The present disclosure describes endoluminal devices, such as stents and stent grafts capable of being bent smoothly, with various benefits resulting therefrom.
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1. An implantable device including a first ring, a second ring, and a third ring constrained in an unnested delivery configuration, the implantable device configured to transition to a nested, deployed configuration during bending of the implantable device, the nested, deployed configuration compris
1. An implantable device including a first ring, a second ring, and a third ring constrained in an unnested delivery configuration, the implantable device configured to transition to a nested, deployed configuration during bending of the implantable device, the nested, deployed configuration comprising: the first ring having a first ring abluminal surface with a first ring outer diameter and a first ring luminal surface with a first ring inner diameter;the second ring having a second ring abluminal surface with a second ring outer diameter and a second ring luminal surface with a second ring inner diameter,the third ring having a third ring abluminal surface with a third ring outer diameter and a third ring luminal surface with a third ring inner diameter, anda polymeric interconnection coupling the first ring and the second ring,wherein the second ring is nested within the first and third rings and the second ring outer diameter is less than the first and the third ring inner diameters prior to nesting thereby facilitating nesting of the second ring into the first and third rings during bending, such nesting including relative movement of the first ring and the third ring in a telescoping fashion with the second ring following deployment of the implantable device. 2. The implantable device of claim 1, wherein the polymeric interconnection comprises a fluoropolymer. 3. The implantable device of claim 1, wherein the first or second ring is self-expandable. 4. The implantable device of claim 1, wherein the first or second ring is compressible. 5. The implantable device of claim 1, wherein the first or second ring is balloon expandable. 6. The implantable device of claim 1, wherein the interconnection is in contact with the first and second ring luminal surfaces. 7. The implantable device of claim 1, wherein the interconnection is in contact with the first and second ring abluminal surfaces. 8. The implantable device of claim 1, wherein the interconnection is in contact with the first ring abluminal surface and in contact with the second ring luminal surface. 9. The implantable device of claim 1, wherein the interconnection is in contact with the first ring luminal surface and in contact with the second ring abluminal surface. 10. The implantable device of claim 1, wherein the first ring luminal surface at least partially surrounds the second ring abluminal surface. 11. The implantable device of claim 1, wherein the first and second rings are concentric. 12. The implantable device of claim 1, wherein the first and second rings are nonconcentric. 13. A flexible catheter system comprising: an implantable device constrained in an unnested, delivery configuration including: a first ring having a first ring outer diameter and a first ring inner diameter;a second ring having a second ring outer diameter and a second ring inner diameter, anda polymeric interconnection capable of covering all or a substantial portion of a longitudinal surface of the flexible catheter, thereby coupling the first ring and the second ring,wherein the first ring outer diameter is less than the second ring inner diameter prior to nesting thereby facilitating nesting of the first ring into the second ring during bending of the implantable device following deployment of the implantable device, such nesting including relative movement of the first ring and the third ring in a telescoping fashion with the second ring following deployment of the implantable device. 14. The catheter of claim 13, wherein the polymeric interconnection comprises a fluoropolymer. 15. An implantable device including a first ring, a second ring, and a third ring constrained in an unnested delivery configuration, the implantable device configured to transition to a nested, deployed configuration during bending of the implantable device, the nested, deployed configuration comprising: the first ring having a first ring abluminal surface with a first ring outer diameter and a first ring luminal surface with a first ring inner diameter;the second ring having a second ring abluminal surface with a second ring outer diameter and a second ring luminal surface with a second ring inner diameter;the third ring having a third ring abluminal surface with a third ring outer diameter and a third ring luminal surface with a third ring inner diameter;an interconnection coupled to the luminal surfaces of the first ring, the second ring, and the third ring, andthe second ring outer diameter being less than the first and third ring inner diameters prior to nesting, thereby facilitating nesting of the second ring into the first and third rings during bending of the implantable device following deployment of the implantable device. 16. An implantable device including a first ring, a second ring, and a third ring constrained in an unnested delivery configuration, the implantable device configured to transition to a nested, deployed configuration during bending of the implantable device, the nested, deployed configuration comprising: the first ring having a first ring abluminal surface with a first ring outer diameter and a first ring luminal surface with a first ring inner diameter;the second ring having a second ring abluminal surface with a second ring outer diameter and a second ring luminal surface with a second ring inner diameter,the third ring having a third ring abluminal surface with a third ring outer diameter and a third ring luminal surface with a third ring inner diameter, anda polymeric interconnection coupling the first ring and the second ring,wherein the second ring is nestable with the first and third rings and the first and third ring outer diameters are less than the second ring inner diameter prior to nesting, thereby facilitating nesting of the second ring with the first and third rings, such nesting including relative movement of first ring and the third ring in a telescoping fashion with the second ring during bending of the implantable device following deployment of the implantable device.
Majercak, David C.; Krever, Matthew; Park, Jin S.; Burgermeister, Robert S.; Hojeibane, Hikmat; Leon, Martin B., Stent for treatment of bifurcated lesions.
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