Replacement heart valve and method

What is claimed is: 1. A replacement heart valve for deployment at a diseased native valve, the replacement heart valve comprising: an expandable frame configured to collapse radially to a first size for delivery and to expand radially to a second size upon deployment, the frame having an upstream end and a downstream end; a valve body positioned within the expandable frame, the valve body comprising a plurality of valve leaflets configured to permit blood flow in a downstream direction and to prevent blood flow in an upstream direction; and a material layer comprising one or more flaps positioned between the upstream and downstream ends of the frame along an exterior surface of the frame, each flap covering a corresponding opening in the replacement heart valve, wherein each flap is configured to allow blood to flow through the corresponding opening in a downstream direction when the frame is being expanded at the diseased native valve; wherein each flap is attached at an upstream end of the corresponding opening. 2. The replacement heart valve of claim 1 , wherein the one or more flaps comprise a plurality of flaps positioned around a circumference of the replacement heart valve that cover a plurality of the corresponding opening. 3. The replacement heart valve of claim 1 , wherein the one or more flaps are configured to allow blood to flow through the corresponding openings from a location external the replacement valve to a location internal to the replacement valve. 4. The replacement heart valve of claim 3 , wherein the location internal to the replacement valve is downstream of the plurality of valve leaflets. 5. The replacement heart valve of claim 1 , wherein the exterior surface of the frame is configurable to have an at least partially conical shape to facilitate blood to flow through the corresponding openings. 6. The replacement heart valve of claim 1 , wherein each of the valve leaflets has a scalloped, upstream edge. 7. The replacement heart valve of claim 6 , wherein the one or more flaps are located downstream of the scalloped, upstream edges of the valve leaflets. 8. The replacement heart valve of claim 1 , wherein the corresponding openings are located upstream of an upstream side of the valve leaflets. 9. A replacement heart valve for deployment at a diseased native valve, the replacement heart valve comprising: an expandable frame comprising a proximal end and a distal end, the frame configured to radially expand and collapse for deployment at the diseased native valve, wherein the frame comprises a plurality of struts defining a plurality of cells; a valve body comprising a plurality of valve leaflets, wherein each of the valve leaflets extends between a fixed proximal edge and a free distal edge, the free distal edges configured to open to allow flow in a first direction from the frame proximal end to the frame distal end and configured to alternatively close to prevent flow in a second direction from the frame distal end to the frame proximal end; and a valve skirt attached to the expandable frame covering one or more of the cells of the frame, wherein the valve skirt defines one or more openings that are sized and configured to promote blood flow through the one or more openings, wherein the one or more openings are located proximally of the proximal edge of the valve leaflets; and one or more flaps formed from a layer of material, each flap covering a corresponding one of the one or more openings defined by the valve skirt, wherein the one or more flaps are configured to allow blood to flow through the one or more openings in substantially one direction. 10. The replacement heart valve of claim 9 , wherein the one or more openings are sized and configured to promote blood flow in substantially the second direction. 11. The replacement heart valve of claim 9 , wherein the one or more openings are sized and configured to allow blood flow in the first direction. 12. A replacement heart valve for deployment at a diseased native valve, the replacement heart valve comprising: an expandable frame comprising a proximal end and a distal end, the frame configured to radially expand and collapse for deployment at the diseased native valve, wherein the frame comprises a plurality of struts defining a plurality of cells; a valve body comprising a plurality of valve leaflets, wherein each of the valve leaflets extends between a fixed proximal edge and a free distal edge, the free distal edges configured to open to allow flow in a first direction from the frame proximal end to the frame distal end and configured to alternatively close to prevent flow in a second direction from the frame distal end to the frame proximal end; and a valve skirt attached to the frame covering one or more of the cells of the frame, wherein: valve skirt comprises multiple layers of material that overlap one another, and the valve skirt defines one or more openings that are sized and configured to promote blood flow through one or more cells of the frame covered by the valve skirt in the first direction, the one or more openings defined between the layers to allow blood to flow through the layers. 13. The replacement heart valve of claim 12 , wherein the one or more openings are located at a portion of the frame configurable into a conical shape. 14. The replacement heart valve of claim 12 , wherein each of the valve leaflets has a scalloped proximal edge. 15. The replacement heart valve of claim 14 , wherein the one or more openings are located distal of the scalloped proximal edges of the valve leaflets. 16. The replacement heart valve of claim 12 , wherein the plurality of valve leaflets are attached to the valve skirt. 17. The replacement heart valve of claim 12 , wherein the one or more openings are located proximally of the proximal edge of the valve leaflets.