Valve prosthesis frames

What is claimed is: 1. A prosthesis comprising: a collapsible and re-expandable frame, the frame having an inflow edge, an outflow edge, a longitudinal axis, and a plurality of coupling elements at the outflow edge of the frame, wherein the frame includes at least first, second, and third sets of struts that form first and second rows of expandable cells, and wherein in an original manufactured condition, struts axially aligned in a column with a coupling element of the plurality of coupling elements are configured to be less stiff than struts not axially aligned with one of the plurality of coupling elements, and wherein a width or thickness of the struts axially aligned in the column with the coupling element is smaller than a respective width or thickness of the struts that are not axially aligned with one of the plurality of coupling elements. 2. The prosthesis of claim 1 , wherein struts of the first set of struts are connected to adjacent struts of the first set of struts at a first plurality of nodes at the inflow edge, the first and second sets of struts are connected at a second plurality of nodes to define the first row of expandable cells, and the second and third sets of struts are connected at a third plurality of nodes to define the second row of expandable cells, and wherein each strut of the first set of struts comprises a first proximal segment, a first intermediate segment with a first width, and a first distal segment, and wherein each strut of the second set of struts comprises a second proximal segment, a second intermediate segment with a second width, and a second distal segment, and wherein the second width of the second intermediate segment of each strut of the second set of struts is greater than the first width of the first intermediate segment of each strut of the first set of struts. 3. The prosthesis of claim 1 , wherein struts of the first set of struts are connected to adjacent struts of the first set of struts at a first plurality of nodes at the inflow edge, the first and second sets of struts are connected at a second plurality of nodes to define the first row of expandable cells, and the second and third sets of struts are connected at a third plurality of nodes to define the second row of expandable cells, and wherein a first length between centers of the first plurality of nodes and centers of the second plurality of nodes is longer than a second length between the centers of the second plurality of nodes and centers of the third plurality of nodes. 4. The prosthesis of claim 1 , wherein struts of the first set of struts are connected to adjacent struts of the first set of struts at a first plurality of nodes at the inflow edge, the first and second sets of struts are connected at a second plurality of nodes to define the first row of expandable cells, and the second and third sets of struts are connected at a third plurality of nodes to define the second row of expandable cells, and wherein each node of the second plurality of nodes has a first length, each node of the third plurality of nodes has a second length, and the first length is longer than the second length. 5. The prosthesis of claim 1 , wherein struts of the first set of struts are connected to adjacent struts of the first set of struts at a first plurality of nodes at the inflow edge, the first and second sets of struts are connected at a second plurality of nodes to define the first row of expandable cells, and the second and third sets of struts are connected at a third plurality of nodes to define the second row of expandable cells, and wherein each strut of the first set of struts comprises a first proximal segment with a first width, a first intermediate segment with a second width, and a first distal segment with a third width, the first width of the first proximal segment being smaller than the second width of the first intermediate segment and the second width of the first intermediate segment being smaller than the third width of the first distal segment. 6. The prosthesis of claim 1 , wherein struts of the first set of struts are connected to adjacent struts of the first set of struts at a first plurality of nodes at the inflow edge, the first and second sets of struts are connected at a second plurality of nodes to define the first row of expandable cells, and the second and third sets of struts are connected at a third plurality of nodes to define the second row of expandable cells, and wherein the first row of expandable cells forms an outwardly flared portion at the inflow edge of the frame and the second row of expandable cells forms a concave saddle portion that is adjacent and distal to the outwardly flared portion. 7. The prosthesis of claim 1 , further comprising: a valve body coupled to the frame. 8. The prosthesis of claim 1 , wherein struts of the first set of struts are connected to adjacent struts of the first set of struts at a first plurality of nodes at the inflow edge, and wherein each node of the first plurality of nodes, which together define an inflow end of the prosthesis, comprises a keyhole-shaped opening having a distal portion with a first width and a proximal portion with a second width that is greater than the first width, and wherein the distal portion of each keyhole-shaped opening opens to a corresponding expandable cell of the first row of expandable cells. 9. The prosthesis of claim 8 , wherein the keyhole-shaped openings distribute forces generated by compressing the frame away from apices of the first plurality of nodes and provide a resulting force distribution at the inflow end of the prosthesis that permits the frame to be more evenly compressed while maintaining strength thereof. 10. A prosthesis comprising: a collapsible and re-expandable frame, the frame having an inflow edge, an outflow edge, a longitudinal axis, and a plurality of coupling elements at the outflow edge of the frame, wherein the frame includes at least first, second, and third sets of struts that form first and second rows of expandable cells, and wherein in an original manufactured condition, struts axially aligned in a column with a coupling element of the plurality of coupling elements are configured to be less stiff than struts not axially aligned with one of the plurality of coupling elements, and wherein a length, width, or thickness of nodes connecting the struts axially aligned in the column with the coupling element are smaller than a respective length, width, or thickness of nodes connecting the struts that are not axially aligned with one of the plurality of coupling elements. 11. The prosthesis of claim 10 , wherein struts of the first set of struts are connected to adjacent struts of the first set of struts at a first plurality of nodes at the inflow edge, the first and second sets of struts are connected at a second plurality of nodes to define the first row of expandable cells, and the second and third sets of struts are connected at a third plurality of nodes to define the second row of expandable cells, and wherein each strut of the first set of struts comprises a first proximal segment, a first intermediate segment with a first width, and a first distal segment, and wherein each strut of the second set of struts comprises a second proximal segment, a second intermediate segment with a second width, and a second distal segment, and wherein the second width of the second intermediate segment of each strut of the second set of struts is greater than the first width of the first intermediate segment of each strut of the first set of struts. 12. The prosthesis of claim 10 , wherein struts of the first set of struts are connected to adjacent str