Stent-graft with bioabsorbable structural support

The invention claimed is: 1. A stent-graft comprising: a tubular, radially self-expandable, braided structure comprising elongate bioabsorbable filaments; and a permanent graft disposed and adhered to at least a portion of the bioabsorbable tubular structure; wherein the permanent graft and the bioabsorbable tubular structure are coextensive along at least a portion of the stent-graft and the bioabsorbable tubular structure and the permanent graft are adhered with a bioabsorbable adhesive means or the permanent graft is braided into the bioabsorbable tubular structure. 2. The stent-graft of claim 1 , the bioabsorbable filaments comprising at least one member selected from the group consisting of polylactide, polylactide-co-glycolide, polyglycolide, polycaprolactone, polydioxanone and mixtures thereof. 3. The stent-graft of claim 1 , the bioabsorbable filaments comprising at least one member selected from the group consisting of polylactide, polylactide-co-glycolide, polyglycolide and mixtures thereof. 4. The stent-graft of claim 1 , the permanent graft comprising at least one member selected from the group consisting of polyethylene terephthalate, expanded polytetrafluoroethylene, polycarbonate urethane, polyurethane and mixtures thereof. 5. The stent-graft of claim 1 , wherein the bioabsorbable filaments substantially consist of polylactide. 6. The stent-graft of claim 1 , wherein the permanent graft includes at least one of expanded polytetrafluoroethylene or polycarbonate urethane. 7. The stent-graft of claim 1 , wherein the permanent graft is made of braided, woven, or spray-cast polyethylene terephthalate, polycarbonate urethane or polyurethane fibers. 8. The stent-graft of claim 1 , wherein the bioabsorbable filaments substantially consist of polylactide and the permanent graft includes at least one of expanded polytetrafluoroethylene or polycarbonate urethane. 9. The stent-graft of claim 1 , wherein the filaments have a tensile strength of from about 276 MPa (40 ksi) to about 827 MPa (120 ksi). 10. The stent-graft of claim 1 , wherein the filaments have a tensile modulus of from about 2758 MPa (400,000 psi) to about 13790 MPa (2,000,000 psi). 11. The stent-graft of claim 1 , wherein each filament has an average diameter of from about 0.15 mm to about 0.6 mm. 12. The stent-graft of claim 1 , wherein the braid of the bioabsorbable tubular structure comprises a helical winding of interwoven bioabsorbable filaments. 13. The stent-graft of claim 1 , wherein the bioabsorbable tubular structure of the stent-graft includes 10-36 filaments braided into a tubular mesh configuration. 14. The stent-graft of claim 1 , wherein the permanent graft comprises braided or interwoven material formed from fibers, strands, yarns, mono-filaments, or multi-filaments. 15. The stent-graft of claim 14 , wherein the permanent graft comprises polyethylene terephthalate, polycarbonate urethane or polyurethane. 16. The stent-graft of claim 1 , the permanent graft comprises a film, sheet or tube. 17. The stent-graft of claim 16 , wherein the permanent graft comprises polyethylene terephthalate, polycarbonate urethane or polyurethane. 18. The stent-graft of claim 1 , wherein the adhesive is applied at only proximal and distal end portions of the coextensive portion. 19. The stent-graft of claim 18 , wherein the bioabsorbable tubular structure and the permanent graft are braided and the braid angle of the permanent graft is matched to the tubular structure stent filament crossing angle. 20. The stent-graft of claim 1 wherein the tubular, radially self-expandable, braided structure is annealed.