JP2001161827A - Stent - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a stent wherein damage to a blood vessel caused by flare phenomenon when it meanders in the blood vessel can be suppressed as little as possible and resistance when clipping to a balloon is performed can be decreased. SOLUTION: In a stent 1 formed into an approximately cylindrical body and stretchable in the radial direction from the inside of the cylindrical body, an annular unit 4 is constituted in such a way that constituent elements 2 respectively constituted by connecting four pieces of approximately wave-like constituent elements 6 (6A) with each other up and down and left and right around a point O as a center are connected with other constituent elements 2 up and down through connecting parts 3 and arranging a plurality of them so as to surround the central axis of the stent 1, and a plurality of the annular units 4 are extended in the axial direction of the stent and the annular units 4 are connected with each other at one or more positions each with a connecting part 5 consisting of an approximately straight line part 7 and bending parts 8.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an improvement in a stent used for improving a stenosis in a living body such as a blood vessel.

[0002]

2. Description of the Related Art FIG.
FIG. 21 shows the currently used stents 201 and 22.
1, 241, and 261 (FIGS. 18 to 20).
(A) is before expansion, (B) is after expansion, and FIG. 21 is a plan view before expansion). Each stent 201, 221, 241, 261
Had the following issues: The stent 201 shown in FIG. 18 has the curved portion 20 of the component 206 constituting the annular unit 204.
6A constitutes another annular unit 204
6 is located in the vicinity of the space 206B,
(A) The component 206 is inserted while drawing a curve at the bent portion of the blood vessel during delivery in the portion A.
There is a high possibility that some of them will protrude and get caught. (B)
Slightly weak (prone to restenosis) to radially applied forces. The stent 221 in FIG.
Since the curved portions 226A of the constituent elements 226 constituting the component 4 are arranged in a line in the axial direction of the stent 221 so as to face each other, (a) is inserted while drawing a curve at the curved portion of the blood vessel during delivery at the portion B. So component 2
There is a high possibility that a part of 26 will be protruded and be caught.
(B) Slightly weak against the force applied in the radial direction (it is easy to restenosis). (C) Since the connecting portion 225 is asymmetrically arranged in the axial direction and the radial direction of the stent 221, the torsion easily occurs during expansion. (D) The greater the expansion, the shorter the overall stent length. Stent 2 of FIG.
41 has a (a) lack of flexibility because the area of each component 246 constituting the annular unit 244 is small and the length of the connecting portion 245 is short. (B) During expansion, the required pressure applied to the balloon catheter increases. (C)
The greater the expansion, the shorter the overall stent length.
When the stent 261 of FIG. 21 clips the stent to the balloon catheter,
The curved portion 266A of the component 266 constituting the annular unit 264 is reduced to about 0.85 mm.
And the curved portion 265A of the connecting portion 265 are arranged close to each other, so that the portion D overlaps because the interval is small. Therefore, unlike the original physical properties, damage to the blood vessel wall and the flare phenomenon are likely to occur. The present inventors have conducted intensive studies in order to solve the above-mentioned problems, and as a result, have reached the following invention.

[0003]

Means for Solving the Problems [1] The present invention relates to a stent 1 formed in a substantially tubular body and expandable in the radial direction from the inside of the tubular body. The component 2 constituted by connecting the component 6 (6A) of the shape up, down, left and right is connected to the other component 2 via the connection portion 3.
Are connected up and down to form a plurality of annular units so as to surround the central axis of the stent 1. The plurality of annular units 4 extend in the axial direction of the stent 1, and the annular units 4 are connected to each other. Provided is a stent 1 in which at least one portion is connected by a connecting portion 5 including a substantially straight portion 7 and a bent portion 8. [2] According to the present invention, the connecting portion 5 is provided with a substantially linear portion 7 (7
L) is connected to the other substantially linear portions 7 (7S) via the two bent portions 8 (8U, 8L) on both sides, and the ends of the other substantially linear portions 7 (7S) are connected. The stent 1 according to [1], wherein the stent 1 is connected to the ends of the components 6 constituting the different annular units 4 via the portions 9.
I will provide a. [3] The present invention relates to a method of forming a component 6A above and below the component 2.
Is curved rightward or leftward in the axial direction of the stent, and the curved substantially wave-shaped component 6A is formed vertically symmetric with respect to the center line C2 of the component 2 in the stent radial direction [1]. Or a stent 1 according to [2]. [4] In the present invention, the components 2 having the upper and lower components 6A are arranged in four directions of the stent radius so that the bending direction of the upper and lower components 6A is alternately left and right every other component 2. A stent 1 according to any one of [1] to [3] is provided. [5] The present invention provides the stent 1 according to any one of [1] to [4], wherein the bent portion 8 is formed to be thinner than other components of the stent. [6] In the present invention, the connecting portion 5 has two bent portions 8 (8
U, 8L) is provided in the stent radial direction [1] to [5], wherein the stent 1 is disposed in the radial direction of the stent such that the left and right positions are alternately arranged every other connecting portion 5. [7] The present invention relates to a stent 21 which is formed in a substantially tubular body and is radially expandable from the inside of the tubular body. An annular unit 24 is formed by vertically connecting the other components 26 through a connecting portion 23 comprising a bent portion 27 and a plurality of the annular components 24 so as to surround a central axis of the stent 21. A unit 24 extends in the axial direction of the stent 21 and the annular unit 24
The stents 21 are connected to each other by a connecting portion 25 having at least one bent portion 25A. [8] The present invention provides the stent 21 according to [7], wherein an end of the connecting portion 25 is connected to an end of the component 26 constituting a different annular unit 24 via a connecting portion 29. provide. [9] The present invention provides the stent 21 according to [7] to [8], wherein the width of the curved component 26 and the connecting portion 23 is formed larger than the width of the connecting portion 25. [10] In the present invention, the connecting portion 25 is formed so as to be shorter in the axial direction of the stent than in the radial direction of the stent when the stent is expanded, so as to approach a straight line in the axial direction of the stent. The stent 21 according to [7] to [9] is provided. [11] The present invention provides the curved component 26, wherein the number of stents in the axial direction is larger than the number of stents in the radial direction,
The connecting portions 25 of the component 26 are alternately arranged with the component 26 in units of two in the radial direction of the stent [7] to [1].
0] is provided. [12] The present invention relates to a connecting portion 25 constituting the two units.
The stent 21 according to any one of [7] to [11], wherein the distance D between them is at least 0.3 mm or more. [13] The present invention relates to a stent 41 formed in a substantially tubular body and expandable in the radial direction from the inside of the tubular body. Above and below the component 42 that is connected by lower, upper left, and lower left, a connecting portion 43 formed by connecting a substantially linear portion 43B to the upper right, lower right, upper left, and lower left of the substantially corrugated portion 43C. An annular unit 44 is constituted by connecting a plurality of other components 42 up and down via a central axis of the stent 41 by vertically connecting the other components 42 via the central axis of the stent 41. The plurality of annular units 44 extend in the axial direction of the stent 41. , The annular units 44 are located at the upper right, lower right,
Provided is a stent 41 connected by at least one or more connecting portions 45 formed by connecting the substantially straight portions 45B to the upper left and lower left. [14] According to the present invention, the substantially wave-shaped component 46 is bilaterally symmetric with respect to the center line C1 of the component 42 in the stent radial direction, and vertically symmetrical with respect to the center line C2 of the component 42 in the stent axial direction. The formed stent 41 according to [13].
I will provide a. [15] In the present invention, the connecting portion 43 is bilaterally symmetric with respect to the center line C3 of the connecting portion 43 in the stent radial direction, and the connecting portion 4
5 provides the stent 41 according to [13] to [14], which is formed symmetrically with respect to the center line C4 of the connecting portion 45 in the stent radial direction. [16] The present invention provides the stent according to any of [13] to [15], wherein the substantially wave-shaped component 46 is formed in a space partitioned between the point O, the center line C1, and the center line C2. 41 is provided. [17] The present invention relates to a stent 61 which is formed in a substantially tubular body and can be radially expanded from the inside of the tubular body. The other component 62 is vertically connected via a connecting portion 63 composed of two substantially straight portions 63A above and below the component 62 configured by connecting the lower, upper left, and lower left portions. An annular unit 64 is formed by arranging a plurality of annular units so as to surround the central axis. The plurality of annular units 64 extend in the axial direction of the stent 61, and at least one of the annular units 64 has a substantially linear portion 65B.
And a stent 61 connected by a connecting portion 65 including a bent portion 65A. [18] In the present invention, the substantially wave-shaped component 66 is symmetrical about the center line C1 of the component 62 in the stent radial direction, and vertically symmetrical about the center line C2 of the component 62 in the stent length direction. The stent 61 according to [17], wherein the stent 61 is formed as described above. [19] The present invention is characterized in that the connecting portion 65 is provided with a central bent portion 65.
A is formed by connecting the other bent portion 65A and the substantially straight portion 65B via the substantially straight portion 65B on both sides of A, respectively, and the end of the other substantially straight portion 65B is connected to the connection portion 63 [ 17] to [18].
Provide 1. [20] The present invention provides the stent 61 according to any one of [17] to [19], wherein the connecting portion 65 is formed symmetrically with respect to a center line C3 of the connecting portion 65 in the radial direction of the stent. [21] The present invention provides a structure in which 66
A plurality of components 62A, which are formed by connecting substantially wave-shaped components 66B above and below C, are connected vertically to other components 62A via connecting portions 63B so as to surround the central axis of the stent 61. By arranging the annular unit 64A, the annular unit 64A is connected to the connecting portion 65.
The stent 61 according to any one of [17] to [20], which is connected to the annular unit 64 through the slab. [22] The present invention provides the stent 61 according to any one of [17] to [21], wherein the substantially linear portion 65B of the connecting portion 65 and the connecting portion 63B are connected. [23] The present invention relates to a stent 81 which is formed in a substantially tubular body and is radially expandable from the inside of the tubular body, and is connected above and below a substantially S-shaped component 86 having a plurality of bent portions 86A. An annular unit 84 is formed by vertically connecting the other components 86 via a portion 83 to surround the central axis of the stent 81, and the annular units 84 are arranged in the axial direction of the stent 81. The annular unit 84 provides a stent 81 in which at least one of the annular units 84 is connected by a curved connecting portion 85. [24] The present invention provides the stent 81 according to [23], wherein the connecting portion 85 is formed with a space S for each one in a radial direction of the stent. [25] In the present invention, the constituent element 86 includes a small loop portion 86D composed of a bent portion 86A and a curved portion 86B and a large loop portion 8.
The stent 8 according to any one of [23] to [24], wherein the stent 8 is connected to the center portion 6E via a central curved portion 86B.
Provide 1. [26] In the present invention, one end of the connecting portion 85 may be a component 8
6 is connected to the end of the curved portion 86B of the small loop portion 86D, and the other end of the connecting portion 85 is connected to the curved portion 86B of the large loop portion 86E of the component element [23] to [25]. The described stent 81 is provided. [27] In the present invention, a substantially S-shaped component 96 having short curved portions 96C at both ends in the axial direction of the stent 81 is vertically connected via a connecting portion 93 so as to surround the central axis of the stent 81. By arranging a plurality of annular units 84
A, wherein the annular unit 84A is connected to the annular unit 84 via the connecting portion 85 [23].
Or a stent 81 according to [26]. [28] In the present invention, the constituent element 96 includes a large loop portion 96E including a bent portion 96A and a curved portion 96B and a bent portion 96A.
And a substantially waveform portion 96D formed by a short curved portion 96C and a central curved portion 96B [2]
3] to [27]. [29] The present invention relates to a large loop portion 96 of the component 96.
E is described in [23] to [28] in which E is arranged alternately with the substantially corrugated portion 96D in the radial direction of the stent, and the bent portions 96A of the large loop portion 96E are located at both ends in the axial direction of the stent. Is provided. [30] In the present invention, the stent 81 according to any one of [23] to [29], wherein the connecting portion 83 of the component 86 is formed with a space S for each one in the radial direction of the stent.
Provide A.

[0004]

FIG. 1 is a plan view of a stent 1 of the present invention (FIG. 2 is a detailed view of components of FIG. 1, and FIG. 3 is a plan view of FIG. 1 after expansion). The stent 1 is formed in a substantially tubular body and can be extended in the radial direction from the inside of the tubular body. By connecting four substantially wave-shaped components 6 (6A) around the point O, up, down, left and right The annular unit 4 is constituted by connecting the constituent elements 2 to each other up and down via the connecting part 3 and arranging a plurality of the constituent elements 2 so as to surround the central axis of the stent 1. 4 is extended in the axial direction of the stent 1, and at least one of the annular units 4 is connected by a connecting portion 5 including a substantially straight portion 7 and a bent portion 8.

The connecting portion 5 is formed by connecting other short substantially straight portions 7S to both sides of a long central straight portion 7L via two bent portions 8 (upward bent portion 8U and downward bent portion 8L). The ends of the other short substantially straight portions 7S are connected to the ends of the components 6 constituting the different annular units 4 via the connecting portions 9. Connection part 5
Is formed as described above, damage in the blood vessel due to the flare phenomenon when meandering in the blood vessel can be suppressed as much as possible. Further, as shown in FIG.
The left and right components 6 are formed by forming L as component 2.
By setting the length to 6L (e.g., 1.45 mm), preferably equal or longer (e.g., 1.62 mm), foreshortening during expansion can be prevented.

The left and right components 6 of the connecting portion 2 are asymmetric with respect to the center line C1 of the component 2 in the stent axial direction (for example, the left is long, the right is short, or the right is long and the left is short).
Is formed. Component 6 above and below component 2
A is curved rightward or leftward in the axial direction of the stent, and the curved substantially corrugated component 6A is formed symmetrically with respect to the center line C2 of the component 2 in the stent radial direction. Flexibility can be ensured by bending the substantially wave-shaped component 6A. Left and right component 6
Is located on the line between the point O and the center line C2, and the upper and lower components 6A are located on the line between the point O and the center line C1. The left and right components 6 and the connecting portion 9 are located on the line between the point O and the center line C2, but the ends of the upper and lower components 6A and the connecting portion 3 are located off the point O and the center line C1. is there.
The components 2 having the upper and lower components 6A are arranged in the radial direction of the stent such that the bending directions of the upper and lower substantially wave-shaped components 6A are alternately left and right every other component 2.

The thickness of the bent portion 8 (upward bent portion 8U, downward bent portion 8L) is formed thinner than other components of the stent 1. Thereby, flexibility in expanding the stent in the axial direction can be secured. The connecting portions 5 are arranged in the radial direction of the stent such that the positions of the two bent portions 8 (upward bent portions 8U and downward bent portions 8L) are alternately left and right every other connecting portion 5. As described above, the balloon 2 is arranged by alternately arranging the component 2 having the substantially wave-shaped component 6A and the connecting portion 5 having the two bent portions 8 (upward bent portion 8U and downward bent portion 8L) in the stent radial direction. In addition, the resistance at the time of clipping can be reduced.

In consideration of workability and performance, the number of components 2 arranged in the radial direction is preferably 4 or more in the radial direction for a stent having a diameter of 3 mm or more after expansion, for example, a stent having a diameter of 3.5 mm after expansion. Then 4 to 8 are good. In the axial direction, 8 to 12 are preferable for a 15 mm long stent, and for example, 1 to 20 mm for a stent.
It is good to arrange from 0 to 15 pieces.

FIG. 4 is a plan view of the stent 21 of the present invention (FIG. 5 is a detailed view of the components of FIG. 4, and FIG. 6 is a plan view of FIG. 4 after expansion). The stent 21 is formed in a substantially tubular body and is extendable in the radial direction from the inside of the tubular body. The stent 21 includes a substantially linear portion 27 and a bent portion 28 above and below a curved component 26 having a plurality of bent portions 26A. An annular unit 24 is formed by connecting a plurality of the other components 26 up and down via the connecting portion 23 and surrounding the central axis of the stent 1 by a plurality of components. The annular unit 24 is connected to the connecting unit 2 having at least one or more bent portions 25A.
5 are connected.

The connecting portion 25 is formed by alternately forming upwardly bent portions 25A and downwardly bent portions 25A.
5, the bent portion 25A of the upper connecting portion 25 and the lower connecting portion 25
Are formed so that the directions of the bent portions 25A are opposite to each other. An end of the connecting portion 25 is connected to an end of the component 26 which forms a different annular unit 24 via a connecting portion 29. The widths of the curved components 26 and the substantially straight portions 27 are formed larger than the width of the connecting portions 25. As a result, the force withstanding the compression of the stent in the radial direction can be increased. The connecting portion 25 is formed so that the length extending in the axial direction of the stent is slightly shorter than the length extending in the radial direction of the stent when the stent is expanded, so that the connecting portion 25 approaches a straight line in the axial direction of the stent.

The curved component 26 has a greater number of stents in the axial direction than the radial number of the stent, and the connecting portions 25 of the components 26 alternate with the components 26 in the radial direction of the stent. Has been placed. For this reason, it is excellent in flexibility at the time of delivery to a blood vessel. The distance D between the connecting portions 25 constituting the two units is formed to be at least 0.3 mm or more. For this reason, it is possible to prevent an overlapping portion between the portions A from being formed at the time of clipping to the balloon. The space D means the space between the uppermost portion U and the lowermost portion L as shown in FIG. The connecting portion 23 is formed with a right bent portion 28R and a left bent portion 28L at both ends of a long substantially straight portion 27L.
7S, and the shorter substantially straight portion 27S is connected to the connecting portion 29.
Are connected to the component 26 and the connecting portion 25 via the.

The annular units 24A at both ends of the stent 21
Are formed such that connecting portions 35 each including a curved portion 36 and a substantially straight portion 37 are alternately arranged with the component 26 in the radial direction of the stent 21, and the substantially straight portion 37 is located at an end in the axial direction of the stent 21. . Considering workability and performance, the number of the components 26 arranged in the radial direction is preferably 4 or more in the radial direction for a stent having a diameter of 3.0 mm or more after expansion, for example, for a stent having a diameter of 4.0 mm after expansion. Six to eight are good. In the axial direction, the number is preferably 14 to 18 for a 15 mm long stent, and is preferably 28 to 36 for a 30 mm stent.

FIG. 7 is a plan view of the stent 41 of the present invention (FIG. 8 is a detailed view of the components of FIG. 7, and FIG. 9 is a plan view of FIG. 7 after expansion). The stent 41 is formed in a substantially tubular body and is extendable in the radial direction from the inside of the tubular body, and connects four substantially wave-shaped components 46 around the point O to the upper right, lower right, upper left, and lower left. Component 42 configured by
The other components 42 are vertically connected via a connecting portion 43 formed by connecting a substantially straight portion 43B of the connecting portion 43 to the upper right, lower right, upper left and lower left of the substantially waveform portion 43C. The annular unit 44 is formed by arranging a plurality of annular units 44 so as to surround the central axis of the stent 41, and the plurality of annular units 44 extend in the axial direction of the stent 41. The upper right, lower right, upper left, and lower left portions are connected by at least one or more connecting portions 45 formed by connecting substantially linear portions 45B.

[0014] By forming the connecting portion 45 as described above, the flexibility at the time of delivering the stent can be improved. The substantially wave-shaped component 46 is formed bilaterally symmetric with respect to the center line C1 of the component 42 in the stent radial direction, and vertically symmetrical with respect to the center line C2 of the component 42 in the stent axial direction. The connecting portion 43 has a substantially straight portion 43B extending in the lower left and lower right directions on the left and right sides of the downward bent portion 43A of the substantially corrugated portion 43C, and the substantially straight portions 43B on the left and right sides of the upper end of the substantially waveform portion 43C. And each of the substantially straight portions 43B is connected to the substantially straight portion 46B of the component 46. In addition, the connecting portion 45 extends substantially straight portions 45B on the left and right sides on the left and right sides of the downward bent portion 45A of the substantially waveform portion 45C, and extends the substantially straight portions 45B on the left and right sides of the upper end of the substantially waveform portion 45C. Extending in the upper right direction, each substantially linear portion 45B
Is connected to the substantially linear portion 46B of the component 46. The connecting portion 43 is a center line C of the connecting portion 43 in the stent radial direction.
The connecting portion 45 is formed symmetrically with respect to the center line C4 of the connecting portion 45 in the stent radial direction.

The substantially wave-shaped component 46 is formed in a space partitioned between a point O, the center line C1, and the center line C2. When a pair of substantially wave-shaped components 46 formed symmetrically with respect to the center line C1 expands at the time of expansion, the connecting portion 43 extends in the stent axial direction to prevent contraction in the stent axial direction due to expansion. Can be. A pair of components 46 formed symmetrically with respect to the center line C1 and the connection portion 43 are connected to each other, and a pair of components 46 formed vertically symmetrically with respect to the front six center lines C2 and the connection portion 45 are connected.
, The pressure required for stent expansion is slightly increased because the stent has two radial and axial struts, but the recoil rate can be significantly reduced. One unit of the component 42 itself is hard, but as shown in FIG. 7, the stent is formed by reducing the size of the component 42 itself so as to include four in the radial direction of the stent and eight in the axial direction of the stent. A decrease in overall flexibility can be suppressed.

In the annular units 44A at both ends of the stent 41, the substantially linear portions 46B of the upper and lower components 46 constituting the component 42 are connected by a substantially waveform portion 46C.
Is formed such that the bent portion 46D is located at the axial end of the stent 41. The number of components 46 arranged in the radial direction is 3.0 m as the diameter after expansion in consideration of workability and performance.
In the case of a stent having a diameter of 4.0 mm or more, it is preferably 8 or more in the radial direction.
16 pieces are good. In the axial direction, a stent having a length of 15 mm preferably has 10 to 20 stents, for example, 30 m.
In the case of a stent of m, it is preferable to arrange 20 to 40 stents.

FIG. 10 is a plan view of a stent 61 of the present invention (FIG. 11 is a detailed view of the components of FIG. 10, and FIG.
FIG. The stent 61 is formed in a substantially tubular body and is extendable in the radial direction from the inside of the tubular body. The four substantially wave-shaped components 66 around the point O are arranged in the upper right, lower right, upper left, and lower left directions. The other component 62 is vertically connected via a connecting portion 63 composed of two substantially linear portions 63A above and below the component 62 configured by the connection, so that a plurality of components 62 surround the central axis of the stent 61. By arranging the annular units 64, a plurality of the annular units 64 extend in the axial direction of the stent 61, and at least one of the annular units 64 is a connecting portion including a substantially linear portion 65B and a bent portion 65A. 65.

The substantially wave-shaped component 66 is the component 6
2 is symmetrical about the center line C1 in the radial direction of the stent,
The component 62 is formed vertically symmetrically with respect to the center line C2 in the stent length direction. The connecting portion 65 is configured by connecting the other bent portion 65A and the substantially straight portion 65B to both sides of the center bent portion 65A via the substantially straight portion 65B, respectively. Connection section 63
Is connected to The connecting portion 65 is formed symmetrically with respect to the center line C3 of the connecting portion 65 in the radial direction of the stent. Bends 66C are provided at both ends of the stent 61 in the axial direction.
A plurality of components 62A, which are formed by connecting substantially wave-shaped components 66B above and below, are connected up and down to connect other components 62A via connecting portions 63B so as to surround the central axis of the stent 61. Thus, the annular unit 64A is configured, and the annular unit 64A is connected to the annular unit 64 via the connecting portion 65.

The straight portion 65B of the connecting portion 65 is
3B. A pair of components 66 formed symmetrically with respect to the center line C1 are connected at the upper (lower) portion via a connecting portion 69, and are formed symmetrically with respect to the center line C2. 66 has a lower (upper) portion connected via a bent portion 66A. The substantially straight portion 65B of the connecting portion 65 is connected to the component 66 near the middle of the substantially straight portion 63A (the substantially straight portion 63B) of the connecting portion 63.
Is formed in a space partitioned between the point O and the center line C1 and the center line C2. Since the width of the connecting portion 65 is smaller than that of the connecting portion 63 and the component 66, the connecting portion 65 is flexible and facilitates insertion of the stent into a blood vessel. Further, the connecting portion 65 has gentle bent portions 65A on both sides of the central bent portion 65A, and has a substantially straight portion 65B formed in these in the axial direction of the stent, so that foreshortening at the time of stent expansion can be prevented.

In the stent 61 of the present invention, as shown in FIG. 11, the curved portion C of the component 66 and the bent portion 65A of the connecting portion 65 are arranged in a line at an appropriate interval in the axial direction of the stent. Do not overlap. Also, as shown in FIG. 10, the stent 61 has components 62 composed of four components 66 arranged in a line in the stent axial direction.
Since the thickness of the component 66 is larger than that of the connecting portion 65, the radial support force in the radial direction of the stent can be increased.

Considering workability and performance, the number of components 62 arranged in the radial direction is preferably 4 or more in the radial direction for a stent having a diameter of 2.5 mm or more after expansion, for example, a diameter of 3.0 mm after expansion. Four to eight stents are preferred. In the axial direction, 6 to 12 are preferable for a 15 mm long stent, and for example, 8 to 16 are good for a 20 mm stent.

FIG. 13 is a plan view of a stent 81 of the present invention (FIG. 14 is a detailed view of the components of FIG. 13, and FIG.
FIG. The stent 81 is formed in a substantially tubular body and can be extended in the radial direction from the inside of the tubular body. The stent 81 has a plurality of bent portions 86A, and has a plurality of bent portions 86A. Component 86
Are connected to each other vertically to surround the central axis of the stent 81 to form an annular unit 84,
The plurality of annular units 84 extend in the axial direction of the stent 81, and at least one of the annular units 84 is connected by a curved connecting portion 85.

By forming the component 86 in a substantially S-shape, the expansion ratio can be increased and flexibility can be provided. Further, the radial force can be increased by connecting the components 86 with each other by the connecting portion 83. The connecting portion 85 is formed with a space S for each one in the radial direction of the stent. Therefore, an appropriate space is formed between the large loop portion 86E and the small loop portion 86D of the component 86 adjacent in the stent axial direction, so that there is no overlapping portion when clipping the balloon. Further, damage in the blood vessel due to the flare phenomenon when meandering in the blood vessel can be suppressed as much as possible. The component 86 is configured by connecting a small loop portion 86D including a bent portion 86A and a curved portion 86B and a large loop portion 86E via a central curved portion 86B. The connecting part 8
5 has a curved portion 8 of the small loop portion 86D of the component 86.
6B, and the other end of the connecting portion 85 is connected to the curved portion 86B of the large loop portion 86E of the component 86.

At both ends in the axial direction of the stent 81, a substantially S-shaped component 96 having a short curved portion 96C is connected to a connecting portion 93.
The annular unit 84A is configured by connecting a plurality of members so as to surround the central axis of the stent 81, and the annular unit 84A is connected to the annular unit 84 via the connecting portion 85. The component 96 includes a large loop portion 96E including a bent portion 96A and a curved portion 96B, and a substantially waveform portion 96D including a bent portion 96A and a short curved portion 96C.
Are connected via a central curved portion 96B. The large loop portions 96E of the component 96 are arranged alternately with the substantially corrugated portions 96D in the radial direction of the stent,
The large loop portion 96E is arranged such that the bent portions 96A are located at both ends in the axial direction of the stent. Therefore, the flare phenomenon can be suppressed as much as possible.

FIG. 16 is a plan view of a stent 81A of another embodiment of the stent 81 of FIG. 13 (FIG. 17 is a plan view of FIG. 16 after expansion). Connection part 83 of the component 86
Are formed with a space S for each one in the radial direction of the stent. For this reason, the stent 81A can increase the expansion rate and expand more uniformly. Further, the flexibility at the time of delivery is improved, and the recoil rate is extremely reduced.

In consideration of workability and performance, the number of components 86 arranged in the radial direction is preferably 4 or more in the radial direction for a stent having a diameter of 3.0 mm or more after expansion, and for example, the diameter after expansion is 4.0 mm. For three stents, three to six are good. In the axial direction, it is preferable to arrange 12 to 20 for a 15 mm long stent, and it is better to arrange 24 to 40 for a 30 mm stent, for example.

The stents 1, 21, 41, 61 of the present invention
81 and 81A are stainless steel such as SUS316L, Ti
-Ni alloy, shape memory alloy such as Cu-Al-Mn alloy,
It is formed from a metal pipe made of a titanium alloy, tungsten, or the like by, for example, a laser processing method. It is also possible to coat a stent made of these metals with a polymer material such as urethane, a physiologically active substance such as heparin or urokinase, or an antithrombotic agent such as argatroban.

[0028]

The stent 1 can minimize the damage in the blood vessel due to the flare phenomenon when meandering in the blood vessel. Four shortening during expansion can be prevented. By making the thickness of the bent portion 8 smaller than that of the other components of the stent 1, it is possible to ensure flexibility when the stent is expanded in the axial direction. Resistance when clipping the balloon can be reduced. The stent 21 can prevent the overlapping portion from being formed when clipping the balloon. It is possible to increase the force withstanding the compression of the stent in the radial direction. Excellent flexibility when delivering to blood vessels. The stent 41 can improve flexibility at the time of delivery of the stent. Contraction of the stent in the axial direction due to expansion can be prevented. The recoil rate can be significantly reduced. The stent 61 is flexible and facilitates insertion of the stent into a blood vessel. Four shortening at the time of stent expansion can be prevented. No overlap when clipping to balloon. The radial support force in the radial direction of the stent can be increased. The stent 81 can increase the expansion rate and provide flexibility. Radial force can be increased. It is possible to prevent overlapping portions when clipping to the balloon. Damage in the blood vessel due to the flare phenomenon when meandering in the blood vessel can be suppressed as much as possible. The stent 81A can increase the expansion rate and expand more uniformly. Furthermore, the flexibility at the time of delivery improves,
The recoil rate is also very low.

[Brief description of the drawings]

FIG. 1 is a plan view of a stent 1 of the present invention.

FIG. 2 is a detailed view of the components of FIG. 1;

FIG. 3 is a plan view after expansion of FIG. 1;

FIG. 4 is a plan view of a stent 21 of the present invention.

FIG. 5 is a detailed view of the components of FIG. 4;

6 is an enlarged plan view of FIG. 4;

FIG. 7 is a plan view of a stent 41 of the present invention.

FIG. 8 is a detailed view of the components in FIG. 7;

FIG. 9 is a plan view after expansion of FIG. 7;

FIG. 10 is a plan view of a stent 61 of the present invention.

FIG. 11 is a detailed view of the components of FIG. 10;

FIG. 12 is an enlarged plan view of FIG. 10;

FIG. 13 is a plan view of a stent 81 of the present invention.

FIG. 14 is a detailed view of the components in FIG. 13;

15 is an enlarged plan view of FIG. 13;

FIG. 16 is a plan view of a stent 81A of another embodiment of the stent 81 of FIG.

FIG. 17 is a plan view after expansion of FIG. 13;

FIG. 18 is a plan view of a conventional stent.

FIG. 19 is a plan view of a conventional stent.

FIG. 20 is a plan view of a conventional stent.

FIG. 21 is a plan view of a conventional stent.

[Explanation of symbols]

DESCRIPTION OF SYMBOLS 1 Stent 2 Component 3 Connecting part 4 Annular unit 5 Connecting part 6 Approximately corrugated component 6A Curved substantially corrugated component 7 Approximately straight portion 7L Long substantially straight portion 7S Short substantially straight portion 8 Bent portion 8U Upward bending Part 8L Downward bending part 9 Connection part C1 Center line in the stent axial direction of component 2 C2 Center line in the stent radial direction of component 2 21 Stent 22 Component 23 Connection part 24 Annular unit 24A Annular unit 25 Connection part 25A Connection part 25 bent portion 26 curved component 26A bent portion of component 26 27 substantially straight portion 27L long substantially straight portion 27S short substantially straight portion 28 bent portion 28R right bent portion 28L left bent portion 29 connecting portion 35 connecting portion 36 curve Part 37 Substantially linear part 41 Stent 42 Component 43 Connection part 43A Bend part 43 of connection part 43 The substantially linear portion 43C of the connecting portion 43 The substantially corrugated portion of the connecting portion 43 The annular unit 45 The connecting portion 45A The bent portion of the connecting portion 45B The substantially linear portion of the connecting portion 45C The substantially corrugated portion of the connecting portion 45 The substantially wavy configuration Element 46A Bent portion of substantially corrugated component 46B B Substantially linear portion 46C of substantially corrugated component 46 C Substantially corrugated portion 46D Bent portion of substantive corrugated portion 46C C1 Center line of component 42 in radial direction of stent Center line C3 (in the stent length direction of the component 42) Center line C4 (in the stent radial direction of the connection portion 43) Center line 61 (in the stent radial direction of the connection portion 45) 61 Stent 62, 62A Component 63, 63B Connection Part 63A Substantially linear part of connecting part 63 64 Annular unit 65 Connecting part 65A Bent part 65B of connecting part 65 Substantially linear part 66, 66B of connecting part 65 Shaped component 66A Bent portion of substantially wavy component 66C Bent portion of substantially wavy component C1 Centerline (in stent radial direction of component 62) C2 Centerline (in stent axial direction of component 62) C3 Center line 81, 81A (in the radial direction of the stent of the connecting portion 65) 81, 81A Stent 83, 93 Connecting portion 84, 84A Annular unit 85 Connecting portion 85A Bending portion 86, 96 of the connecting portion 85 Substantially S-shaped component 86A, 96A Bent portion 86B, 96B of substantially S-shaped component 86, 96 Curved portion 86D of substantially S-shaped component 86, 96 Small loop portion 86E of substantially S-shaped component 86 86E Substantially S-shaped component 86 large loop portion 96C short curved portion of substantially S-shaped component 96 96D substantially waveform portion of substantially S-shaped component 96 96E large loop portion of substantially S-shaped component 96

 ──────────────────────────────────────────────────続 き Continuing on the front page (72) Inventor, Seijiro Uchiyama 1 at Tamada, Oe-gun, Mie-cho, Oita-gun, Japan Mie Plant, Kawasumi Chemical Industry Co., Ltd. 7 Tamada 1 Kawasumi Chemical Industry Co., Ltd. Mie Plant

Claims (30)

[Claims] 1. A stent 1 formed in a substantially tubular body and extensible in the radial direction from the inside of the tubular body, comprising four substantially wavy components 6 (6A) centered on a point O The annular unit 4 is constituted by connecting a plurality of components 2 configured by connecting to each other up and down via a connecting portion 3 and arranging a plurality of components 2 so as to surround a central axis of the stent 1. A plurality of the annular units 4 extend in the axial direction of the stent 1, and at least one of the annular units 4 is connected by a connecting portion 5 including a substantially straight portion 7 and a bent portion 8. Stent 1. 2. The connecting portion 5 has a substantially linear portion 7 (7L) at the center.
Is connected to the other substantially straight portion 7 (7S) via two bent portions 8 (8U, 8L) on both sides thereof, and the end of the other substantially straight portion 7 (7S) is connected to the connecting portion 9 2. The stent 1 according to claim 1, wherein the stent 1 is connected to the ends of the components 6 that form different annular units 4 through the respective ends. 3. 3. The upper and lower components 6A of the component 2 are curved rightward or leftward in the axial direction of the stent, and the curved substantially corrugated component 6A is the center of the component 2 in the stent radial direction. 3. The stent 1 according to claim 1, wherein the stent 1 is formed symmetrically with respect to the line C2. 4. The component 2 having the upper and lower components 6A has a bending direction of each of the upper and lower components 6A.
The stent 1 according to any one of claims 1 to 3, wherein the stent 1 is arranged in four directions of the stent radius so as to be alternately left and right. 5. The stent 1 according to claim 1, wherein the bent portion 8 is formed to be thinner than other components of the stent. 6. The connecting portion 5 has two bent portions 8 (8U, 8U).
The stent 1 according to any one of claims 1 to 5, wherein the position of L) is arranged in the radial direction of the stent such that the position of the connecting portion 5 is alternately left and right. 7. A stent 21 formed in a substantially tubular body and extensible in a radial direction from the inside of the tubular body, wherein a substantially linear portion 27 is formed above and below a curved component 26 having a plurality of bent portions 26A. The other component 26 is vertically connected via a connecting portion 23 composed of a bent portion 28 so that the stent 2
An annular unit 24 is formed by arranging a plurality of annular units 24 so as to surround one central axis. The plurality of annular units 24 extend in the axial direction of the stent 21, and each of the annular units 24 has at least one or more bent portion 25A. The stent 21, which is connected by a connecting portion 25 having: 8. An apparatus according to claim 7, wherein an end of said connecting portion is connected to an end of said component constituting a different annular unit via a connecting portion. Stent 21. 9. The curved component 26 and the connecting portion 23.
9. The stent 2 according to claim 7, wherein the width of the stent 2 is larger than the width of the connecting portion 25.
One. 10. The connecting portion 25 is formed so that the length extending in the axial direction of the stent is shorter than the length extending in the radial direction of the stent when the stent is expanded, so that the connecting portion 25 approaches a straight line in the axial direction of the stent. The stent 21 according to any one of claims 7 to 9, wherein 11. The curved component 26 has a greater number of stents in the axial direction than the number of stents in the radial direction, and the connecting portions 25 of the components 26 are divided into two in the radial direction of the stent. 11. The stent 21 according to claim 7, wherein the stent 21 is arranged alternately. 12. The stent 21 according to claim 7, wherein a distance D between the connecting portions 25 constituting the two units is at least 0.3 mm or more. 13. A stent 41 formed in a substantially tubular body and extensible in a radial direction from the inside of the tubular body, wherein four substantially wave-shaped components 46 centering on a point O are arranged at upper right, lower right, Through a connecting portion 43 formed by connecting a substantially linear portion 43B to the upper right, lower right, upper left and lower left of the substantially corrugated portion 43C above and below the component 42 formed by connecting the upper left and lower left portions. The annular unit 44 is constituted by arranging a plurality of other components 42 vertically so as to surround the central axis of the stent 41, and the annular units 44 are extended in the axial direction of the stent 41; The annular units 44 are connected to each other by at least one or more connecting portions 45 formed by connecting the substantially linear portions 45B to the upper right, lower right, upper left and lower left portions of the substantially corrugated portion 45C. That stent 41. 14. The substantially wave-shaped component 46 is formed symmetrically with respect to the center line C1 of the component 42 in the stent radial direction, and vertically symmetrical with respect to the center line C2 of the component 42 in the stent axial direction. 14. The stent 41 according to claim 13, wherein: 15. The connecting portion 43 is formed symmetrically with respect to the center line C3 of the connecting portion 43 in the radial direction of the stent, and the connecting portion 45 is formed symmetrically with respect to the center line C4 of the connecting portion 45 in the radial direction of the stent. The stent 41 according to claim 13, wherein: 16. The apparatus according to claim 13, wherein the substantially wave-shaped component 46 is formed in a space partitioned between a point O, said center line C1, and said center line C2. The stent 41 as described. 17. A stent 61 formed in a substantially tubular body and extensible in the radial direction from the inside of the tubular body, comprising four substantially wavy components 66 centered on a point O, The other component 62 is vertically connected via a connecting portion 63 composed of two substantially linear portions 63A above and below the component 62 configured by being connected to the upper left and lower left, and the central axis of the stent 61 is connected. A plurality of annular units 64 are arranged so as to surround the annular unit 64. The plurality of annular units 64 extend in the axial direction of the stent 61, and at least one of the annular units 64 has a substantially linear portion 65B and a bent portion. Connecting part 65 made of 65A
A stent 61 characterized by being connected by: 18. The substantially wave-shaped component 66 is formed symmetrically with respect to the center line C1 of the component 62 in the radial direction of the stent, and vertically symmetrically with respect to the center line C2 of the component 62 in the stent length direction. 18. The stent 61 according to claim 17, wherein the stent 61 is formed. 19. The connecting portion 65 has another bent portion 65 on both sides of a center bent portion 65A via substantially straight portions 65B.
The stent 61 according to claim 17, wherein the stent 61 is configured by connecting A to the substantially straight portion 65 </ b> B, and an end of the other substantially straight portion 65 </ b> B is connected to the connection portion 63. . 20. The stent 61 according to claim 17, wherein the connecting portion 65 is formed symmetrically with respect to a center line C3 of the connecting portion 65 in the radial direction of the stent. 21. A component 62A formed by connecting a substantially wave-shaped component 66B above and below 66C to both ends in the axial direction of the stent 61, and another component 62A is connected vertically by a connecting portion 63B. The annular unit 64A is configured by connecting and arranging a plurality of units so as to surround the central axis of the stent 61, and the annular unit 64A is connected to the annular unit 64 via the connecting portion 65. Item 21. The stent 61 according to item 20. 22. The stent 61 according to claim 17, wherein the substantially linear portion 65B of the connecting portion 65 and the connecting portion 63B are connected. 23. A stent 81 formed in a substantially tubular body and extensible in the radial direction from the inside of the tubular body, wherein a connecting portion 83 is provided above and below a substantially S-shaped component 86 having a plurality of bent portions 86A. An annular unit 84 is formed by connecting the other components 86 vertically through a plurality of components so as to surround the central axis of the stent 81, and the plurality of annular units 84 extend in the axial direction of the stent 81. The stent 81, wherein at least one of the annular units 84 is connected by a curved connecting portion 85. 24. The stent 81 according to claim 23, wherein the connecting portion 85 is formed with a space S for each one in a radial direction of the stent. 25. The component element 86 has a small loop portion 86D and a large loop portion 86E each including a bent portion 86A and a curved portion 86B.
25. The stent 81 according to claim 23, wherein the stent 81 is connected to the center 81 via a central curved portion 86B. 26. One end of the connecting portion 85 is connected to the end of the curved portion 86B of the small loop portion 86D of the component 86, and the other end of the connecting portion 85 is connected to the large loop portion 86 of the component 86.
26. The stent 81 according to claim 23, wherein the stent 81 is connected to the curved portion 86B of E. 27. A substantially S-shaped component 96 having a short curved portion 96C at each axial end of a stent 81 is connected to a connecting portion 93.
The annular unit 84A is constituted by arranging vertically so as to surround the central axis of the stent 81, and the annular unit 84A is connected to the annular unit 84 via the connecting portion 85. 27. The stent 81 according to claim 23. 28. The component 96 connects a large loop portion 96E comprising a bent portion 96A and a curved portion 96B and a substantially waveform portion 96D comprising a bent portion 96A and a short curved portion 96C via a central curved portion 96B. 28. The stent 81 according to claim 23, comprising: 29. The large loop portions 96E of the component 96 are arranged alternately with the substantially corrugated portions 96D in the radial direction of the stent so that the bent portions 96A of the large loop portions 96E are located at both ends in the axial direction of the stent. 29. The stent 8 according to claim 23, wherein the stent 8 is arranged.
One. 30. The stent 81A according to claim 23, wherein the connecting portion 83 of the component 86 is formed with a space S between each one in the radial direction of the stent.