US2021068993A1PendingUtilityA1
Vascular implant
Est. expiryJan 20, 2035(~8.5 yrs left)· nominal 20-yr term from priority
A61B 17/12113A61B 17/12031A61B 17/12118A61F 2210/0004A61B 17/12163A61F 2230/0091A61F 2002/823A61B 17/12145A61B 2017/12054A61B 17/1215A61B 2017/00526A61F 2002/068A61F 2/07A61B 2090/3966A61F 2/88A61F 2/90
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Claims
Abstract
A vascular implant configured for occluding a vasculature of a patient having a biocompatible polymeric structure formed of a plurality of filaments spaced to maintain surface porosity and an inner radiopaque coil positioned within the longitudinally extending opening of the polymeric structure and attached to the polymeric structure. The polymeric structure and radiopaque coil are attached forming a joint at the distal end.
Claims
exact text as granted — not AI-modified1 . A vascular implant configured for occluding a vasculature of a patient, the vascular implant comprising:
a biocompatible polymeric structure formed of a plurality of filaments and having a proximal end and a distal end, the filaments spaced to maintain surface porosity, the polymeric structure forming a tubular body having a first longitudinally extending opening; and a radiopaque coil having a proximal end and a distal end, the radiopaque coil positioned within the longitudinally extending opening of the polymeric structure, wherein the polymeric structure and radiopaque coil are attached forming a joint at the distal end of the radiopaque coil along a length extending for at least 0.002 inches and not exceeding a length of about 0.050 inches, the polymeric structure covering the distal end of the radiopaque coil.
2 . The implant of claim 1 , wherein the joint is formed where the polymeric structure covers at least two coil windings of the radiopaque coil.
3 . The implant of claim 2 , wherein the two coil windings are distalmost windings of the radiopaque coil.
4 . The implant of claim 2 , wherein the two coil windings are spaced proximally of a distalmost end of the radiopaque coil.
5 . The implant of claim 1 , wherein the joint of the polymeric structure and radiopaque coil is formed by application of energy to bond the polymeric structure and radiopaque coil.
6 . The implant of claim 1 , wherein the joint of the polymeric structure and radiopaque coil is formed by an adhesive to bond the polymeric structure and radiopaque coil.
7 . The implant of claim 1 , wherein the polymeric structure and radiopaque coil are attached forming a joint along a length of about 0.004 inches to about 0.020 inches.
8 . The implant of claim 1 , further comprising a metal tube attached to a proximal end of the radiopaque coil, wherein the polymeric structure and metal tube are attached to form a proximal joint along a length extending for at least 0.002 inches and not exceeding a length of about 0.050 inches.
9 . The implant of claim 8 , wherein the proximal joint of the polymeric structure and metal tube is formed by one of application of energy or an adhesive to bond the polymeric structure and metal tube.
10 . The implant of claim 8 , wherein the polymeric structure is further attached to the radiopaque coil to form the proximal joint, the proximal joint formed by one of application of energy or an adhesive to bond the polymeric structure, metal tube and radiopaque coil.
11 . (canceled)
12 . The implant of claim 1 , wherein the polymeric structure has a series of peaks and valleys along a surface of a wall to increase flexibility, the peaks and valleys formed by crimping of the polymeric structure.
13 . The implant of claim 1 , wherein the polymeric structure and radiopaque coil are attached so that the joint extends continuously along a length of the joint.
14 . A vascular implant configured for occluding a vasculature of a patient, the vascular implant comprising:
a biocompatible polymeric structure formed of a plurality of filaments and having a proximal end and a distal end, the filaments spaced to maintain surface porosity, the polymeric structure forming a tubular body having a first longitudinally extending opening; and an inner element composed of a radiopaque coil having a proximal end and a distal end, the radiopaque coil positioned within the longitudinally extending opening of the polymeric structure, wherein the polymeric structure and radiopaque coil are attached to form a joint at the distal end of the radiopaque coil along a length wherein the joint covers at least two distalmost coil windings of the radiopaque coil.
15 . The implant of claim 14 , wherein the joint of the polymeric structure and radiopaque coil is formed by application of energy to bond the polymeric structure and radiopaque coil or by an adhesive to bond the polymeric structure and radiopaque coil.
16 . (canceled)
17 . The implant of claim 14 , wherein the at least two coil windings of the radiopaque coil are spaced from a distalmost end of the radiopaque coil.
18 . A vascular implant configured for occluding a vasculature of a patient, the vascular implant comprising:
a biocompatible polymeric structure formed of a plurality of filaments and having a proximal end and a distal end, the filaments spaced to maintain surface porosity, the polymeric structure forming a tubular body having a first longitudinally extending opening; and an inner element composed of a radiopaque coil having a proximal end and a distal end, the radiopaque coil positioned within the longitudinally extending opening of the polymeric structure, wherein the polymeric structure and radiopaque coil are attached at a plurality of discrete spaced apart non-continuous regions at a distal portion of the radiopaque coil, wherein a distance from a proximalmost discrete region to a distalmost discrete region is between about 0.002 inches and about 0.050 inches.
19 . The implant of claim 18 , wherein the filaments form a plurality of yams, the plurality of yarns having spaces therebetween for blood inflow between the yams.
20 . The implant of claim 19 , wherein the polymeric structure has a series of peaks and valleys along a surface of a wall to increase flexibility, the peaks and valleys formed by crimping of the polymeric structure.Join the waitlist — get patent alerts
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