Radially expandable polymer prosthesis and method of making same

What is claimed is: 1. An endoprosthesis comprising: a tubular network of struts cut from a radially expanded polymer tube, the tubular network having a central axis and comprising W-shaped closed cells, each W-shaped closed cell abutting six other W-shaped closed cells, each W-shaped closed cell comprising ring struts, link struts, U-shaped hinge elements, and Y-shaped hinge elements, the ring struts forming a plurality of ring structures, each ring structure connected to another one of the ring structures by at least one link strut, each U-shaped hinge element connecting exactly two ring struts to each other, the U-shaped hinge element being tangent to the two ring struts, each Y-shaped hinge element connecting a link strut to exactly two ring struts, wherein each ring structure has an overall curvilinear length from about 12 mm to about 15 mm, an interior space of each of the W-shaped closed cells has an axial dimension that is parallel to the central axis, and the axial dimension is substantially constant with respect to circumferential position within the W-shaped closed cell, and wherein the radially expanded polymer tube, from which the tubular network of struts are cut, forms a polymer core of the ring struts, wherein each ring structure is connected to an adjacent ring structure by exactly three of the link struts so as to form a ring structure pair, there being a plurality of ring structure pairs and there being exactly three W-shaped closed cells within each of the ring structure pairs, wherein the tubular network has an pre-crimp outer diameter and is configured to be crimped from the pre-crimp outer diameter to a post-crimp outer diameter that is less than the pre-crimp outer diameter, and when the tubular network is at the pre-crimp outer diameter, one of the link struts is connected to a first ring strut and a second ring strut, the first and second ring struts connected to opposite ends of the link strut, the first ring strut oriented at about 40 degrees relative to the link strut, the second ring strut oriented at about 50 degrees relative to the link strut. 2. The endoprosthesis of claim 1 , wherein the pre-crimp outer diameter is about 3.5 mm, the post-crimp outer diameter is about 1.3 mm, and the tubular network is configured to be expanded from the post-crimp diameter to an expanded outer diameter of about 3.8 mm. 3. The endoprosthesis of claim 2 , wherein the first ring strut is connected to a first U-shaped hinge element and the second ring strut is connected to a second U-shaped hinge element circumferentially offset from the first U-shaped hinge element when the tubular network is at the post-crimp outer diameter. 4. The endoprosthesis of claim 1 , wherein each W-shaped closed cell has a perimeter that includes eight of the ring struts and two of the link struts. 5. The endoprosthesis of claim 1 , wherein each W-shaped closed cell has a perimeter that includes four of the U-shaped hinge elements and six of the Y-shaped hinge elements. 6. The endoprosthesis of claim 1 , wherein each of the W-shaped closed cells within each ring structure pair has a curvilinear length from about 4 mm to about 5 mm. 7. The endoprosthesis of claim 6 , wherein each of the W-shaped closed cells within each ring structure pair has a curvilinear length of about 4.5 mm. 8. The endoprosthesis of claim 1 , wherein each ring structure has an overall curvilinear length of about 13.5 mm. 9. An endoprosthesis comprising: a tubular network of struts cut from a radially expanded polymer tube, the tubular network having a central axis and comprising W-shaped closed cells, each W-shaped closed cell abutting six other W-shaped closed cells, each W-shaped closed cell comprising ring struts, link struts, U-shaped hinge elements, and Y-shaped hinge elements, the ring struts forming a plurality of ring structures, each ring structure connected to another one of the ring structures by at least one link strut, each U-shaped hinge element connecting exactly two ring struts to each other, the U-shaped hinge element being tangent to the two ring struts, each Y-shaped hinge element connecting a link strut to exactly two ring struts, wherein each ring structure has an overall curvilinear length from about 12 mm to about 15 mm, an interior space of each of the W-shaped closed cells has an axial dimension that is parallel to the central axis, and the axial dimension is substantially constant with respect to circumferential position within the W-shaped closed cell, and wherein the radially expanded polymer tube, from which the tubular network of struts are cut, forms a polymer core of the ring struts, wherein each ring structure is connected to an adjacent ring structure by exactly three of the link struts so as to form a ring structure pair, there being a plurality of ring structure pairs and there being exactly three W-shaped closed cells within each of the ring structure pairs, wherein the tubular network has a pre-crimp outer diameter and is configured to be crimped from the pre-crimp outer diameter to a post-crimp outer diameter that is less than the pre-crimp outer diameter, and wherein one of the link struts is connected to a first ring strut and a second ring strut, the first and second ring struts connected to opposite ends of the link strut, the first ring strut is connected to a first U-shaped hinge element and the second ring strut is connected to a second U-shaped hinge element circumferentially offset from the first U-shaped hinge element when the tubular network is at the pre-crimp outer diameter. 10. The endoprosthesis of claim 9 , wherein the pre-crimp outer diameter is about 3.5 mm, the post-crimp outer diameter is about 1.3 mm, and the tubular network is configured to be expanded from the post-crimp diameter to an expanded outer diameter of about 3.8 mm.