Methods for making encapsulated stent-grafts
First Claim
1. A method for making an encapsulated stent-graft, the stent-graft comprising a self-expanding stent having an essentially tubular configuration with a central longitudinal lumen and having a first diameter and a second diameter, wherein the first diameter is larger than the second diameter, comprising the steps of:
- placing a first tube of biocompatible material over a mandrel;
manipulating said stent from said first diameter to said second diameter;
concentrically engaging said stent about first tube at said second diameter;
concentrically engaging a second tube of biocompatible material about said stent and said first tube, forming a stent-graft assembly;
applying pressure to said assembly by winding a layer of tape over said second tube to compress said assembly against said mandrel; and
heating said assembly, wherein said first tube is joined to said second tube through openings in the wall of said stent, forming a monolithic layer of biocompatible material that applies a constraining force on said stent, preventing said stent from expanding to said first diameter, the monolithic layer of biocompatible material being radially deformable to release said constraining force on said stent.
1 Assignment
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Accused Products
Abstract
Shape memory alloy and elastically self-expanding endoluminal stents which are at least partially encapsulated in a substantially monolithic expanded polytetrafluorethylene (“ePTFE”) covering. An endoluminal stent, which has a reduced diametric dimension for endoluminal delivery and a larger in vivo final diametric diameter is encapsulated in an ePTFE covering which circumferentially covers both the luminal and abluminal walls along at least a portion of the longitudinal extent of the endoluminal stent. The endoluminal stent is fabricated from a shape memory alloy which exhibits either shape memory or pseudoelastic properties or from an elastic material having an inherent spring tension.
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Citations
18 Claims
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1. A method for making an encapsulated stent-graft, the stent-graft comprising a self-expanding stent having an essentially tubular configuration with a central longitudinal lumen and having a first diameter and a second diameter, wherein the first diameter is larger than the second diameter, comprising the steps of:
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placing a first tube of biocompatible material over a mandrel;
manipulating said stent from said first diameter to said second diameter;
concentrically engaging said stent about first tube at said second diameter;
concentrically engaging a second tube of biocompatible material about said stent and said first tube, forming a stent-graft assembly;
applying pressure to said assembly by winding a layer of tape over said second tube to compress said assembly against said mandrel; and
heating said assembly, wherein said first tube is joined to said second tube through openings in the wall of said stent, forming a monolithic layer of biocompatible material that applies a constraining force on said stent, preventing said stent from expanding to said first diameter, the monolithic layer of biocompatible material being radially deformable to release said constraining force on said stent. - View Dependent Claims (2, 3, 4, 5, 6, 7)
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8. A method for making an encapsulated stent-graft, the stent-graft comprising a self-expanding stent having an essentially tubular configuration with a central longitudinal lumen and having a first diameter and a second diameter, wherein the first diameter is larger than the second diameter, comprising the steps of:
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placing a first tube of biocompatible material over a mandrel;
concentrically engaging said stent about first tube at said first diameter;
concentrically engaging a second tube of biocompatible material about said stent and said first tube, forming a stent-graft assembly;
applying pressure to said assembly by winding a layer of tape over said second tube to compress said assembly against said mandrel;
heating said assembly, wherein said first tube is joined to said second tube through openings in the wall of said stent, forming a monolithic layer of biocompatible material; and
manipulating said assembly to said second diameter, wherein a constraining force in the form of a delivery sheath is applied to said assembly, preventing said assembly from expanding to said first diameter. - View Dependent Claims (9, 10, 11, 12, 13, 14)
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15. A method for making an encapsulated stent-graph, the stent-graph comprising a self-expanding stent comprised of shape memory alloy having an Austenite phase and a Martensite phase, and having an essentially tubular configuration with a central longitudinal lumen and a first diameter and a second diameter, wherein the first diameter is larger than the second diameter, comprising the steps of:
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manipulating said stent from said first diameter to said second diameter, wherein said manipulating comprises cooling said stent to a temperature below the martensitic transformation temperature thereof;
concentrically engaging said stent about a first tube of biocompatible material at said second diameter;
concentrically engaging a second tube of biocompatible material about said stent and said first tube, forming a stent-graft assembly;
applying pressure to at least one of said first and second tubes; and
heating said assembly, wherein said first tube is joined to said second tube through openings in the wall of said stent, forming a monolithic layer of biocompatible material that applies a constraining force on said stent, preventing said stent from expanding to said first diameter, the monolithic layer of biocompatible material being radially deformable to release said constraining force on said stent.
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16. A method for making an encapsulated stent-graph, the stent-graph comprising a self-expanding stent comprised of shape memory alloy having an Austenite phase and a Martensite phase, and having an essentially tubular configuration with a central longitudinal lumen and a first diameter and a second diameter, wherein the first diameter is larger than the second diameter, comprising the steps of:
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manipulating said stent from said first diameter to said second diameter at a temperature above the martensitic transformation temperature of said stent;
concentrically engaging said stent about a first tube of biocompatible material at said second diameter;
concentrically engaging a second tube of biocompatible material about said stent and said first tube, forming a stent-graft assembly;
applying pressure to at least one of said first and second tubes; and
heating said assembly, wherein said first tube is joined to said second tube through openings in the wall of said stent, forming a monolithic layer of biocompatible material that applies a constraining force on said stent, preventing said stent from expanding to said first diameter, the monolithic layer of biocompatible material being radially deformable to release said constraining force on said stent.
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17. A method for making an encapsulated stent-graph, the stent-graph comprising a self-expanding stent comprised of shape memory alloy having an Austenite phase and a Martensite phase, and having an essentially tubular configuration with a central longitudinal lumen and a first diameter and a second diameter, wherein the first diameter is larger than the second diameter, comprising the steps of:
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concentrically engaging said stent about a first tube of biocompatible material at said first diameter;
concentrically engaging a second tube of biocompatible material about said stent and said first tube, forming a stent-graft assembly;
applying pressure to at least one of said first and second tubes;
heating said assembly, wherein said first tube is joined to said second tube through openings in the wall of said stent, forming a monolithic layer of biocompatible material; and
manipulating said assembly to said second diameter, wherein said manipulating comprises cooling said stent to a temperature below the martensitic transformation temperature thereof, wherein a constraining force in the form of a delivery sheath is applied to said assembly, preventing said assembly from expanding to said first diameter.
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18. A method for making an encapsulated stent-graph, the stent-graph comprising a self-expanding stent comprised of shape memory alloy having an Austenite phase and a Martensite phase, and having an essentially tubular configuration with a central longitudinal lumen and a first diameter and a second diameter, wherein the first diameter is larger than the second diameter, comprising the steps of:
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concentrically engaging said stent about a first tube of biocompatible material at said first diameter;
concentrically engaging a second tube of biocompatible material about said stent and said first tube, forming a stent-graft assembly;
applying pressure to at least one of said first and second tubes;
heating said assembly, wherein said first tube is joined to said second tube through openings in the wall of said stent, forming a monolithic layer of biocompatible material; and
manipulating said assembly to said second diameter at a temperature above the martensitic transformation temperature of said stent, wherein a constraining force in the form of a delivery sheath is applied to said assembly, preventing said assembly from expanding to said first diameter.
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Specification