Stent having reduced passage of emboli and stent delivery system
First Claim
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1. An expandable tubular stent for implantation in a body lumen comprising:
- a structural portion extending along an axis being radially expandable thereabout and having a first expanded percentage open area, the structure portion including a plurality of struts; and
a barrier portion affixed to the structural portion and having a second expanded percentage open area, the barrier portion including a plurality of pores extending therethrough, the barrier portion being at least partially made of metal;
the stent having a composite expanded percentage open area within a range of 65% to 95%, wherein the composite expanded percentage open area is calculated by finding a difference between an area of the pores of the expanded barrier portion and an area of said pores occluded by the struts of the expanded structural portion, and dividing said difference by surface area of the expanded stent.
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Abstract
A stent for reducing the passage of emboli into body lumen once deployed includes a structural portion and a barrier portion. The structural portion, when expanded in a conduit, provides sufficient strength to maintain an open lumen in the conduit. The barrier portion reduces migration of emboli from the wall of the conduit through the structural portion and into the lumen. Stent delivery systems capable of delivering and deploying the stent are disclosed.
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Citations
7 Claims
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1. An expandable tubular stent for implantation in a body lumen comprising:
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a structural portion extending along an axis being radially expandable thereabout and having a first expanded percentage open area, the structure portion including a plurality of struts; and a barrier portion affixed to the structural portion and having a second expanded percentage open area, the barrier portion including a plurality of pores extending therethrough, the barrier portion being at least partially made of metal; the stent having a composite expanded percentage open area within a range of 65% to 95%, wherein the composite expanded percentage open area is calculated by finding a difference between an area of the pores of the expanded barrier portion and an area of said pores occluded by the struts of the expanded structural portion, and dividing said difference by surface area of the expanded stent. - View Dependent Claims (2, 3, 4, 5, 6, 7)
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Specification