human body while the operator inserts it into the procedure point inside the human body. It is used to discharge or to insert various tools for the procedure at that point into the body.

Among the catheter, the micro catheter has a length of about 90 ~ 150cm, and the diameter is a catheter composed of 1mm or less, mainly used for liver cancer embolization, brain vascular coil and stent delivery, and peripheral vascular coil delivery. It is used to put drugs on or to put coils etc. for occlusion.

However, the conventional occlusion method using a micro catheter has a problem of malfunction due to a complicated structure because the bulky coil must be moved directly to a target point.

The problem to be solved of the present invention is to provide a micro catheter capable of performing a predetermined operation with a simple structure to solve the above problems.

However, the problems to be solved by the present invention are not limited to the above-described problems, and the problems not mentioned can be clearly understood by a person having ordinary knowledge in the technical field to which the present invention pertains from this specification and the accompanying drawings. There will be.

The catheter according to an embodiment of the present invention is inserted into the human body, and in the catheter communicating the internal space of the human body and the external space of the human body, the first space that is a predetermined space is provided so that a predetermined chemical liquid can flow The first tube portion; And a heating part that is connected to the first tube part such that a part of the outer surface of the first tube part is surrounded, and discharges a predetermined heat when a predetermined current flows.

In addition, the second tube portion that provides a second space that is a predetermined space so that the first tube portion can be disposed; further comprising, the first tube portion, so as to be hidden by the second tube portion in the circumferential direction It is disposed in the second space, and the heating part may be connected to the first tube part so that at least a part is not disposed in the second space and is exposed to the outside.

In addition, the second tube portion may be a predetermined portion where a portion of the first tube portion and a second-1 tube portion providing a second-1 space that is a predetermined space in which a portion of the first tube portion can be disposed. A 2-2 space that is a space for providing a second-2 tube part spaced apart from the 2-1 tube part, and the heating part, between the 2-1 tube part and the 2-2 tube part It can be placed on and exposed to the outside.

Further, it is disposed between the first tube portion and the second tube portion to be concealed by the second tube portion, the intermediate portion is connected to the heating portion for transmitting a predetermined current to the heating portion; The intermediate portion may have a smaller area connected to the first tube portion with respect to the reference length than the area connected to the first tube portion with respect to the reference length.

In addition, the heating unit, the first matrix is formed to be deformed in the shape of a spiral so that a predetermined space in which a predetermined space in which the first tube portion can be formed is formed, the mediator, without providing a predetermined space The second matrix may be formed in a spiral shape to be partially surrounded by a portion of the outer surface of the first tube portion.

Further, the first matrix may be integrally formed with the second matrix.

In addition, a rigid complement which is disposed between the first tube portion and the second tube portion to support the second tube portion; and further comprising, the rigid complement portion is the other end of the intermediate portion connected to the heating portion Connected to the first tube portion with respect to the reference length than the area connected to the first tube portion with respect to the reference length.

In addition, the rigid complementary portion may surround the outer surface of the first tube portion in a braided form.

In addition, the rigid complementary portion, the at least one first rigid fabric portion and at least one second rigid fabric portion is formed by knitting, the second rigid fabric portion is made of a conductor, it may be connected to the intermediate portion.

According to the catheter according to the present invention, malfunctions can be reduced.

In addition, manufacturing cost can be reduced.

In addition, it is possible to effectively perform vascular occlusion surgery.

However, the effects of the present invention are not limited to the above-described effects, and the effects not mentioned will be clearly understood by those skilled in the art to which the present invention pertains from the present specification and the accompanying drawings.

1 is an overall perspective view of a catheter according to an embodiment of the present invention
FIG. 2 is an enlarged view of part A of FIG. 1;
FIG. 3 is a sectional view taken along line X-X 'in FIG. 1;
4 is a view showing an example in which a catheter according to an embodiment of the present invention is used
5 is a view for explaining a process of bending a catheter according to an embodiment of the present invention
FIG. 6 is a view for explaining a process in which a chemical solution is introduced through a catheter according to an embodiment of the present invention.
7 is a view for explaining a blood vessel occlusion process through a catheter according to an embodiment of the present invention

Hereinafter, specific embodiments of the present invention will be described in detail with reference to the drawings. However, the spirit of the present invention is not limited to the presented embodiments, and a person skilled in the art who understands the spirit of the present invention may add another component within the scope of the same spirit, change, delete, etc. Other embodiments that are included within the scope of the invention idea can be easily proposed, but this will also be included within the scope of the invention.

In addition, elements having the same functions within the scope of the same idea appearing in the drawings of the respective embodiments will be described using the same reference numerals.

In the present specification, when it is determined that a detailed description of known configurations or functions related to the present invention may obscure the subject matter of the present invention, a detailed description thereof will be omitted.

1 is an overall perspective view of a catheter according to an embodiment of the present invention.

Referring to Figure 1, the catheter 100 according to an embodiment of the present invention is inserted into the human body in a catheter that communicates with the internal space of the human body and the external space of the human body, so that the positive chemicals can flow, predetermined The first tube part 110 providing the space, the first space S110, and a part of the outer surfaces of the first tube part 110 are connected to the first tube part 110 so as to be surrounded, and a predetermined current is When flowing, it may include a heating unit 120 that emits predetermined heat.

In addition, the catheter 100 may further include a second tube portion 130 that provides a second space S130 which is a predetermined space so that the first tube portion 110 can be disposed.

In addition, the catheter 100 is disposed between the first tube portion 110 and the second tube portion 130 to be concealed by the second tube portion 130, and is connected to the heating portion 120 It may further include a mediator 140 for transmitting a predetermined current to the heating unit 120.

In addition, the catheter 100 further includes a rigid complement 150 that is disposed between the first tube portion 110 and the second tube portion 130 to support the second tube portion 130. Can be.

The first tube portion 110 may be a cylindrical tube extending in the longitudinal direction.

However, the shape of the first tube portion 110 is not limited thereto, and can be variously modified at a level apparent to a person skilled in the art.

In one example, the first tube portion 110 may be a rectangular tube extending in the longitudinal direction.

The first tube part 110 may provide a first space S110 which is a predetermined space therein.

A predetermined chemical liquid may flow into the first space S110.

The first tube part 110 may be disposed on a second space S130 provided by the second tube part 130.

The first tube part 110 may be disposed in the 2-1 space S131, the 2-2 space 132, and the placement space S120, which will be described later.

The first tube portion 110 may be disposed in the second space S130 to be hidden by the second tube portion 130 in the circumferential direction.

In addition, the first tube portion 110 may be disposed in the arrangement space S120 to be concealed by the heating portion 120 in the circumferential direction.

When a predetermined current flows through the heating unit 120, the heating unit 120 may emit predetermined heat.

The heating part 120 may be connected to a portion of the first tube part 110.

As a specific example, the heat generating part 120 may be formed by being deformed to surround the first tube part 110 in a spiral shape.

The first matrix may be made of a conductor.

In one example, the first matrix may be made of platinum material.

However, the present invention is not limited thereto, and the material of the first matrix may be variously modified at a level apparent to those skilled in the art.

A part of the outer surface of the first tube part 110 may be surrounded by the heating part 120.

The heating unit 120 may provide an arrangement space S120 which is a predetermined space in which the first tube portion 110 can be disposed.

The heating unit 120 may be connected to the first tube unit 110 so that at least a portion of the heating unit 120 is not disposed in the second space S130 but exposed to the outside.

One end of the heating unit 120 may be connected to the 2-1 tube unit 131, which will be described later, and the other end of the heating unit 120 may be connected to the 2-2 tube unit 132, which will be described later. .

The heating unit 120 may be connected to the intermediate unit 140.

In other words, the other end of the heating unit 120 may be connected to the intermediate unit 140.

Alternatively, the heating unit 120 may be integrally formed with the intermediate unit 140.

The second tube portion 130 may be a cylindrical tube extending in the longitudinal direction.

However, the shape of the second tube portion 130 is not limited thereto, and may be variously modified at a level apparent to a person skilled in the art.

In one example, the second tube portion 130 may be a rectangular tube extending in the longitudinal direction.

The second tube part 130 may provide a second space S130 which is a predetermined space therein.

The second tube part 130 may surround the first tube part 110 and protect the first tube part 110 from external factors.

The second tube part 130 includes a 2-1 tube part 131 and a 2-1 space part S131 that provides a second space (S131) which is a predetermined space in which a part of the first tube part 110 can be disposed A 2-2 tube portion 132 that provides a 2-2 space 132 which is a predetermined space in which a portion of the first tube portion 110 can be disposed and is spaced apart from the 2-1 tube portion 131 ).

The 2-1 tube portion 131 and the 2-2 tube portion 132 may be spaced apart from each other.

The 2-1 tube part 131 and the 2-2 tube part 132 may be connected to each other by the heating part 120.

The heating part 120 may be disposed between the 2-1 tube part 131 and the 2-2 tube part 132 to be exposed to the outside.

Due to this, the heating unit 120 can effectively transfer a predetermined heat to blood vessels of the human body.

The other end of the 2-1 tube part 131 may be connected to the heating part 120.

For example, one end of the heat generating part 120 may be disposed between the other end of the 2-1 tube part 131 and the first tube part 110.

However, the heating part 120 may not be disposed between one end of the 2-1 tube part 131 and the first tube part 110.

That is, the other end of the 2-1 tube part 131 may be directly connected to the first tube part 110.

Due to this, the heating unit 120 protrudes beyond one end of the 2-1 tube unit 131, and thus it is possible to effectively prevent the heating unit 120 from injuring the human body.

The intermediate portion 140 may be formed by shape-deforming the second matrix in a spiral shape such that a part of the outer surface of the first tube portion 110 is surrounded without providing a predetermined space.

The first matrix may be made of a conductor.

In one example, the first matrix may be made of platinum material.

However, the present invention is not limited thereto, and the material of the first matrix may be variously modified at a level apparent to those skilled in the art.

The first matrix may be integrally formed with the second matrix.

However, the present invention is not limited thereto, and the first matrix and the second matrix may be connected to each other by welding.

As an example, the first matrix and the second matrix may be reduced in platinum material extending in the longitudinal direction.

However, the present invention is not limited thereto, and the shapes of the first matrix and the second matrix may be variously modified at a level apparent to those skilled in the art.

The intermediate part 140 may have a smaller area than the area where the heating part 120 is connected to the first tube part 110 for a reference length than the area connected to the first tube part 110 for a reference length. Can be.

Due to this, the first tube part 110 and the second tube part 130 to which the intermediate part 140 is connected can be easily bent, so that the catheter can be easily moved on the blood vessel corresponding to the structure of the blood vessel. The position can be moved.

Since the heating unit 120 is connected to the first tube unit 110 having a higher density than the intermediate unit 140, it is possible to more effectively function as a marker according to radiation.

In addition, the heat generating unit 120 may dissipate heat more densely.

The intermediate part 140 may be disposed between the first tube part 110 and the second tube part 130.

The intermediate unit 140 may transmit a predetermined current to the heating unit 120 and simultaneously support the second tube unit 130.

In addition, the mediator 140 may easily prevent the first tube 110 from contracting due to an external factor (eg, blood pressure).

One end of the intermediate unit 140 may be connected to the other end of the heating unit 120, the other end of the intermediate unit 140 may be connected to one end of the rigid complement 150.

The rigid complement 150 may support the first tube portion 110 and the second tube portion 130 so that the first tube portion 110 and the second tube portion 130 are not easily bent. have.

The rigid complement 150 may be connected to the other end of the intermediate unit 140, one end of which is connected to the heating unit 120.

The rigid complement 150 has an area that is connected to the first tube portion 110 for a reference length than the area where the intermediate portion 140 is connected to the first tube portion 110 for a reference length. It can be wide.

In addition, the rigid complement 150 is an area connected to the first tube portion 110 for a reference length than the area where the heating portion 120 is connected to the first tube portion 110 for a reference length. This can be narrower.

Due to this, the first tube portion 110 and the second tube portion 130 can be easily moved on the blood vessel.

Specifically, since the mediator 140 is easily bent, the catheter can be easily oriented in a predetermined path corresponding to the structure of the blood vessel, and the rigid complement 150 is the first. Since the tube portion 110 and the second tube portion 130 are supported, the catheter in a state can be effectively moved on a predetermined path.

As a specific example, the rigid complement 150 may surround the outer surface of the first tube portion 110 in a braided form.

The rigid complement 150 may be formed by brazing at least one first rigid fabric portion 151 and at least one second rigid fabric portion 152.

Here, the second rigid fabric portion 152 is made of a conductor and may be connected to the other end of the intermediate portion 140.

For example, one end portion of the second rigid fabric portion 152 may be connected to each other by welding to the other end portion of the intermediate portion 140, but is not limited thereto, and the connection method may be varied at a level apparent to those skilled in the art. It is deformable.

For example, a plurality of first rigid fabric portions 151 and one second rigid fabric portion 152 may be braided.

However, the present invention is not limited thereto, and various modifications can be made at a level apparent to those skilled in the art.

For example, a plurality of first rigid fabric portions 151 and a plurality of second rigid fabric portions 152 may be braided.

The rigid complement 150 may be disposed between the first tube portion 110 and the second tube portion 130.

The rigid complement 150 may be formed from the other end portion of the intermediate portion 140 to the other end portion of the first tube portion 110 and the second tube portion 130.

The above-described reference length is a relative reference value for comparing the area where each component is connected to the first tube part 110, and various lengths can be applied at a level obvious to a person skilled in the art.

FIG. 2 is an enlarged view of a portion A of FIG. 1.

Referring to FIG. 2, one end of the heating part 120 is disposed in the 2-1 space S131 and the inner surface of the other end of the 2-1 tube part 131 and the first tube part 110 ).

In addition, the other end of the heating unit 120 is disposed in the 2-2 space 132 to be in contact with the inner surface of the fraudulent 2-2 tube part 132 and the outer surface of the first tube part 110. Can be.

The heating part 120 may be disposed between the 2-1 tube part 131 and the 2-2 tube part 132.

A part of the heating part 120 may be exposed to the outside.

As a specific example, the reference surface based on the reference surface A10 which is a virtual surface forming a uniform surface by connecting the outer surface of the 2-1 tube part 131 and the outer surface of the 2-2 tube part 132 The heating part 120 may be formed so as not to protrude from the reference surface A10 in the circumferential direction of (A10).

That is, the heating unit 120 may be disposed inside the reference surface A10.

Due to this, the human body may be prevented from being injured due to the heating unit 120.

3 is a cross-sectional view taken along line X-X 'of FIG. 1.

Referring to FIG. 3, a part of the inner surface of the second tube part 130 may be directly connected or contacted with the outer surface of the first tube part 110.

In addition, a portion of the inner surface of the second tube portion 130 may be directly connected or contacted with the rigid complement 150.

The rigid complement 150 may be in contact with the inner surface of the second tube portion 130 and the outer surface of the first tube portion 110.

The rigid complement 150 may be recessed from the inner surface of the second tube portion 130.

To this end, a portion of the inner surface of the second tube portion 130 may be incorporated to allow the rigid complement 150 to be disposed.

Due to this, the second tube portion 130 can be effectively prevented from slipping on the rigid complement 150 or the first tube portion 110.

The medical device according to an embodiment of the present invention may include the above-described catheter and a power supply unit (not shown) that provides a predetermined power to the catheter.

The power supply unit may be connected to the second rigid fabric portion 152 of the rigid complement 150 to provide a predetermined current to the second rigid fabric portion 152.

Hereinafter, the process of using the catheter according to an embodiment of the present invention will be described in detail.

4 is a view showing an example in which a catheter according to an embodiment of the present invention is used.

Referring to Figure 4, the catheter according to an embodiment of the present invention can be moved from the outside of the human body to the inside of the human body along the blood vessel.

In one example, the catheter may be used for liver cancer embolization.

Specifically, one end of the catheter 100 (one end of the first tube part and one end of the second tube part) is located in the liver L10 until the catheter is positioned near the cancer cell C10. 100 may be moved along the hepatic artery.

5 is a view for explaining the process of bending the catheter according to an embodiment of the present invention.

Referring to FIG. 5, in order to explain a process in which the catheter 100 is bent, a first blood vessel V11 and a first blood vessel V11 that provide a predetermined space through which blood flows are connected to the first blood vessel V11 and the first blood vessel A second blood vessel (V12) providing a predetermined space in communication with the space provided by (V11) and the first blood vessel (V11), and communicating with a space provided by the first blood vessel (V11) It can be assumed that there is a third blood vessel V13 providing space.

Here, the predetermined path may be the first blood vessel V11 and the second blood vessel V12.

The predetermined route may mean a route through which the catheter 100 should pass.

The second blood vessel V12 and the third blood vessel V13 may be connected to each other at a predetermined angle.

That is, the second blood vessel V12 and the third blood vessel V13 may form a forked path.

When the catheter 100 moving inside the first blood vessel V11 is moved straight through the first blood vessel V11, it may collide with the inner wall of the second blood vessel V12.

In this state, when the catheter 100 continues to go straight, the first tube part and the second tube part where the intermediate part 140 is connected may be bent.

Due to this, it is possible to effectively prevent the second blood vessel V12 from being damaged by the catheter 100.

The catheter 100 entering the second blood vessel V12 is not easily bent by the stiffness compensator 150 but can be moved along the second blood vessel V12 and the second blood vessel V12. .

6 is a view for explaining a process in which the chemical solution flows through the catheter according to an embodiment of the present invention.

Referring to FIG. 6, when one end portion of the catheter 100 is moved to a predetermined target position by being moved to a predetermined path, a predetermined chemical solution F10 flows on the first space S110 to move the catheter 100. It can be discharged from one end.

In one example, the target location may mean a location near a predetermined cancer cell (C10).

The cancer cells can be treated by targeting only the cancer cells (C10) by the chemical solution (F10).

7 is a view for explaining a blood vessel occlusion process through a catheter according to an embodiment of the present invention.

Referring to FIG. 7 (a), a predetermined current may flow through the power supply unit to the second rigid fabric unit 152, the intermediate unit 140, and the heating unit 120.

Due to this, the heating unit 120 may emit predetermined heat.

Here, the intermediate portion 140 and the second rigid fabric portion 152 can also release a predetermined amount of heat.

However, since the intermediate portion 140 and the second rigid fabric portion 152 are surrounded by the second tube portion 130, the intermediate portion 140 and the second rigid fabric portion 152 The heat released may not affect the blood vessel (V10).

For example, when a predetermined current flows through the heating unit 120, the heating unit 120 may be about 70 ° C, but the temperature of the heating unit 120 is not limited thereto. It can be variously modified at a self-explanatory level.

Referring to Figure 7 (b), after discharging heat from the heating unit 120 for a predetermined time, the catheter 100 may be moved in a position outside the human body.

After the catheter 100 is moved, the blood vessel V10 heated by the heating unit 120 may contract.

In addition, blood vessels heated by the heating unit 120 may be blocked due to blood clots.

Due to this, predetermined blood may not flow to the cancer cells (C10), thereby preventing the growth of the cancer cells (C10).

In order to more clearly represent the technical spirit of the present invention, the accompanying drawings are briefly expressed or omitted for configurations that are unrelated or inferior to the technical spirit of the present invention.

In the above, the configuration and features of the present invention have been described based on the embodiments according to the present invention, but the present invention is not limited to this, and various modifications or changes can be made within the spirit and scope of the present invention. It is apparent to those skilled in the art, and thus, such changes or modifications are found to be within the scope of the appended claims.

100: catheter 110: first tube portion
120: heating unit 130: second tube unit
140: mediator 150: rigid complement

Claims (9)

In the catheter is inserted into the human body to communicate with each other the internal space of the human body and the external space of the human body,
A first tube portion that provides a first space that is a predetermined space so that a predetermined chemical liquid can flow; And
Including a; heating part that is connected to the first tube portion so that a part of the outer surface of the first tube portion is surrounded, and discharges a predetermined heat when a predetermined current flows;
Catheter.
According to claim 1,
It further includes a second tube portion that provides a second space that is a predetermined space so that the first tube portion can be disposed,
The first tube portion,
Disposed in the second space to be concealed by the second tube portion in the circumferential direction,
The heating unit,
At least a part is not disposed in the second space and is connected to the first tube part so as to be exposed to the outside,
Catheter.
According to claim 2,
The second tube portion,
A 2-1 tube portion providing a 2-1 space, which is a predetermined space in which a portion of the first tube portion can be disposed, and a 2-2 space which is a predetermined space in which a portion of the first tube portion can be disposed And a 2-2 tube part spaced apart from the 2-1 tube part,
The heating unit,
It is disposed between the 2-1 tube portion and the 2-2 tube portion to be exposed to the outside,
Catheter.
According to claim 2,
It is further disposed between the first tube portion and the second tube portion to be concealed by the second tube portion, and is connected to the heating portion to transmit a predetermined current to the heating portion;
The mediator,
The area connected to the first tube portion with respect to the reference length is narrower than the area connected to the first tube portion with respect to the reference length,
Catheter.
The method of claim 4,
The heating unit,
The first matrix is deformed into a helical shape so that an arrangement space, which is a predetermined space in which the first tube portion can be disposed, is formed,
The mediator,
The second matrix is formed in a helical shape so that a part of the outer surface of the first tube portion is surrounded without providing a predetermined space,
Catheter.
The method of claim 5,
The first matrix,
Formed integrally with the second matrix,
Catheter.
The method of claim 6,
It further comprises a rigid complementary portion disposed between the first tube portion and the second tube portion to support the second tube portion,
The rigid complementary part
One end is connected to the other end of the intermediate part connected to the heating unit,
The area connected to the first tube portion for a reference length is larger than the area connected to the first tube portion for a reference length,
Catheter.
The method of claim 7,
The rigid complement,
Surrounding the outer surface of the first tube portion in a braided form,
Catheter.
The method of claim 8,
The rigid complement,
At least one first rigid fabric portion and at least one second rigid fabric portion is formed by braiding,
The second rigid fabric portion,
Made of a conductor and connected to the intermediate part,
Catheter.

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