Layered medical appliances and methods

The invention claimed is: 1. A multilayered vascular prosthesis, comprising: a luminal surface comprising a serially deposited fiber layer; and an expanded polytetrafluoroethylene (ePTFE) layer coupled to the serially deposited fiber layer, the ePTFE layer providing at least 80% of the tensile strength, measured in at least one direction, of a construct consisting of the serially deposited fiber layer and the ePTFE layer, wherein the ePTFE layer comprises one or more sublayers of ePTFE and wherein an axis of longitudinal expansion of at least one of the ePTFE sublayers is disposed at an angle to an axis of longitudinal expansion of at least one adjacent ePTFE sublayer. 2. The multilayered vascular prosthesis of claim 1 , wherein the ePTFE layer provides at least 90% of the tensile strength of a construct consisting of the serially deposited fiber layer and the ePTFE layer. 3. The multilayered vascular prosthesis of claim 1 , wherein an abluminal surface of the prosthesis comprises the ePTFE layer. 4. The multilayered vascular prosthesis of claim 1 , wherein the axis of longitudinal expansion of at least one of the ePTFE sublayers is perpendicular to the axis of longitudinal expansion of at least one adjacent ePTFE sublayer. 5. The multilayered vascular prosthesis of claim 1 , wherein each ePTFE sublayer has an average pore size of 6 microns or less. 6. The multilayered vascular prosthesis of claim 1 , further comprising a tissue and cell impermeable layer of fluorinated ethylene propylene (FEP). 7. The multilayered vascular prosthesis of claim 6 , wherein the FEP layer is at least partially disposed within pores of the ePTFE layer. 8. The multilayered vascular prosthesis of claim 1 , wherein the prosthesis exerts a radial outward force of less than 2 N/mm at 20% oversizing or the point force required to fully collapse the multilayered vascular prosthesis is greater than 5 N. 9. The multilayered vascular prosthesis of claim 1 , wherein the serially deposited fiber layer comprises rotational spun fibers. 10. A multilayered vascular prosthesis, comprising: a luminal surface comprising a serially deposited fiber layer; an expanded polytetrafluoroethylene (ePTFE) layer coupled to the serially deposited fiber layer, the ePTFE layer having an average pore size of less than 6 microns, wherein the ePTFE layer has greater tensile strength than the serially deposited fiber layer in at least one direction along the serially deposited fiber layer; wherein the ePTFE layer comprises one or more sublayers of ePTFE; and wherein an axis of longitudinal expansion of at least one of the ePTFE sublayers is disposed at an angle to an axis of longitudinal expansion of at least one adjacent ePTFE sublayer. 11. The multilayered vascular prosthesis of claim 10 , further comprising sublayers of fluorinated ethylene propylene (FEP) disposed between one or more sublayers of the ePTFE layer. 12. The multilayered vascular prosthesis of claim 11 , wherein the ePTFE layer is impermeable to red blood cell migration across the layer. 13. The multilayered vascular prosthesis of claim 10 , wherein the serially deposited fiber layer comprises rotational spun fibers. 14. A multilayered vascular prosthesis, comprising: a luminal surface comprising a serially deposited fiber layer; an expanded polytetrafluoroethylene (ePTFE) layer coupled to the serially deposited fiber layer, the ePTFE layer providing at least 80% of the tensile strength, measured in at least one direction, of a construct consisting of the serially deposited fiber layer and the ePTFE layer, wherein the ePTFE layer comprises one or more sublayers of ePTFE; and a tissue and cell impermeable layer of fluorinated ethylene propylene (FEP). 15. A multilayered vascular prosthesis, comprising: a luminal surface comprising a serially deposited fiber layer; and a polytetrafluoroethylene (PTFE) layer coupled to the serially deposited fiber layer, the PTFE layer providing at least 80% of the tensile strength, measured in at least one direction, of a construct consisting of the serially deposited fiber layer and the PTFE layer, wherein the prosthesis exerts a radial outward force of less than 2 N/mm at 20% oversizing or the point force required to fully collapse the multilayered vascular prosthesis is greater than 5 N. 16. A multilayered vascular prosthesis, comprising: a luminal surface comprising a serially deposited fiber layer; an expanded polytetrafluoroethylene (ePTFE) layer coupled to the serially deposited fiber layer, the ePTFE layer having an average pore size of less than 6 microns, wherein the ePTFE layer has greater tensile strength than the serially deposited fiber layer in at least one direction along the serially deposited fiber layer and wherein the ePTFE layer comprises one or more sublayers of ePTFE; and one or more sublayers of fluorinated ethylene propylene (FEP) disposed between one or more sublayers of the ePTFE layer.