KR102123122B1 - Catheter device used to facilitate selection of branch arteries of the aorta and method of using the same - Google Patents

Abstract

The present invention relates to a catheter device used to select a branched artery of an aorta, and more specifically, as a catheter device, a tube having an elongated shape and flexibility, having a shape including flexion, but inserted into the body In the process, one end is fixed to the catheter body in order to transform the catheter body, which is deformed into a straight shape, inserted into a blood vessel in a deformed date shape, and the catheter body inserted into a blood vessel into the straight shape into a shape including a bend. Being, through the inside of the catheter body, the other end includes a guide line that is drawn out to the tip of the catheter body, but by adjusting the other end of the guide line disposed outside the body, including the bending of the catheter body, select a branched artery It is characterized by its configuration so that it is possible to select the branched artery of the target aorta without repetition of the forward, backward, and rotation of the catheter body in the blood vessel by transforming it into a form used in the blood vessel.
In addition, the present invention relates to a method of using a catheter device used to select a branched artery of an aorta, and more specifically, as a tube having an elongated shape flexibility, having a shape including a bend, but inserted into the body In the process, the catheter body is modified into a straight shape and inserted into a blood vessel in a modified straight shape; In order to deform the catheter body inserted into the blood vessel in the date form into a form including a bend, one end is fixed to the catheter body, and the guide wire is drawn through the catheter body and the other end is drawn out to the tip of the catheter body. A method of using a catheter device comprising: (1) the catheter body of the form including the bend is deformed into a straight shape, and inserted into a blood vessel in a deformed straight shape, and (2) placed outside the body. And adjusting the other end of the guide wire to deform the catheter body into a shape including flexion, but transforming the catheter body into a shape used for selecting a branched artery, including flexion, in a blood vessel. It is characterized in that it is possible to select the branched artery of the target aorta without repeating the process of forward, backward, and rotation of the catheter body.
According to the catheter device used to select the branched artery of the aorta proposed in the present invention, it is a tube having an elongated shape and has a shape including a bend, but is transformed into a straight shape in the process of being inserted into the body. In order to deform the catheter body inserted into the blood vessel in a deformed straight form and the catheter body inserted into the blood vessel in a straight form, one end is fixed to the catheter body and passes through the catheter body to deform it. By configuring the other end of the catheter body to include a guide wire that is drawn out to the tip of the catheter body, thereby adjusting the other end of the guide wire disposed outside the body, thereby transforming the catheter body into a shape used for the selection of branch arteries, including flexion, in the blood vessel. In the catheter body, it is possible to select the branched artery of the target aorta by easily making the bending of the catheter having a complicated shape within the aorta without repeating the steps of forward, backward and rotation of the catheter body.
In addition, according to the present invention, by further comprising a guide portion on the tip of the catheter body, when pulling the guide wire to deform the catheter body into a form including a bend, it is possible to easily grasp the direction of the bend, the target You can easily find the blood vessel.
In addition, according to the present invention, by using the guide wire, it is configured to maintain the bent shape of the catheter body, and after selecting the target blood vessel, in the process of entering the wire, to maintain the bending of the catheter, wire And catheter can be avoided.

Description

CATHETER DEVICE USED TO FACILITATE SELECTION OF BRANCH ARTERIES OF THE AORTA AND METHOD OF USING THE SAME}

The present invention relates to a catheter device and a method using the same, and more particularly, to a catheter device used to select a branched artery of the aorta and a method using the same.

A catheter is one of the common names for a tubular instrument and refers to a tubular device for insertion into a body cavity or an organ with a lumen. The catheter is used for the purpose of discharging stored substances in the body cavity or various organs, suctioning the perfusate for cleaning, measuring cardiovascular dynamics and central venous pressure, and injecting drugs or contrast agents into the body. , It can be configured in the form.

In the treatment using a catheter, it is not easy for the catheter to find a target blood vessel, and it is because people have different blood vessel positions, directions, and angles. In particular, since the existing catheter is an elongated tube shape, it is impossible to adjust the direction of the tube, or even if the direction is adjustable, the tube can be bent only at a certain angle. There was a difficult problem.

In order to solve this problem, various types of catheters that are bent are used as needed to replace them, but as mentioned above, due to the characteristics of blood vessels having different structures for different people, entry into target blood vessels is possible even when various types of catheters are used. Most of these cases are difficult, as well as a problem in that the procedure time and the cost of the procedure are increased due to the use of one or more catheters. Prior arts related to this include Patent No. 10-1696811 (Invention name: catheter).

As mentioned above, due to the nature of complex blood vessels, it is not easy to control the catheter to find the target blood vessel, which is an example of opening the mesenteric artery. In order to open a closed mesenteric artery, a catheter and wire must first be entered from the aorta to the mesenteric artery. Since the mesenteric artery travels downward with an angle of about 20 to 40° from the aorta, it is possible to select the mesenteric artery using a complex type catheter having a specific shape for selecting the abdominal artery. Since a catheter having a complex shape cannot be inserted into the aorta as it is, a catheter having a complex shape must be transformed into a simple shape and inserted into the aorta, and the catheter inserted in a simple shape is transformed back into a complex shape catheter in the aorta. It should be used to select a branched artery. The general method of transforming a catheter into a complex shape within the aorta consists of a complicated process such as pushing or turning one end of the catheter using another artery. In this way, in a narrow aorta of about 2 to 2.5 cm, a sophisticated technique is necessary to make the catheter, which is transformed into a straight line, into an original complex shape. However, since the above technique is not easy for a beginner, and it is not easy to adjust to form at a time, there is a risk of making complications such as damage to the artery wall or flocking blood clots attached to the artery wall by repeated attempts.

1 is a view showing a process of inserting into a target blood vessel using a conventional catheter device. Figure 1 (a) is a state of inserting a catheter into the aorta, it can be seen that the complex form of the catheter is inserted in the expanded state. This is because the blood vessels leading to the aorta are considerably narrow, and the catheter itself having a complicated shape cannot pass through the blood vessel. FIG. 1(b) is a catheter that has reached the aorta, and is a shape after a catheter having a complicated shape in the aorta, that is, an original catheter. As shown in (b) of FIG. 1, in order to make the catheter into an original shape or a shape in which a target blood vessel can be retrieved, a process such as rotation, advance, and backward after the catheter is inserted is repeated. Hereinafter, in FIG. 2, a method of using the existing catheter to find a target blood vessel will be described.

2 is a method that has been used in the past, and is a view showing a process of deforming a catheter inserted with a date into a shape including a bend. First, the catheter being inserted into the date can be confirmed. As shown in (a) of FIG. 2, after inserting the catheter inserted with a date into another large artery branching from the aorta (lower clavicle artery) with a wire, in FIGS. 2(b)-(c) As shown, pull out the wire. After that, as shown in Fig. 2(d), the catheter is rotated to advance to the original shape. While not hanging on the other branch, it is slowly pulled down as shown in FIG. 2(e) and lowered to select a target blood vessel as shown in FIG. 2(f). As shown in FIG. 2, a method of inserting a catheter into an existing target blood vessel, that is, a method of making the catheter in its original shape, repeats an operation of finely moving the catheter within a narrow blood vessel, and repeats it. It can be regarded as dangerous in that many variables can be generated in the course of operation.

FIG. 3 is a diagram illustrating a state of a catheter including a complex shape of a bend. In addition to the complex shape of the catheter used in FIG. 2, it is possible to confirm the shape of a catheter that includes different bends and is used. In addition to the shape of the catheter shown in FIG. 3, special catheters having a complex shape for selecting each branch artery have various types, and each special catheter shape should be used according to the location or shape of the branch artery. It can be seen that it is not an easy technique to change the shape of the catheter in that adjustment is also not moving according to the user's intention.

As described above, a method of making a catheter inserted into a date into an original complex form in an aorta requires a high level of skill, and even a person with a high level of skill may have difficulty, and thus a date in a blood vessel It is necessary to develop a technology that can easily make the catheter inserted into the original complex shape.

The present invention has been proposed to solve the above problems of the previously proposed methods, as a tube having an elongated shape and flexibility, having a shape including a bend, but in the process of being inserted into the body, it is transformed into a straight shape In order to deform the catheter body inserted into the blood vessel in a deformed straight shape and the catheter body inserted into the blood vessel into a straight shape, one end is fixed to the catheter body, passes through the catheter body, and passes through the other end By constructing a guide line drawn out to the tip of the catheter body, the other end of the guide line placed outside the body is adjusted to transform the catheter body into a form used for the selection of branched arteries, including flexion, in the blood vessel. It is used to select the branched artery of the aorta, which can easily select the branched artery of the target aorta by making the bending of the catheter with a complicated shape easy in the aorta without repeating the process of advancing, retracting and rotating the catheter body. It is an object to provide a catheter device.

In addition, the present invention, by further comprising a guide portion on the tip of the catheter body, when pulling the guide wire in order to deform the catheter body into a form including a bend, so that it is possible to easily grasp the direction of the bend, the target Another object is to provide a catheter device used to select a branched artery of the aorta, which can easily locate blood vessels.

In addition, the present invention is configured to maintain the bending shape of the catheter body using guide wires, so that the target blood vessel is selected and then in the process of entering the wire, it is possible to maintain the bending of the catheter, and Another object is to provide a catheter device used to select a branched artery of an aorta, which can prevent the catheter from being detached.

A catheter device used to select a branched artery of an aorta according to the features of the present invention for achieving the above object,

As a catheter device,

A tube having an elongated shape and having a shape of flexion, but having a shape including a bend, in the process of being inserted into the body, it is deformed into a straight shape, and a catheter body is inserted into a blood vessel in a deformed straight shape; And

In order to deform the catheter body inserted into the blood vessel in the date form into a shape including a bend, one end is fixed to the catheter body, and the guide line is drawn through the catheter body and the other end is drawn out to the tip of the catheter body. Including,

By adjusting the other end of the guide wire disposed outside the body to transform the catheter body into a shape used for the selection of the branched artery, including the flexion, without repeating the process of advancing, reversing or rotating the catheter body in the blood vessel. It is characterized by its constitution that it is possible to select the branched artery of the target aorta.

Preferably, the catheter body,

A first point disposed at a point where bending of the catheter body starts; And

And a second point disposed at a point where the bending ends, which is moved by a predetermined distance from the first point to the tip direction of the catheter body,

The guide wire, one end is fixed to the first point, is drawn into the interior of the catheter body through the second point, the other end of the lead wire is drawn out to the tip of the catheter body, the other end of the guide wire By pulling, the first point is brought closer to the second point, so that the catheter body can be deformed to include a bend.

Preferably,

The catheter body may have one or more bends.

More preferably,

The guide line for deforming the catheter body into a shape including one or more bends may be one or more.

Preferably,

The inside of the catheter body may include an inner lumen through which a wire drawn from a tip end of the catheter body and drawn out to the distal end of the catheter body may pass.

Preferably, the catheter body,

It may be made of polyethylene and polypropylene, which are thermoplastic resins harmless to the human body.

Preferably,

The front end of the catheter body may further include a guide portion for adjusting the direction of the bend when the guide wire is pulled to deform the catheter body into a shape including the bend.

Preferably, the guide line,

A handle may be further included to facilitate pulling of the guide wire.

Preferably,

The catheter body may further include an angle adjusting lever to which the other end of the guide wire drawn out from the tip is fixed.

More preferably,

Adjusting the angle adjustment lever, using the principle that the length of the guide line is shortened by rotating the angle adjustment lever in one direction, and the length of the guide line is increased by rotating the angle adjustment lever in the other direction, the catheter body It can be transformed into a form including a bend.

In addition, a method of using a catheter device used to select a branched artery of an aorta according to another feature of the present invention for achieving the above object,

A tube having an elongated shape and having a shape of flexion, but having a shape including a bend, in the process of being inserted into the body, it is deformed into a straight shape, and a catheter body is inserted into a blood vessel in a deformed straight shape; In order to deform the catheter body inserted into the blood vessel in the date form into a shape including a bend, one end is fixed to the catheter body, and the guide line is drawn through the catheter body and the other end is drawn out to the tip of the catheter body. As a method of using a catheter device configured to include,

(1) a step in which the catheter body of the shape including the bend is transformed into a straight shape and inserted into a blood vessel in a modified straight shape; And

(2) adjusting the other end of the guide wire disposed outside the body to include a step of deforming the catheter body into a shape including a curve,

By transforming the catheter body into a form used for the selection of a branched artery, including a flexion, so that a branched artery of a target aorta can be selected without repeated processes of forward, backward, and rotation of the catheter body in the blood vessel. It is characterized by its configuration.

Preferably, the catheter body,

A first point disposed at a point where bending of the catheter body starts; And

And a second point disposed at a point at which the bending ends, which is moved by a predetermined distance from the first point to the tip direction of the catheter body,

The guide wire, one end is fixed to the first point, is drawn into the interior of the catheter body through the second point, the other end of the lead wire is drawn out to the tip of the catheter body, the other end of the guide wire By pulling, the first point is brought closer to the second point, so that the catheter body can be deformed to include a bend.

Preferably,

The catheter body may have one or more bends.

More preferably,

The guide line for deforming the catheter body into a shape including one or more bends may be one or more.

Preferably,

The inside of the catheter body may include an inner lumen through which a wire drawn from a tip end of the catheter body and drawn out to the distal end of the catheter body may pass.

Preferably, the catheter body,

It may be made of polyethylene and polypropylene, which are thermoplastic resins harmless to the human body.

Preferably,

The front end of the catheter body may further include a guide portion for adjusting the direction of the bend when the guide wire is pulled to deform the catheter body into a shape including the bend.

Preferably, the guide line,

A handle may be further included to facilitate pulling of the guide wire.

Preferably,

The catheter body may further include an angle adjusting lever to which the other end of the guide wire drawn out from the tip is fixed.

More preferably,

Adjusting the angle adjustment lever, by using the principle that the length of the guide line is shortened by rotating the angle adjustment lever in one direction, and the length of the guide line is increased by rotating the angle adjustment lever in the other direction, the catheter body It can be transformed into a form including a bend.

According to the catheter device used to select the branched artery of the aorta proposed in the present invention, it is a tube having an elongated shape and has a shape including a bend, but is transformed into a straight shape in the process of being inserted into the body. In order to deform the catheter body inserted into the blood vessel in a deformed straight form and the catheter body inserted into the blood vessel in a straight form, one end is fixed to the catheter body and passes through the catheter body to deform it. By configuring the other end of the catheter body to include a guide wire that is drawn out to the tip of the catheter body, thereby adjusting the other end of the guide wire disposed outside the body, thereby transforming the catheter body into a shape used for the selection of branch arteries, including flexion, in the blood vessel. In the catheter body, it is possible to select the branched artery of the target aorta by easily making the bending of the catheter having a complicated shape within the aorta without repeating the steps of forward, backward and rotation of the catheter body.

In addition, according to the present invention, by further comprising a guide portion on the tip of the catheter body, when pulling the guide wire to deform the catheter body into a form including a bend, it is possible to easily grasp the direction of the bend, the target You can easily find the blood vessel.

In addition, according to the present invention, by using the guide wire, it is configured to maintain the bent shape of the catheter body, and after selecting the target blood vessel, in the process of entering the wire, to maintain the bending of the catheter, wire And catheter can be avoided.

1 is a view showing a process of inserting into a target blood vessel using a conventional catheter device.
Figure 2 is a method that has been used in the prior art, showing a process of deforming a catheter inserted into a date into a form including a bend.
3 is a view showing the appearance of a catheter including a complex shape of the bend.
Figure 4 is a catheter device used to select a branched artery of an aorta according to an embodiment of the present invention, a view showing a catheter body inserted into a blood vessel in a straight form.
Figure 5 is a catheter device used to select a branched artery of the aorta according to an embodiment of the present invention, a view showing a catheter body modified to include a curve.
6 is a view showing an enlarged inner view of a catheter body in a catheter device used to select a branched artery of an aorta according to an embodiment of the present invention.
7 is a view illustrating a state in which a catheter device used to select a branched artery of an aorta according to an embodiment of the present invention is deformed into a shape including a bending in a specific direction.
8 is a view showing a catheter body including an angle adjustment lever in a catheter device used to select a branched artery of an aorta according to an embodiment of the present invention.
9 is a view for explaining a process of selecting a branched artery using a bending of a catheter body in a catheter device used to select a branched artery of an aorta according to an embodiment of the present invention.
10 is a flowchart of a method using a catheter device used to select a branched artery of an aorta according to an embodiment of the present invention.

Hereinafter, preferred embodiments will be described in detail with reference to the accompanying drawings so that those skilled in the art to which the present invention pertains can easily implement the present invention. However, in the detailed description of a preferred embodiment of the present invention, when it is determined that a detailed description of related known functions or configurations may unnecessarily obscure the subject matter of the present invention, the detailed description will be omitted. In addition, the same reference numerals are used throughout the drawings for parts having similar functions and functions.

In addition, throughout the specification, when a part is said to be'connected' to another part, it is not only'directly connected', but also'indirectly connected' with other elements in between. Includes. In addition, "including" a component means that other components may be further included instead of excluding other components, unless otherwise stated.

4 is a catheter device used to select a branched artery of an aorta according to an embodiment of the present invention, a view showing a catheter body inserted into a blood vessel in a straight form, and FIG. 5 is an embodiment of the present invention In the catheter device used to select the branched artery of the aorta according to the figure, it is a view showing a catheter body deformed into a shape including a bend. A catheter device 10 used to select a branched artery of an aorta according to an embodiment of the present invention is a catheter device, which is a tube having an elongated shape and has a shape of bending, but has a shape inside the body. In the process of being inserted, the catheter body 100 is inserted into the blood vessel in the form of a date, and the catheter body 100 is inserted into the blood vessel in the form of a date, in order to transform it into a form that includes bending, One end is fixed to the catheter body 100, the catheter body 100 includes a guide wire 200 that passes through the interior and is drawn out to the tip of the catheter body 100, the guide wire 200 disposed outside the body By adjusting the other end of the, by transforming the catheter body 100 into a form used for the selection of the branched artery, including the flexion, the target is performed without repeating the process of advancing, reversing and rotating the catheter body 100 in the blood vessel. It is characterized by its constitution that it is possible to select the branched artery of the aorta.

That is, the catheter body 100, as shown in Figure 4, the catheter body 100 is inserted into the blood vessel in a straight, non-bending, non-bending form, so that it can easily pass through narrow blood vessels, and in a straight shape When the catheter body 100 inserted into the aorta reaches the aorta, in the aorta, a shape including a curve for selecting a branched artery targeting the catheter body 100 through pulling the guide wire 200, that is, In the form shown in Fig. 5, it is possible to easily deform without a complicated process.

The specific principle in which the catheter body 100 is deformed to include a bend by pulling the guide wire 200 drawn out to the tip of the catheter body 100 can be confirmed through FIG. 5. This is the length of the guide wire 200, which was equal to the distance between the first point 110 and the second point 120 of the catheter body 100 before pulling, after pulling the other end of the guide wire 200 As the distance between the first point 110 and the second point 120 of the body 100 becomes shorter, the first point 110 and the second point 120 are equal to the length of the shortened guide line 200. By using the principle of being closer, the first point 110 disposed on the catheter body 100 is bent toward the second point 120. Using this principle, the degree of bending of the catheter body 100 can be adjusted.

First, the catheter body 100, by inserting the end of the catheter body 100 into the body, serves to direct the target blood vessel or body organs. The catheter body 100 is a thin, elongated flexible tube, and can be easily deformed into a shape including a bend or a straight shape not including a bend. The catheter body 100 is inserted into the body in a straight shape as described in FIG. 4 and moved through a narrow blood vessel, and as illustrated in FIG. 5, a shape including a bend to select a branched artery in the aorta Is transformed into The catheter body 100 may be made of polyethylene and polypropylene, which are thermoplastic resins that are generally harmless to the human body, but are not limited thereto.

The first point 110 disposed at a point where the bending of the catheter body 100 starts, serves to fix one end of the guide wire 200 to the catheter body 100. That is, in the first point 110, when pulling the guide wire 200 from the tip of the catheter body 100, it serves to fix the guide wire 200 so as not to move. This is to move the first point 110 of the catheter body 100 to be finally moved by pulling the other end of the guide wire 200.

The second point 120 is a hole shape through which the guide wire 200 can pass, and is moved from the first point 110 at a predetermined distance in the direction of the tip of the catheter body 100, and is disposed at a point where the bending ends. In addition, the other end of the guide wire 200 having one end fixed to the first point 110 is introduced into the catheter body 100 and serves to pass through the interior of the catheter body 100. The second point 120 is disposed from a first point 110 of the catheter body 100, a point that is moved at a predetermined interval in the tip direction of the catheter body 100, and a second point from the first point 110 The interval up to 120 is not limited to a predetermined interval, and may be adjusted according to circumstances.

The guide wire 200 serves to deform the catheter body 100 inserted into the blood vessel into a form including bending. Specifically, one end is fixed to the first point 110, and is drawn into the interior of the catheter body 100 through the second point 120, and the other end of the guide wire 200 that is drawn is the catheter body 100 By pulling out the other end of the guide line 200, and pulling the other end of the guide line 200, the guide line 200 fixed to the first point 110 is pulled, and finally, the first point 110 is the second point By moving closer to (120), the catheter body (100) is bent in a form including flexion. The guide wire 200 may be formed of a wire, but is not limited thereto.

Depending on the embodiment, the bending of the catheter body 100 may be one or more, and when the bending is more than one, the guide line 200 for forming each bending may also be one or more. That is, the guide wire 200 for deforming the catheter body 100 into a shape including one or more bends may be one or more. In this case, the first point 110 and the second point 120 for fixing each guide wire 200 and drawing them into the catheter body 100 may also be one or more.

6 is a view illustrating an enlarged internal view of a catheter body in a catheter device used to select a branched artery of an aorta according to an embodiment of the present invention. As shown in Figure 6, in the catheter device 10 used to select a branched artery of the aorta according to an embodiment of the present invention, inside the catheter body 100, the tip of the catheter body 100 It may include an inner lumen 130 through which the wire drawn from the end and drawn out to the distal end of the catheter body 100 may pass. The guide wire 200 penetrating through the interior of the catheter body 100 passes through in close contact with the inner surface of the catheter body 100, or when the catheter body 100 includes the inner lumen 130, the catheter body ( Since it passes between the inner surface of the 100) and the outer surface of the inner lumen 130, it is possible to prevent the guide wire 200 and the wire from intertwining. The inner lumen 130 is in the form of a tube penetrating the inside of the catheter body 100, and the inner lumen 130 is not only a role of passing wires through the penetrating tube, but also a movement passage such as injection of drugs or contrast agents into the body. Can also play a role.

7 is a view illustrating a state in which a catheter device used to select a branched artery of an aorta according to an embodiment of the present invention is deformed into a shape including bending in a specific direction. As shown in Figure 7, the tip of the catheter body 100, when pulling the guide wire 200 to deform the catheter body 100 into a form including a bend, a guide portion for adjusting the direction of the bend It may further include (140). The first point 110, the second point 120, and the guide part 140 may be arranged side by side in a straight line.

The guide unit 140 is displayed on the tip of the catheter body 100 in an uneven manner or by a line of a specific color, so that the user can know the direction in which the bending of the catheter body 100 is bent. The user can easily know the direction in which the bending of the catheter body 100 inserted into the body is bent by checking the direction in which the guide unit 140 faces. For example, when the guide unit 140 faces to the right, when the guide wire 200 is pulled, the first point 110 disposed on the right side of the catheter body 100 is brought closer to the second point 120. Will be. Soon, since the first point 110 and the second point 120 are closer from the right, it can be expected that the bending of the catheter body 100 is bent to protrude to the left. Similarly, when the guide portion 140 is facing downward, it can be confirmed that the bending of the catheter body 100 is curved upward.

In addition, as shown in Figure 7, the other end of the guide wire 200 of the catheter device 10 used to select the branched artery of the aorta according to an embodiment of the present invention, the pulling of the guide wire 200 To facilitate this, the handle part 210 may be further included. The handle 210 is disposed at the other end of the guide wire 200, and is intended to facilitate pulling of the guide wire 200 so as to control the degree to which the user bends the catheter body 100. The handle unit 210 may be formed in a ring shape in which a user's finger can be hooked, or may be configured in a form that is easy for the user to grip.

In the catheter device 10 used to select a branched artery of an aorta according to an embodiment of the present invention, the guide wire 200 introduced into the catheter body 100 through the second point 120 is It can be drawn out through the tip of the catheter body 100. The lead wire 200 thus drawn may be connected to the angle adjustment lever 220. 8 is a view showing a catheter body including an angle adjustment lever in a catheter device used to select a branched artery of an aorta according to an embodiment of the present invention. As shown in Figure 8 (a), the catheter device 10 used to select a branched artery of the aorta according to an embodiment of the present invention, a guide wire () drawn out from the tip of the catheter body 100 ( The other end of the 200) may further include an angle adjustment lever 220. (b) is a state in which the degree of bending of the catheter body 100 is adjusted using the angle adjustment lever 220, and the adjustment of the angle adjustment lever 220 is a guide line 200 fixed to the angle adjustment lever 220. ) To control the length. That is, when the angle adjusting lever 220 is rotated in one direction, the guide wire 200 is wound around the angle adjusting lever 220 as much as it rotates, so that the effect is substantially the same as pulling the guide wire 200. Will occur. In this way, the length of the guide wire 200 is shortened by rotating the angle adjusting lever 220 in one direction, and the length of the guide wire 200 is increased by rotating the angle adjusting lever 220 in the other direction. By doing so, the catheter body 100 can be transformed into a shape including bending, and by rotating the angle adjustment lever 220 step by step, it is possible to adjust the degree of bending of the catheter body 100.

9 is a view for explaining a process of selecting a branched artery using a bending of a catheter body in a catheter device used to select a branched artery of an aorta according to an embodiment of the present invention. It can be confirmed that, unlike the conventionally used, six-step complex method shown in FIG. 2, the method of selecting the branched artery of the aorta using the present invention shown in FIG. 9 is a simple method. As shown in (a) of FIG. 9, after the catheter is sufficiently inserted into another large artery branching into the aorta in a straight shape, as in (b), the guide wire 200 is pulled to cause bending, and the original Since it can be transformed into a catheter shape, the catheter end can be easily directed to a target blood vessel. (c) is a state in which the wire enters through the inside of the catheter while maintaining the state in which the guide wire 200 is pulled, and by maintaining the bent shape of the catheter, it is possible to prevent the wire from escaping from the catheter.

10 is a flowchart of a method using a catheter device used to select a branched artery of an aorta according to an embodiment of the present invention. As shown in Figure 10, the method of using the catheter device 10 used to select the branched artery of the aorta according to an embodiment of the present invention, the catheter body 100 in the form of bending includes a date Deformed into a shape, inserted into a blood vessel in a modified date form (S100), and adjusting the other end of the guide wire 200 disposed outside the body, transforming the catheter body 100 into a shape including bending (S200) is characterized by its configuration.

Details related to the respective steps have been sufficiently described in connection with the catheter device 10 used to select a branched artery of the aorta according to an embodiment of the present invention, and thus detailed description will be omitted.

As described above, a catheter device used to select a branched artery of an aorta according to an embodiment of the present invention is a tube having an elongated shape and has a shape of flexion, but is inserted into the body. In the process, one end is fixed to the catheter body in order to transform the catheter body, which is deformed into a straight shape, inserted into a blood vessel in a deformed straight shape, and the catheter body inserted into a blood vessel into a straight shape, into a shape including a curve, Form used for the selection of branched arteries, including flexion of the catheter body, by adjusting the other end of the guide wire disposed outside the body by constructing a guide line that passes through the catheter body and the other end is drawn out to the tip of the catheter body. By deforming to, it is possible to easily select a branched artery of a target aorta by easily making a flexion of a catheter having a complicated shape within the aorta without repeating the catheter body forward, backward, and rotation processes in the blood vessel. In addition, by further comprising a guide portion at the tip of the catheter body, when pulling the guide line to deform the catheter body into a shape including a bend, it is possible to easily grasp the direction in which the bend is directed, thereby facilitating target blood vessels. Can be found. In addition, by using the guide wire, it is configured to maintain the bent shape of the catheter body, and after selecting the target blood vessel, in the process of entering the wire, it is possible to maintain the bending of the catheter, so that the wire and the catheter are separated Can be prevented.

The present invention described above can be variously modified or applied by a person having ordinary knowledge in the technical field to which the present invention belongs, and the scope of the technical idea according to the present invention should be defined by the following claims.

10: catheter device used to select the branch artery of the aorta according to an embodiment of the present invention
100: catheter body
110: first point
120: second point
130: inner lumen
140: guide unit
200: guide line
210: handle
220: angle adjustment lever

Claims (20)

As a catheter device,
A tube having an elongated shape and flexible, having a shape including a bend, but in the process of being inserted into the body, it is deformed into a straight shape, and a catheter body is inserted into a blood vessel in a deformed straight shape; And
In order to deform the catheter body inserted into the blood vessel in the date form into a form including a bend, one end is fixed to the catheter body, and the guide wire is drawn through the catheter body and the other end is drawn out to the tip of the catheter body. Including,
By adjusting the other end of the guide wire disposed outside the body to transform the catheter body into a shape used for the selection of the branched artery, including the flexion, without repeating the process of advancing, reversing or rotating the catheter body in the blood vessel. , To select the branch artery of the target aorta,
The front end of the catheter body further includes a guide portion for adjusting the direction of the bend when the guide wire is pulled to deform the catheter body into a shape including the bend,
The guide portion,
In order to allow the user to easily know the direction in which the bend of the catheter body is bent, a line of a specific color is further displayed on the tip of the catheter body in an uneven manner,
The guide wire,
To facilitate the pulling of the guide wire, it is connected to a handle part of a ring shape that can easily hang a user's finger, or to allow the other end of the guide wire to be fixed to the angle adjustment lever.
Adjustment of the angle adjustment lever,
Deformation of the catheter body into a form including bending by using the principle that the length of the guide wire is shortened by rotating the angle adjusting lever in one direction, and the length of the guide wire is increased by rotating the angle adjusting lever in the other direction. Can do it,
The catheter body,
It is made of polyethylene and polypropylene, which are thermoplastic resins that are harmless to the human body.
The catheter body,
It includes a first point disposed at a point where the bending of the catheter body starts, and a second point disposed at a point where the bending ends, which is moved by a predetermined distance from the first point toward the tip of the catheter body, The guide wire, one end is fixed to the first point, is drawn into the interior of the catheter body through the second point, the other end of the lead wire is drawn out to the tip of the catheter body, the other end of the guide wire By pulling, the first point is brought closer to the second point, so that the catheter body is deformed to include a curve,
The first point disposed at the point where the bending of the catheter body starts serves to fix one end of the guide line to the catheter body, and the second point is a hole shape through which the guide line can pass, and one end at the first point. The other end of the fixed guide wire is introduced into the catheter body and serves to pass through the catheter body.
The catheter body has at least one bend, The guide line for deforming the catheter body into a shape including one or more bends is one or more,
The inside of the catheter body includes an inner lumen through which a wire drawn from the tip end of the catheter body and drawn out to the distal end of the catheter body can pass through.
The guide line penetrating the inside of the catheter body passes in close contact with the inner surface of the catheter body, or when the catheter body includes an inner lumen, passes between the inner surface of the catheter body and the outer surface of the inner lumen and the guide line. Prevent the wires from entanglement,
The internal lumen is a form of a tube penetrating the inside of the catheter body, and serves to pass a wire through the penetrating tube, and serves to move the drug or contrast agent into the body, and select a branched artery of the aorta. Catheter device used to do. delete delete delete delete delete delete delete delete delete delete delete delete delete delete delete delete delete delete delete

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