KR101602400B1 - Method for manufacturing stent - Google Patents

Abstract

Since the stent according to the present invention does not have a separate strut, the axial force of the stent is reduced as compared with the conventional stent having the strut, so that the stent inserted into the treatment site maintains a curved shape It is possible.
Therefore, the stent manufactured by the present invention is suitable for insertion in a flexible digestive tract and can reduce the metal fatigue of the wire due to the axial force, thereby increasing the life of the wire and stabilizing it for a long time in the bending digestive organs And can be fixed and held.

Description

[0001] METHOD FOR MANUFACTURING STENT [0002]

The present invention relates to a method for manufacturing a stent.

Generally, a stent is a luminal expansion mechanism used for expanding a narrowed passage due to stenosis, and is widely used for helping cancer or vascular disease. The stent performed in the patient's body forms a strong frictional force with a vein or a duct in the constricted body so as not to be separated from the initial installation position due to an external force or pressure acting in the body.

A stent structure in which a spiral strut is formed by continuously twisting an extra wire to a part of a wire constituting the stent body has been developed as a method for maintaining the diameter and the installation state of the stent firmly fixed to the lesion for a long time, Korean Patent Publication No. 10-0319663 discloses a stent having a strut.

The stent structure having the stanchion has a characteristic that the stent is wound in a straight line by increasing the elasticity of the stent in a radial direction from the center of the stent because a separate wire is wound around the wire constituting the stent body to form a helical strut .

If a stent with a strut is inserted into a bifurcated digestive organs such as the large intestine or duodenum, the shape of the stent is temporarily deformed due to the bending of the digestive tract. However, due to the axial force, There is a disadvantage that both ends of the stent are squeezed into the lesion tissue and the first insertion position is deviated.

This disadvantage of the stent with a pedestal has the risk of perforating depending on the site of the procedure due to the penetration of the bruised digestive tract in the course of restoring the stent straight.

In addition, when a stent with a pedestal is formed, the stent is bent like a large intestine or duodenum, and as the initial shape of the stent is deformed, the metal fatigue of the wire due to axial force is increased and the life of the wire is shortened.

Therefore, it is required to develop a stent technique which can be stably fixed and held at the insertion position even when inserted into a digestive organs with bending.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a stent technique that can be stably fixed and held at an insertion position.

The present invention has been made in view of the above problems, and it is an object of the present invention to provide an apparatus and method for controlling the same.

According to an aspect of the present invention, there is provided a method of manufacturing a stent, comprising the steps of: winding a first wire along a circumferential surface of a stent-making jig provided in a cylindrical shape in a zigzag manner; Step A constituting a plurality of peak portions and valley portions in the two-point direction; The first wire being staggered from the second point to the first point and forming a plurality of peak portions and a valley portion to form a first cylinder; A step C in which a second wire is wound in a zigzag fashion from a third point spaced apart from the first point and downward to constitute a plurality of peak portions and a valley portion; And D) winding the second wire in a zigzag fashion from a fourth point to a third point where the step C is completed and forming a plurality of peak portions and a valley portion to form a second cylinder; . ≪ / RTI >

In the step C, the third point may be located in a space between the peak portion or the valley portion adjacent to the longitudinal direction of the jig among the plurality of peak portions or the valley portion formed by the first wire.

In addition, the peak portion and the valley portion formed in Step B may be arranged so as to overlap each other at a point where they meet with the valley portion and the peak portion formed in Step A,

Further, the peak portion and the valley portion formed in each step may be connected to each other by one or more straight portions.

In step B, the rectilinear portion formed when the first wire is wound in a staggered manner from the second point to the first point may cross over the upper or lower portion of the rectilinear portion formed in the step A.

Further, in the steps B and D, one or more straight portions having the same length may be wound so as to form a peak portion or a valley portion at regular intervals, and both ends of each cylinder may be finished.

In the step A, a first pattern having three peak portions and a valley portion is formed at least once, and the first pattern includes a first peak portion; A second peak portion spaced apart from the first peak portion and positioned on the same horizontal line as the first peak portion; A first valley portion formed between the first peak portion and the second peak portion; A third peak located on the same horizontal line as the first valley; A second valley portion formed between the first peak portion and the third peak portion; And a third valley portion located on the same horizontal line as the second valley portion and connected to the third peak portion; . ≪ / RTI >

In step B, a second pattern formed symmetrically with the first pattern may be formed one or more times.

In the step C, a third pattern having three peak portions and a valley portion is formed at least once, and the third pattern includes a seventh peak portion; An eighth peak portion spaced apart from the seventh peak portion and positioned on the same horizontal line as the seventh peak portion; A seventh valley portion formed between the seventh peak portion and the eighth peak portion; An eighth valley portion located on the same horizontal line as the seventh valley portion and connected to the eighth peak portion; A ninth valley positioned on the same horizontal line as the eighth peak; And a ninth peak portion formed between the eighth valley portion and the ninth valley portion; . ≪ / RTI >

In the step D, a fourth pattern having three peak portions and a valley portion is formed at least once, and the fourth pattern includes a tenth peak portion; An eleventh peak portion spaced apart from the tenth peak portion and located on the same horizontal line as the tenth peak portion; A tenth valley portion formed between the tenth peak portion and the eleventh peak portion; An eleventh valley portion located on the same horizontal line as the tenth valley portion and connected to the tenth peak portion; A twelfth peak portion located on the same horizontal line as the eleventh valley portion; And a twelfth valley portion formed between the eleventh and twelfth peak portions; . ≪ / RTI >

As described above, according to the present invention, because no additional strut is formed on the stent, the axial force is reduced compared to the existing stent having the strut, and the stent inserted into the treatment site can be kept bent.

Therefore, the stent manufactured by the present invention is suitable for insertion in a flexible digestive tract and can reduce the metal fatigue of the wire due to the axial force, thereby increasing the life of the wire and stabilizing it for a long time in the bending digestive organs And can be fixed and held.

The effects of the present invention are not limited to the effects mentioned above, and other effects not mentioned can be clearly understood by those skilled in the art from the description of the claims.

FIG. 1 is a view showing a state in which a first wire is wound in a staggered manner from a first point to a second point, according to an embodiment of the present invention.
FIGS. 2 and 3 illustrate a method of manufacturing a stent according to an embodiment of the present invention, in which a first wire is wound in a zigzag from a second point to a first point. FIG.
4 is a view illustrating a state in which a second wire is wound in a staggered manner from a third point to a fourth point, according to an embodiment of the present invention.
FIGS. 5, 6, and 7 show a method of manufacturing a stent according to an embodiment of the present invention, in which a second wire is wound in a staggered manner from a fourth point toward a third point.
FIG. 8 is a view illustrating a state in which a second wire is wound in a zigzag shape to finish one end of a cylinder, according to an embodiment of the present invention.
9 is a front view of a stent according to an embodiment of the present invention.
10 is a flowchart illustrating a stent manufacturing method according to an embodiment of the present invention.

The preferred embodiments of the present invention will be described in more detail with reference to the accompanying drawings, in which the technical parts already known will be omitted or compressed for simplicity of explanation.

A method of manufacturing a stent according to an embodiment of the present invention will be described with reference to FIGS. 1 to 10, and will be described for convenience of explanation.

1. Step A (S101)

In this step, the process of winding the first wire 10 in a zigzag manner proceeds along the circumferential surface of the stent-forming jig J provided in a cylindrical shape. That is, the first wire 10 is wound from the first point on one end of the jig to the second point on the other end, and is engaged with the fixing pin F to constitute a plurality of peak portions and valley portions.

Any adjacent peak portions and valley portions are connected to each other by one or more rectilinear portions (170, 180, 190). For example, the second peak portion 120 and the first valley portion 140 are connected through the straight portion 170.

In this step, when the first wire 10 is wound in a zigzag manner along the circumferential surface of the jig, the first pattern 100 having three peak portions and valley portions is formed at least once.

In this specification, the first peak portion 110, the second peak portion 120, the third peak portion 130, the first valley portion 140, the second valley portion 150, the third valley portion 160, A portion of the first wire 10 having straight portions 170, 180 and 190 connecting between the peak portions and the valley portions will be referred to as a first pattern 100 for convenience of explanation.

That is, the first pattern 100 includes a first peak 110, a second peak 120, a third peak 130, a first valley 140, a second valley 150, 3 valley portion 160, and a plurality of rectilinear portions 170, 180, and 190, respectively.

As shown in FIG. 1, the second peak portion 120 is spaced apart from the first peak portion 110 and is formed on the same horizontal line as the first peak portion 110. Here, the horizontal line means a line perpendicular to the longitudinal direction of the jig.

The first valley portion 140 is formed between the first peak portion 110 and the second peak portion 120 and the third peak portion 130 is formed on the same horizontal line as the first valley portion 140 do. The second valley portion 150 is formed between the first peak portion 110 and the third peak portion 130. The third valley portion 160 is located on the same horizontal line as the second valley portion 150 and is connected to the third peak portion 130 through the straight portion 190.

2. Step B < S102 >

In this step, the first wire 10 is wound in a staggered manner from the second point to the first point to form a plurality of peaks and valleys to form the first cylinder.

In this step, when the first wire 10 is wound in a zigzag manner along the circumferential surface of the jig, the second pattern 200 having three peak portions and the valley portion is formed at least once, 1 pattern 100 and a left-right symmetrical shape.

That is, the second pattern 200 includes the fourth peak portion 210, the fifth peak portion 220, the sixth peak portion 230, the fourth valley portion 240, the fifth valley portion 250, 6 valley portion 260 and a plurality of rectilinear portions 270, 280, and 290.

The plurality of peak portions and valley portions formed in this step are interlinked and looped and joined at the points where they meet with the plurality of valley portions and the peak portions formed in Step S101.

In addition, in this step, a plurality of rectilinear portions formed when the first wire 10 is wound in a staggered manner from the second point to the first point cross over the upper or lower portions of the plurality of rectilinear portions formed in Step S101.

In this step, when the first wire 10 reaches the first point, one or more straight portions having the same length are wound at regular intervals to form a peak portion or a valley portion, thereby completing one end of the first cylinder.

3. Step C <S103>

In this step, the second wire 20 is wound in a zigzag fashion from the third point to the fourth point apart from the first point, and a plurality of peak portions and valley portions are formed.

Here, the third point may be located in a space between the peak portions or the valley portions adjacent to each other in the longitudinal direction of the jig, among the plurality of peak portions formed by the first wire 10 or the valley portion, as shown in Fig. 4 .

In this step, a third pattern 300 having three peak portions and valley portions is formed at least once, and the third pattern 300 is formed at the seventh peak portion 310, the eighth peak portion 320, A seventh valley portion 340, an eighth valley portion 350, a ninth valley portion 360 and a plurality of rectilinear portions 370, 380 and 390.

As shown in FIG. 4, the eighth peak portion 320 is spaced apart from the seventh peak portion 310 and is formed on the same horizontal line as the seventh peak portion 310.

The seventh valley portion 340 is formed between the seventh peak portion 310 and the eighth peak portion 320. The eighth valley portion 350 is located on the same horizontal line as the seventh valley portion 340 and passes through the eighth peak portion 320 and the ninth peak portion 330 and the straight portions 370 and 380 .

The ninth valley portion 360 is located on the same horizontal line as the eighth peak portion 320 and the ninth peak portion 330 is formed between the eighth valley portion 350 and the ninth valley portion 360 .

Meanwhile, in this step, the second wire 20 can form the third pattern 300 on the first wire 10 without interfering with or crossing the first wire 10 forming the first cylinder.

4. Step D <S104>

In this step, the second wire 20 is wound in a staggered manner from the fourth point to the third point, and a plurality of peaks and valleys are formed to form the second cylinder.

In this step, when the second wire 20 is wound in a zigzag manner along the circumferential surface of the jig, the fourth pattern 400 having three peak portions and valley portions is formed at least once, 10th peak part 410, the 11th peak part 420, the 12th peak part 430, the 10th valley part 440, the 11th valley part 450, the 12th valley part 460, (470, 480, 490).

As shown in FIG. 6, the eleventh peak portion 420 is spaced apart from the tenth peak portion 410 and is formed on the same horizontal line as the tenth peak portion 410.

The tenth valley portion 440 is formed between the tenth peak portion 410 and the eleventh peak portion 420. The eleventh valley portion 450 is located on the same horizontal line as the tenth valley portion 440 and is connected to the tenth peak portion 410 through the rectilinear portion 470.

The twelfth peak portion 430 is located on the same horizontal line as the eleventh valley portion 450 and the twelfth valley portion 460 is formed between the eleventh peak portion 420 and the twelfth peak portion 430 . The twelfth valley portion 460 is positioned below the tenth valley portion 440 and the eleventh valley portion 450.

On the other hand, a plurality of peak portions and valley portions formed in this step are interlinked to each other at a point where they meet with a plurality of valley portions and peak portions formed in Step S103, and are looped and joined.

In addition, the first and second cylinders may be integrally formed by intersecting the plurality of rectilinear portions formed in the present step over the upper or lower portions of the plurality of rectilinear portions formed until Step S103.

8, when the second wire 20 passes through the third point in this step, one or more straight portions having the same length are wound at regular intervals to form a peak portion or a valley portion, Thereby completing one end portion

Finally, the second wire 20 terminates at the third point and is welded or interwoven with the beginning of the second wire 20 which meets at the third point, which is the end point, to complete the stent 1.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments. And the scope of the present invention should be understood as the following claims and their equivalents.

1: stent
10: first wire
100: first pattern
110: first peak portion
120: second peak portion
130: third peak portion
140: first valley part
150: second valley
160: Third valley
170, 180, 190:
200: second pattern
210: fourth peak portion
220: fifth peak portion
230: sixth peak portion
240: fourth valley
250: fifth valley part
260: sixth valley
270, 280, 290:
20: second wire
300: third pattern
310: the seventh peak portion
320: Eighth peak portion
330: ninth peak portion
340: seventh valley part
350: eighth valley part
360: 9th Valley
370, 380, 390:
400: fourth pattern
410: the tenth peak portion
420: the eleventh peak portion
430: the twelfth peak portion
440: 10th valley part
450: eleventh valley part
460: the twelfth valley part
470, 480, 490:
J: Jig for stent production
F: Retaining pin

Claims (10)

A step A of constituting a plurality of peak portions and a valley portion in a direction from a first point on one end of the jig to a second point on the other end of the jig in which the first wire is wound in a zigzag manner along the circumferential surface of a stent production jig provided in a cylindrical shape;
The first wire being staggered from the second point to the first point and forming a plurality of peak portions and a valley portion to form a first cylinder;
A step C in which a second wire is wound in a zigzag fashion from a third point spaced apart from the first point and downward to constitute a plurality of peak portions and a valley portion; And
(D) winding the second wire in a staggered manner from the fourth point to the third point where the step (C) is completed, and forming a plurality of peak portions and a valley portion to form a second cylinder; / RTI &gt;
In the step A, a first pattern having three peak portions and a valley portion is formed at least once,
Wherein the first pattern comprises:
A first peak portion;
A second peak portion spaced apart from the first peak portion and positioned on the same horizontal line as the first peak portion;
A first valley portion formed between the first peak portion and the second peak portion;
A third peak located on the same horizontal line as the first valley;
A second valley portion formed between the first peak portion and the third peak portion; And
A third valley portion located on the same horizontal line as the second valley portion and connected to the third peak portion; / RTI &gt;
The peak and the valley portion formed in Step B are formed at a position where they meet with the valley portion and the peak portion formed in Step A, Crossed and looped in the form of a ring,
In the step C, the third point is located in a space between the peak portion or the valley portion adjacent to the longitudinal direction of the plurality of peak portions or valleys formed by the first wire,
In the step C, a third pattern having three peak portions and a valley portion is formed at least once,
In the third pattern,
7 peaks;
An eighth peak portion spaced apart from the seventh peak portion and positioned on the same horizontal line as the seventh peak portion;
A seventh valley portion formed between the seventh peak portion and the eighth peak portion;
An eighth valley portion located on the same horizontal line as the seventh valley portion and connected to the eighth peak portion;
A ninth valley positioned on the same horizontal line as the eighth peak; And
A ninth peak portion formed between the eighth valley portion and the ninth valley portion; / RTI &gt;
Wherein the peak and valley portions formed in Step D are formed at a position where they meet with the valley portion and the peak portion formed in Step C, Characterized in that it is cross-linked and looped
A method for manufacturing a stent. delete delete The method according to claim 1,
Wherein the peak portion and the valley portion formed in each step are connected to each other by one or more straight portions
A method for manufacturing a stent. 5. The method of claim 4,
The linear portion formed when the first wire is wound in a staggered manner from the second point to the first point in the step B intersects the upper or lower side of the straight portion formed in the step A,
A method for manufacturing a stent. The method according to claim 1,
In the steps B and D, at least one linear portion having the same length is wound so as to form a peak portion or a valley portion at a predetermined interval to finish both ends of each cylinder
A method for manufacturing a stent. delete delete delete The method according to claim 1,
The fourth pattern
A tenth peak portion;
An eleventh peak portion spaced apart from the tenth peak portion and located on the same horizontal line as the tenth peak portion;
A tenth valley portion formed between the tenth peak portion and the eleventh peak portion;
An eleventh valley portion located on the same horizontal line as the tenth valley portion and connected to the tenth peak portion;
A twelfth peak portion located on the same horizontal line as the eleventh valley portion; And
A twelfth valley portion formed between the eleventh and twelfth peak portions; &Lt; RTI ID = 0.0 &gt;
A method for manufacturing a stent.

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