Polymeric stent patterns

US 7,476,245 B2
Filed: 08/16/2005
Issued: 01/13/2009
Est. Priority Date: 08/16/2005
Status: Expired due to Fees

First Claim

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1. A radially expandable intravascular stent for implanting in a bodily lumen, comprising:

a plurality of pairs of radially expandable undulating cylindrical rings that are longitudinally aligned and are connected at a plurality of intersections to form a plurality of hour-glass shaped cells, each ring having a first delivery diameter and a second implanted diameter,wherein a first ring of the pair comprises two v-shaped undulations with peaks located circumferentially between two intersections, and wherein the v-shaped undulations comprise long bar arms connected at each intersection, a short bar arm connected to each long bar arm, and a linear or curved bar arm connecting the two short bar arms of each v-shaped undulation;

wherein a second ring of the pair comprises two v-shaped undulations with valleys located circumferentially between two intersections, and wherein the v-shaped undulation comprises a long bar arm connected at the intersection, a short bar arm connected to each long bar arm, and a linear or curved bar arm connecting the two short bar arms of each v-shaped undulation;

a plurality of links comprising linear bar arms connecting adjacent rings, wherein at least one link joins an intersection of the plurality of intersections of a pair of one ring with a linear or curved bar arm of an adjacent ring.

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Abstract

Patterns for polymeric radially expandable implantable medical devices such as stents for implantation into a bodily lumen are disclosed.

369 Citations

31 Claims

1. A radially expandable intravascular stent for implanting in a bodily lumen, comprising:
- a plurality of pairs of radially expandable undulating cylindrical rings that are longitudinally aligned and are connected at a plurality of intersections to form a plurality of hour-glass shaped cells, each ring having a first delivery diameter and a second implanted diameter,wherein a first ring of the pair comprises two v-shaped undulations with peaks located circumferentially between two intersections, and wherein the v-shaped undulations comprise long bar arms connected at each intersection, a short bar arm connected to each long bar arm, and a linear or curved bar arm connecting the two short bar arms of each v-shaped undulation;
  
  wherein a second ring of the pair comprises two v-shaped undulations with valleys located circumferentially between two intersections, and wherein the v-shaped undulation comprises a long bar arm connected at the intersection, a short bar arm connected to each long bar arm, and a linear or curved bar arm connecting the two short bar arms of each v-shaped undulation;
  
  a plurality of links comprising linear bar arms connecting adjacent rings, wherein at least one link joins an intersection of the plurality of intersections of a pair of one ring with a linear or curved bar arm of an adjacent ring.
- View Dependent Claims (2, 3, 4, 5, 6)
- - 2. The stent of claim 1, wherein at least two links intersect at one intersection such that the intersection comprises an intersection of two links and four long bar arms.
  - 3. The stent of claim 1, wherein the short bar arms are shorter in length than the long bar arms, and each of the hour-glass shaped cells defines a continuous interior space that includes two quadrilateral-shaped regions, each region having a closed vertex and an open vertex, the closed vertex located where two long bar arms converge and meet each other, the open vertex located where two short bar arms converge but do not meet each other, the two regions meeting each other at the open vertices.
  - 4. The stent of claim 3, wherein the hour-glass shaped cells of the first pair of rings are offset from the hour-glass shaped cells of a second pair of rings immediately adjacent the first pair of rings so that the closed vertices of the first pair of rings are longitudinally aligned with the open vertices of the second pair of rings.
  - 5. The stent of claim 1, wherein a degree of circumferential alignment of a majority of the short bar arms is configured to increase when the stent is expanded to the second implanted diameter.
  - 6. The stent of claim 1, wherein a majority of the short bar arms are configured to plastically deform when the stent is expanded the second implanted diameter.

7. A radially expandable intravascular stent for implanting in a bodily lumen, comprising:
- a plurality of radially expandable undulating cylindrical rings that are longitudinally aligned, each ring having;
  
  a first delivery diameter and a second implanted diameter;
  
  a plurality of interconnected cells, each cell formed by two opposing M-shaped elements aligned circumferentially and connected at each end of the elements to form an hour-glass shape, each M-shaped element comprising a long linear bar arm at each end of the M-shaped element, a short linear bar arm connected to each long linear bar arm, and a linear or curved bar arm connecting the short bar arms; and
  
  a plurality of links connecting adjacent cylindrical rings, wherein at least one link connects a connection point of two opposing M-shaped elements on one ring with a linear or curved bar arm of an adjacent ring.
- View Dependent Claims (8)
- - 8. The stent of claim 7, wherein the short bar arms are shorter in length than the long bar arms, and each of the hour-glass shaped cells define a continuous interior space that includes two quadrilateral-shaped regions, each region having a closed vertex and an open vertex, the closed vertex located where two long bar arms converge and meet each other, the open vertex located where two short bar arms converge but do not meet each other, the two regions meeting each other at the open vertices.

9. A radially expandable intravascular stent for implanting in a bodily lumen, comprising:
- a plurality of pairs of radially expandable undulating cylindrical rings that are longitudinally aligned, a first ring of the pair comprising adjacent pairs of first v-shaped sections with peaks formed by a long linear bar arm and a short linear bar arm of the first ring, the short linear bar arms of the first ring are connected by a linear or curved bar arm of the first ring, wherein the adjacent pairs of first v-shaped sections are separated by a second v-shaped section with a valley formed by the long linear bar arms, a second ring of the pairs of rings comprises adjacent pairs of third v-shaped sections with valleys formed by a long linear bar arm and a short linear bar arm of the second ring, the short linear bar arms of the second ring are connected by a linear or curved bar arm of the second ring, wherein the adjacent pairs of third v-shaped sections are separated by a fourth v-shaped section with a peak formed by the long linear bar arms of the second ring;
  
  wherein the first ring and the second ring intersect at the valleys of the second v-shaped section of the first ring and the peaks of the fourth v-shaped section of the second ring to form an hourglass shape longitudinally between the pairs of rings and circumferentially between the intersections;
  
  at least one link connecting the intersection of a pair of rings with a short linear or curved bar arm of an adjacent pair of rings.
- View Dependent Claims (10, 11, 12, 13)
- - 10. The stent of claim 9, wherein at least two links intersect at one intersection such that the intersection comprises an intersection of two links and four long linear bar arms.
  - 11. The stent of claim 9, wherein the short linear bar arms are shorter than the long linear bar arms, and each of the hour-glass shaped cells defines a continuous interior space that includes two quadrilateral-shaped regions, each region having a closed vertex and an open vertex, the closed vertex located where two long bar arms converge and meet each other, the open vertex located where two short bar arms converge but do not meet each other, the two regions meeting each other at the open vertices.
  - 12. The stent of claim 9, wherein a degree of circumferential alignment of a majority of the short linear bar arms is configured to increase when the stent is expanded to the second delivery diameter.
  - 13. The stent of claim 9, wherein a majority of the short linear bar arms are configured to plastically deform when the stent is expanded to the second delivery diameter.

14. A radially expandable intravascular stent for implanting in a bodily lumen, comprising:
- a plurality of radially expandable undulating cylindrical rings that are longitudinally aligned, each ring having;
  
  a first delivery diameter and a second implanted diameter;
  
  a plurality of interconnected cells, each cell comprising;
  
  two adjacent parallelogram-shaped regions, each region open at one end opposite a vertex such that the open ends are opposing, the cells being connected circumferentially at an intersection at the vertices opposite the open ends, each region comprising;
  
  two long bar arms in a v-configuration connected at an adjacent cell at a vertex of the v-configuration, a longitudinal axis of the stent being perpendicular to a line through the vertices of the v-configurations of the two parallelogram-shaped regions;
  
  two short bar arms, each of the short bar arms being connected at one end to the long bar arms;
  
  two curved or linear bar arms connecting the opposing regions, each connecting ends of the short bar arms in the different regions; and
  
  a plurality of links connecting adjacent cylindrical rings, wherein at least one link connects an intersection of circumferentially adjacent cells on one ring with a linear or curved bar arm of a longitudinally adjacent ring.

15. A radially expandable intravascular stent for implanting in a bodily lumen, comprising:
- a plurality of pairs of radially expandable undulating cylindrical rings that are longitudinally aligned and are connected at a plurality of intersections on each pair by a plurality of first bar arms aligned parallel or substantially parallel to a longitudinal axis of the stent, each ring having a first delivery diameter and a second implanted diameter;
  
  wherein a first ring of each pair comprises a peak between two valleys located circumferentially between two intersections of the first bar arms with the first ring, the peak formed by two long bar arms and each of the valleys formed by one of the long bar arms and a short bar arm,wherein a second ring of each pair comprises a valley between two peaks located circumferentially between two intersections of the first bar arms with the second ring, the valley formed by two long bar arms and the peaks formed by one of the long bar arms and a short bar arm,wherein the longitudinal distances from the two valleys of the first ring to the two peaks of the second ring are greater than the longitudinal distance from the peak of the first ring and the valley of the second ring,wherein the first bar arms connect short bar arms of the first ring of the pairs to short bar arms of the second ring of the pairs at the intersections; and
  
  at least one second bar arm connecting a peak of a first ring of a pair to a valley of a second ring of an adjacent pair of rings.
- View Dependent Claims (16, 17, 18, 19, 20, 21)
- - 16. The stent of claim 15, wherein the short bar arms are shorter than the long bar arms.
  - 17. The stent of claim 15, wherein at least one first bar arm is wider than at least one second bar arm.
  - 18. The stent of claim 15, wherein a majority of the short bar arms are configured to plastically deform along their length when the stent is expanded to the second delivery diameter.
  - 19. The stent of claim 15, wherein the at least one second bar arm is aligned parallel or substantially parallel to the longitudinal axis of the stent.
  - 20. The stent of claim 15, wherein the at least one second bar arm is shorter than the first bar arms.
  - 21. The stent of claim 15, wherein the first and second bar arms are parallel or substantially parallel to each other, and the first bar arms are not longitudinally aligned with the second bar arms so that the first bar arms are offset from the second bar arms.

22. A radially expandable intravascular stent for implanting in a bodily lumen, comprising:
- a plurality of pairs of radially expandable undulating cylindrical rings that are longitudinally aligned, wherein a first ring of a pair from among the plurality of pairs comprises peaks formed by long linear bar arms alternating with peaks formed by short linear bar arms and valleys in between the peaks formed by short and long linear bar arms and a second ring of the pair comprises valleys formed by long linear bar arms alternating with valleys formed by short linear bar arms and peaks in between the valleys formed by short and long linear bar arms, wherein one of the peaks formed by the short bar arms of the first ring is connected to one of the valleys formed by the short bar arms of the second ring by a longitudinally aligned first bar arm; and
  
  a plurality of longitudinally aligned second bar arms connecting the peaks formed by the long bar arms of the first ring of the pair to valleys formed by long bar arms of a second ring of an adjacent pair of rings.
- View Dependent Claims (23, 24, 25, 26, 27, 28)
- - 23. The stent of claim 22, wherein the short bar arms are shorter than the long bar arms.
  - 24. The stent of claim 22, wherein at least one first bar arm is wider than at least one second bar arm.
  - 25. The stent of claim 22, wherein a majority of the short bar arms are configured to plastically deform along their length when the stent is expanded to the second delivery diameter.
  - 26. The stent of claim 22, wherein the longitudinal distances from peaks formed by the long bar arms of the first ring of the pair to the valleys formed by the long bar arms of the second ring of the pair is less than the distances from the valleys of the first ring of the pair to the peaks of the second ring of the pair.
  - 27. The stent of claim 22, wherein the second bar arms are shorter than the long bar arm.
  - 28. The stent of claim 22, wherein the first and second bar arms are parallel or substantially parallel to a longitudinal axis of the stent, and the first bar arms are not longitudinally aligned with the second bar arms so that the first bar arms are offset from the second bar arms.

29. A radially expandable intravascular stent for implanting in a bodily lumen, comprising:
- a plurality of pairs of undulating rings capable of expanding in circumference, the pairs of rings arranged adjacent to each other and connected to each other by linear links parallel or substantially parallel to a longitudinal axis of the stent, each of the pair of rings having a circumference that includes a series of cells connected to each other at intersections, each of the cells defining a continuous interior space that includes two interior regions, each of the interior regions defined by a series of at least four linear members and vertices between the linear members, the vertices including a closed vertex and an open vertex, the closed vertex located where two of the members converge and meet each other at one of the intersections, the open vertex located where another two of the members converge but do not meet each other, the two interior regions meeting each other at the open vertices.
- View Dependent Claims (30, 31)
- - 30. The stent of claim 29, wherein the two interior regions of each cell are symmetrical or substantially symmetrical to each other;
    - wherein the at least four linear members of each interior region includes short members and long members greater in length than the short members;
      
      wherein the open vertex of each interior region is located where two of the short members converge but do not meet each other;
      
      wherein the open vertices of a first pair of rings are longitudinally aligned with the closed vertices of a second pair of rings immediately adjacent the first pair of rings; and
      
      wherein the linear links have a first end and a second end, the first end located adjacent the open vertices of the first pair of rings, the second end located adjacent the closed vertices of the second pair of rings.
  - 31. The stent of claim 29, wherein the two interior regions of each cell are symmetrical or substantially symmetrical to each other;
    - wherein the at least four linear members of each interior region includes short members and long members greater in length than the short members;
      
      wherein the open vertex of each interior region is located where two of the long members converge but do not meet each other;
      
      wherein the open vertices of the first pair of rings are longitudinally aligned with the open vertices of a second pair of rings immediately adjacent the first pair of rings; and
      
      wherein the linear links have a first end and a second end, the first end located adjacent the open vertices of the first pair of rings, the second end located adjacent the open vertices of the second pair of rings.

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Current Assignee
Advanced Cardiovascular Systems Incorporated
Original Assignee
Advanced Cardiovascular Systems Incorporated
Inventors
Abbate, Anthony J.
Primary Examiner(s)
Manahan; Todd E
Assistant Examiner(s)
GETTMAN, CHRISTINA DANIELLE

Application Number

US11/205,858
Publication Number

US 20070043426A1
Time in Patent Office

1,246 Days
Field of Search

623/1.1, 623/1.12, 623/1.15, 623/1.16, 623/1.18, 623/1.2, 623/1.3
US Class Current

623/1.15
CPC Class Codes

A61F 2/91   made from perforated sheet ...

A61F 2/915   with bands having a meander...

A61F 2002/91508   the meander having a differ...

A61F 2002/91516   the meander having a change...

A61F 2002/91533   characterised by the phase ...

A61F 2002/91558   connected peak to peak

A61F 2002/91566   connected trough to trough

A61F 2230/0054   V-shaped

A61F 2250/0098   radio-opaque, e.g. radio-op...

Polymeric stent patterns

First Claim

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Abstract

369 Citations

31 Claims

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Polymeric stent patterns

First Claim

1 Assignment

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0 Petitions

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Accused Products

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Abstract

369 Citations

31 Claims

Specification

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Solutions

Use Cases

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