Implantable, self-expanding prosthetic device
First Claim
1. A prosthetic device (20) for sustaining a blood vessel or hollow organ lumen (21), comprising:
- a wire frame (1) having a flexible tubular shape (13) and a plurality of interconnected cells (2) with flexible interconnections (14), wherein each of the flexible interconnections has first and second wire segments (15,16) that are wound around each other at an axially extending portion (17) of the wire frame, wherein each of the first and second wire segments runs longitudinally along the wire frame and through the interconnected cells, wherein the first and second wire segments in at least one of the flexible interconnections are wound in a first direction (18), and wherein the first and second wire segments in at least an other of the flexible interconnections are wound in a second direction (19) opposite to the first direction.
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Accused Products
Abstract
A prosthetic device for sustaining a vessel or hollow organ lumen (a stent) has a tubular wire frame (1) with rows of elongate cells (2) having a larger axis and a smaller axis. The cells are arranged with the larger axis in the circumferential direction of the frame (2) and the smaller axis parallel to the axial direction thereof. Each cell is formed by two U-shaped wire sections, and in a plane perpendicular to the longitudinal axis one of the branches of the U-shaped wire sections in one row form together a closed ring shape (4) which provides the frame (1) with large radial stiffness. In the axial direction the frame (1) has only low stiffness so that it easily conforms to the vascular wall even if this deforms due to external loads. The interconnection between the cells (2) may be flexible.
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Citations
29 Claims
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1. A prosthetic device (20) for sustaining a blood vessel or hollow organ lumen (21), comprising:
a wire frame (1) having a flexible tubular shape (13) and a plurality of interconnected cells (2) with flexible interconnections (14), wherein each of the flexible interconnections has first and second wire segments (15,16) that are wound around each other at an axially extending portion (17) of the wire frame, wherein each of the first and second wire segments runs longitudinally along the wire frame and through the interconnected cells, wherein the first and second wire segments in at least one of the flexible interconnections are wound in a first direction (18), and wherein the first and second wire segments in at least an other of the flexible interconnections are wound in a second direction (19) opposite to the first direction. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10)
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11. A prosthetic device (20) for sustaining a blood vessel or hollow organ lumen (21), comprising:
a wire frame (1) having a flexible tubular shape (13) and rows (25) of interconnected cells (2), selected of the cells each having first and second substantially U-shaped wire sections (3), wherein each substantially U-shaped wire section includes first and second flexibly interconnected wire segments (15,16) each of which runs helically along the wire frame and through the rows of interconnected cells, wherein the first and second flexibly interconnected wire segments in each substantially U-shaped wire section are wound around each other at an axially extending portion (17) of the frame, wherein the first and second flexibly interconnected wire segments in at least one of the U-shaped wire sections are wound in a first direction (18), and wherein the first and second flexibly interconnected wire segments in at least an other of the U-shaped wire sections are wound in a second direction (19) opposite to the first direction. - View Dependent Claims (12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 23, 24, 25, 26, 27, 28)
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29. A prosthetic device (20) for sustaining a blood vessel or hollow organ lumen (21), comprising:
a wire frame (1) having a flexible tubular shape (13) and rows (25) of interconnected cells (2), selected of the cells each having first and second substantially U-shaped wire sections (3), wherein each substantially U-shaped wire section includes first and second flexibly interconnected wire segments (15,16) of a heat-set, shape memory nickel-titanium alloy material, each segment running helically along the wire frame and through the rows of interconnected cells, wherein the first wire segment (15) of the first and second flexibly interconnected wire segments runs in a first helical direction (22) and the second wire segment (16) runs in a second helical direction (23) opposite to the first helical direction, wherein said wire frame includes an even number of pairs (24) of the first and second flexibly interconnected wire segments, wherein the first and second flexibly interconnected wire segments in each cell in the U-shaped wire sections of a given cell are wound one turn (31) around each other at an axially extending portion (17) of the frame, wherein the first and second flexibly interconnected wire segments in each cell of a given row (26) are all wound in a first direction (18), wherein the first and second flexibly interconnected wire segments in each cell in a row (29) adjacent to the given row are all wound in a second direction (19) opposite to the first direction, wherein the wire frame includes at one end (32) a plurality of loops (28) from each of which extends a pair (24) of first and second flexibly interconnected wire segments, the first and second wire segments being wound only a half turn, and wherein the wire frame at an other end (33) includes pairs (36) of first and second flexibly interconnected wire segments (34,35) that are fixedly secured to each other.
Specification