Rotational spun material covered medical appliances and methods of manufacture

The invention claimed is: 1. A medical appliance, comprising: a first layer of rotational spun polytetrafluoroethylene (PTFE) fibers, the first layer of rotational spun PTFE fibers disposed on an inside surface of the medical appliance; a second layer of PTFE fibers coupled to the first layer of rotational spun PTFE fibers, the second layer of PTFE fibers disposed on an outside surface of the medical appliance; a non-fibrous fluorinated ethylene propylene (FEP) tie layer disposed between the first layer of rotational spun PTFE fibers and the second layer of PTFE fibers, wherein the FEP is at least partially disposed between fibers of the second layer of PTFE fibers. 2. The medical appliance of claim 1 , wherein the rotational spun PTFE is rotational spun through an orifice. 3. The medical appliance of claim 1 , wherein the medical appliance further comprises a third layer of rotational spun PTFE fibers. 4. The medical appliance of claim 1 , wherein the first layer of rotational spun PTFE fibers has an average percent porosity between about 30% and about 80%. 5. The medical appliance of claim 1 , wherein the first layer of rotational spun PTFE has an average pore size configured to permit tissue ingrowth on the first surface of the medical appliance. 6. The medical appliance of claim 3 , wherein the third layer of rotational spun PTFE fibers has an average percent porosity of about 50% or less. 7. The medical appliance of claim 3 , wherein the third layer of rotational spun PTFE fibers has an average pore size configured to resist tissue ingrowth into or through the second surface of the medical appliance. 8. The medical appliance of claim 1 , wherein the tie layer is configured to inhibit tissue or fluid migration into or through the tie layer. 9. The medical appliance of claim 8 , wherein the tie layer comprises PTFE. 10. The medical appliance of claim 1 , wherein the FEP partially bonds to the fibers of the second layer of PTFE fibers. 11. The medical appliance of claim 10 , wherein the FEP flows into and coats the fibers of the second layer of PTFE fibers while maintaining the porosity of the first layer of rotational spun PTFE fibers. 12. The medical appliance of claim 1 , further comprising a reinforcing layer comprised of expanded PTFE, wherein the expanded PTFE is oriented to resist creep in at least one direction. 13. A stent, comprising: a frame configured to resist radial compression when disposed in a lumen of a patient, and a covering disposed on at least a portion of the frame, the covering comprising a first layer of rotational spun polytetrafluoroethylene (PTFE) fibers, the first layer of rotational spun PTFE fibers disposed on an inside surface of the medical appliance; a second layer of PTFE fibers coupled to the first layer of rotational spun PTFE fibers, the second layer of PTFE fibers disposed on an outside surface of the medical appliance; a non-fibrous fluorinated ethylene propylene (FEP) tie layer disposed between the first layer of rotational spun PTFE fibers and the second layer of PTFE fibers, wherein the FEP is at least partially disposed between fibers of the second layer of PTFE fibers. 14. The stent of claim 13 , wherein the stent further comprises a third layer of rotational spun PTFE fibers. 15. The stent of claim 13 , wherein the first layer of rotational spun PTFE fibers has an average percent porosity between about 30% and about 80%. 16. The stent of claim 13 , wherein the first layer of rotational spun PTFE has an average pore size configured to permit the tissue ingrowth on the inside surface of the stent. 17. The stent of claim 14 , wherein the third layer of rotational spun PTFE fibers has an average percent porosity of about 50% or less. 18. The stent of claim 14 , wherein the third layer of rotational spun PTFE fibers has an average pore size configured to resist tissue ingrowth into or through the second layer of rotational spun PTFE fibers. 19. The stent of claim 14 , further comprising a cuff adjacent to an end of the stent, the cuff configured to permit tissue ingrowth into the cuff. 20. The stent of claim 13 , wherein the tie layer is configured to inhibit tissue or fluid migration into or through the tie layer. 21. The stent of claim 14 , wherein the third layer of rotational spun PTFE fibers is configured to permit tissue ingrowth into the third layer of rotational spun PTFE fibers to reduce device migration. 22. The stent of claim 13 , wherein the frame is comprised of a single wire wound in a wave-like pattern such that alternating apexes adjacent an end of the stent have different relative heights. 23. The stent of claim 13 , further comprising a main lumen extending to a bifurcation and two branch lumens extending from the bifurcation. 24. The stent of claim 13 , further comprising a main lumen and one or more branch lumens extending from a wall of the main lumen. 25. The stent of claim 13 , wherein the cover further comprises a reinforcing layer comprised of expanded PTFE, wherein the expanded PTFE is oriented to resist creep in at least one direction.