Stents for angioplasty
First Claim
1. A stent having a substantially tubular body defining a longitudinal axis comprising:
- first and second adjacent annular segments, each annular segment defining a substantially sinusoidal shape having a plurality of peaks and valleys, the peaks of the first annular segment extending toward the second annular segment and being aligned longitudinally with the valleys of the second annular segment, the valleys of the second annular segment extending toward the first annular segment;
a plurality of bridge elements each having a U-shaped portion between first and second connector arms, the first connector arm of at least one bridge element having a first region connected between a first peak and a first valley of the first annular segment and the second connector arm of the at least one bridge element having a second region connected between a first peak and a first valley of the second annular segment, the at least one bridge element having a third region between the first and second regions, the first region having a first radial thickness, the second region having a second radial thickness, the third region having a third radial thickness, the third radial thickness being greater than either of the first and second radial thicknesses.
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Accused Products
Abstract
This invention is a stent having a substantially tubular body defining a longitudinal axis comprising first and second adjacent annular segments, each segment defining a substantially sinusoidal shape having a plurality of peaks and valleys, the peaks of the first segment extending toward the second segment and being aligned longitudinally with the valleys of the second segment. The stent has a plurality of bridge elements having a U-shaped portion between first and second connector arms, the first connector arm of one bridge element being connected between a first peak and a first valley of the first segment and the second connector arm being connected between a first peak and a first valley of the second segment in a manner such that the U-shaped portion extends in the direction of the first peak of the first segment and the first valley of the second segment. The bridge elements may be connected to the segments at points spaced 360° apart along the sinusoidal shape of the segments. The segments and bridge elements are configured such that when compression, flexure, and torsion forces are applied to the stent they generate first maximum stress regions, second maximum stress regions and third maximum stress regions which do not overlap.
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Citations
11 Claims
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1. A stent having a substantially tubular body defining a longitudinal axis comprising:
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first and second adjacent annular segments, each annular segment defining a substantially sinusoidal shape having a plurality of peaks and valleys, the peaks of the first annular segment extending toward the second annular segment and being aligned longitudinally with the valleys of the second annular segment, the valleys of the second annular segment extending toward the first annular segment;
a plurality of bridge elements each having a U-shaped portion between first and second connector arms, the first connector arm of at least one bridge element having a first region connected between a first peak and a first valley of the first annular segment and the second connector arm of the at least one bridge element having a second region connected between a first peak and a first valley of the second annular segment, the at least one bridge element having a third region between the first and second regions, the first region having a first radial thickness, the second region having a second radial thickness, the third region having a third radial thickness, the third radial thickness being greater than either of the first and second radial thicknesses. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8)
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9. A method of preventing restenosis in a vessel comprising:
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providing a stent having a substantially tubular body defining a longitudinal axis, the stent comprising first and second adjacent annular segments, each segment defining a substantially sinusoidal shape having a plurality of peaks and valleys, the peaks of the first annular segment extending toward the second annular segment and being aligned longitudinally with the valleys of the second annular segment, the valleys of the second annular segment extending toward the first annular segment such that a first peak of the first annular segment is longitudinally aligned with a first valley of the second annular segment and a first valley of the first annular segment is aligned longitudinally with a second peak of the second annular segment, a plurality of bridge elements having a U-shaped portion between first and second connector arms, the first connector arm of at least one bridge element having a first region connected between the first peak and the first valley of the first annular segment and the second connector arm of the at least one bridge element having a second region connected between the first peak and the first valley of the second annular segment, the at least one bridge element having a third region between the first and second regions, the first region having a first radial thickness, the second region having a second radial thickness, the third region having a third radial thickness, the third radial thickness being greater than either of the first and second radial thicknesses;
advancing the tubular body in the contracted condition through the lumen of the vessel to an area of stenosis; and
deploying the tubular body within the lumen of the vessel by expanding the tubular body from the contracted to the expanded condition. - View Dependent Claims (10)
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11. A method of making a stent comprising:
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providing a tubular blank defining a longitudinal axis; and
forming the blank into first and second adjacent annular segments connected by a plurality of bridge elements, each annular segment defining a substantially sinusoidal shape having a plurality of peaks and valleys, the peaks of the first annular segment extending toward the second annular segment and being aligned longitudinally with the valleys of the second annular segment, the valleys of the second annular segment extending toward the first annular segment such that a first peak of the first annular segment is longitudinally aligned with a first valley of the second annular segment and a first valley of the first annular segment is aligned longitudinally with a second peak of the second annular segment, the plurality of bridge elements having a U-shaped portion between first and second connector arms, the first connector arm of at least one bridge element having a first region connected between the first peak and the first valley of the first annular segment and the second connector arm of the at least one bridge lement having a second region connected between the first peak and the first valley of the second annular segment, the at least one bridge element having a third region between the first and second regions, the first region having a first radial thickness, the second region having a second radial thickness, the third region having a third radial thickness, the third radial thickness being greater than the first and second radial thicknesses.
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Specification