Electrospun PTFE coated stent and method of use

The invention claimed is: 1. A stent, comprising: a first layer of electrospun polytetrafluoroethylene (PTFE) fibers, the first layer configured to permit tissue growth on the first layer; a second layer of electrospun PTFE fibers; a tie layer disposed between the first layer of electrospun PTFE fibers and the second layer of electrospun PTFE fibers, wherein the tie layer comprises fluorinated ethylene propylene (FEP) film that is not electrospun, wherein the tie layer is impervious to tissue growth through the tie layer, and wherein the film continuously extends to cover the first layer from a first layer proximal end to a first layer distal end; and a cuff adjacent an end of the stent, wherein the cuff comprises a third layer of electrospun PTFE fibers configured to promote rapid cellular ingrowth into the cuff, and wherein the third layer is separate from the first and second layers. 2. The stent of claim 1 , wherein: the stent is generally tubular; the first layer of electrospun PTFE fibers is disposed such that it defines an outside surface of the stent; and the second layer of electrospun PTFE fibers is disposed such that it defines an inside surface of the stent. 3. The stent of claim 1 , wherein the first layer of electrospun PTFE fibers has an average pore size between about 2 microns and about 8 microns. 4. The stent of claim 3 , wherein the first layer of electrospun PTFE fibers has an average pore size between about 3 microns and about 5 microns. 5. The stent of claim 3 , wherein the second layer of electrospun PTFE fibers comprises electrospun PTFE with an average pore size of about 1.5 microns or less. 6. The stent of claim 1 , wherein the second layer of electrospun PTFE fibers is configured to resist tissue growth through the second layer. 7. The stent of claim 1 , further comprising a scaffolding structure configured to resist radial compression when disposed in a lumen of a patient, wherein the scaffolding structure is comprised of a single wire. 8. The stent of claim 7 , wherein the wire is helically wound around a central axis of the stent. 9. The stent of claim 7 , wherein the wire has a wave-like pattern defining apexes and arms. 10. The stent of claim 9 , wherein alternating apexes adjacent an end of the stent have different relative heights. 11. The stent of claim 9 , wherein each apex has a radius of between about 0.25 mm and 0.5 mm. 12. The stent of claim 9 , wherein the stent has a first portion disposed near the midbody of the stent and second and third portions disposed near the ends of the stent, and wherein the arms disposed within the second and third portions are relatively longer than the arms disposed within the first portion. 13. The stent of claim 9 , wherein a distance, apex to apex length, is defined as the distance between a first apex and a second apex wherein the first apex lies on a first coil of wire and the second apex lies on a second coil of wire adjacent to the first coil, and wherein the first apex and the second apex lies substantially on a line on the outer surface of the stent the line being coplanar with and parallel to a central axis of the stent, wherein the apex to apex distance is smaller at the midbody of the stent, relative to the apex to apex distance near the ends of the stent. 14. The stent of claim 9 , wherein the stent is structured such that the midbody of the stent is relatively less compressible than the first and the second end of the stent. 15. The stent of claim 1 , wherein the first and second layers of electrospun PTFE fibers are electrospun from a mixture comprising PTFE, polyethylene oxide (PEO), and water. 16. The stent of claim 15 , wherein the mixture is formed by combining a PTFE dispersion with PEO dissolved in water. 17. The stent of claim 1 , wherein the first and second layers of electrospun PTFE fibers are electrospun onto a rotating mandrel. 18. The stent of claim 1 , wherein the FEP film is heat bonded to the first and second layers of electrospun PTFE. 19. The stent of claim 18 , wherein the FEP film partially coats fibers of the first and second layers of electrospun PTFE fibers. 20. The stent of claim 1 , wherein the second layer of electrospun PTFE fibers is configured to permit tissue growth on the second layer of electrospun PTFE fibers. 21. The stent of claim 1 , wherein all the PTFE in the stent comprises electrospun PTFE. 22. The stent of claim 1 , wherein at least one end of the stent comprises an undulating wave-shaped contour. 23. The stent of claim 1 , wherein the tie layer comprises a sheet of FEP wrapped around the first layer and bonded to the first and second layers. 24. A stent, comprising: a first layer of electrospun polytetrafluoroethylene (PTFE) fibers, the first layer configured to permit tissue growth on the first layer; a second layer of electrospun PTFE fibers; a tie layer disposed between the first layer of electrospun PTFE fibers and the second layer of electrospun PTFE fibers, wherein the tie layer comprises a sheet of fluorinated ethylene propylene (FEP) that is not electrospun wrapped around the first layer and bonded to the first and second layers, wherein the tie layer is impervious to tissue growth through the tie layer, and wherein the sheet continuously extends to cover the first layer from a first layer proximal end to a first layer distal end; and a cuff adjacent an end of the stent, wherein the cuff comprises a third layer of electrospun PTFE fibers configured to promote rapid cellular ingrowth into the cuff, and wherein the third layer is separate from the first and second layers.