Actively controllable stent, stent graft, heart valve and method of controlling same

The invention claimed is: 1. A stent assembly radially movable between a contracted configuration and a maximum expanded configuration, the stent assembly comprising: a plurality of longitudinally extending jack strut assemblies, wherein each jack strut assembly comprises a proximal jack strut comprising a distal surface, a distal jack strut comprising a proximal surface, and a jack screw connecting the proximal jack strut and the distal jack strut, wherein the proximal surface of each distal jack strut does not contact the distal surface of each respective proximal jack strut when the stent assembly is in the contracted configuration, and wherein the proximal surface of each distal jack strut contacts the distal surface of each respective proximal jack strut when the stent assembly is in the maximum expanded configuration. 2. The stent assembly of claim 1 , wherein the distal jack strut of each of the jack strut assemblies comprises a bore extending longitudinally therethrough. 3. The stent assembly of claim 2 , wherein the bore of the distal jack strut is internally threaded. 4. The stent assembly of claim 3 , wherein the jack screw of each of the plurality of longitudinally extending jack strut assemblies comprises an externally threaded portion configured for respective coordination with the internally threaded bore of the respective distal jack strut. 5. The stent assembly of claim 1 , wherein the proximal jack strut of each of the jack strut assemblies comprises a bore extending longitudinally therethrough. 6. The stent assembly of claim 5 , wherein the bore of the proximal jack strut is smooth. 7. The stent assembly of claim 6 , wherein the smooth bore of the proximal jack strut is configured to slide about a smooth portion of the jack screw. 8. A prosthetic heart valve comprising: a stent assembly radially movable between a contracted configuration and an expanded configuration and comprising: a plurality of lattice segments, wherein each lattice segment comprises two longitudinally extending struts, a plurality of laterally extending proximal arms disposed between the longitudinally extending struts, and a plurality of laterally extending distal arms disposed between the longitudinally extending struts which together define a cell; a longitudinally extending proximal jack strut disposed between the longitudinally extending struts and coupled to each of the plurality of laterally extending proximal arms, the proximal jack strut comprising a distal end portion and a distal surface at an end thereof; and a longitudinally extending distal jack strut disposed between the longitudinally extending struts and coupled to each of the plurality of laterally extending distal arms, the distal jack strut comprising a proximal end portion and a proximal surface at an end thereof, wherein the distal end portion of the proximal jack strut extends into the cell, wherein the proximal end portion of the distal jack strut extends into the cell, and wherein the distal surface of the proximal jack strut and the proximal surface of the distal jack strut come into contact when the stent assembly is moved to the expanded configuration. 9. The prosthetic heart valve of claim 8 , further comprising a covering disposed around the stent assembly. 10. The prosthetic heart of claim 8 , wherein the longitudinally extending struts, the proximal jack strut, the distal jack strut, the laterally extending proximal arms, and wherein the laterally extending distal arms are formed from one integral piece of shape memory metal and are fixedly coupled together. 11. The prosthetic heart valve of claim 8 , wherein the stent assembly is shape set an intermediate configuration, and wherein the intermediate configuration is radially larger than the contracted configuration and radially smaller than the expanded configuration. 12. The prosthetic heart valve of claim 11 , wherein the stent assembly is configured to self-expand from the contracted configuration to the intermediate configuration. 13. The prosthetic heart valve of claim 8 , wherein each of the plurality of laterally extending proximal arms is connected at a first end to one of the longitudinally extending struts and is connected at a second end to the proximal jack strut. 14. The prosthetic heart valve of claim 8 , wherein each of the plurality of laterally extending proximal arms moves from a longitudinal orientation to a radial orientation when the stent assembly is moved from the contracted configuration to the expanded configuration. 15. The prosthetic heart valve of claim 8 , wherein each of the plurality of laterally extending distal arms is connected at a first end to one of the longitudinally extending struts and is connected at a second end to the distal jack strut. 16. The prosthetic heart valve of claim 8 , wherein each of the plurality of laterally extending distal arms moves from a longitudinal orientation to a radial orientation when the stent assembly is moved from the contracted configuration to the expanded configuration. 17. The prosthetic heart valve of claim 8 , further comprising a valve assembly coupled to the stent assembly and comprising a plurality of leaflets coupled together and configured to move between an open configuration and a closed configuration. 18. A method comprising: moving a stent assembly into a contracted configuration, the stent assembly comprising a proximal jack strut comprising a distal surface, a distal jack strut comprising a proximal surface, and a jack screw connecting the proximal jack strut and the distal jack strut, wherein the distal surface of the proximal jack strut and the proximal surface of the distal jack strut are not in contact in the contracted configuration; inserting the stent assembly in the contracted configuration into a native annulus in which the stent assembly is to be implanted; and forcibly moving the stent assembly in the native annulus to an expanded configuration, wherein the distal surface of the proximal jack strut and the proximal surface of the distal jack strut are in contact in the expanded configuration. 19. The method of claim 18 , wherein the stent assembly is moved into the contracted configuration by rotating a drive wire coupled to the jack screw. 20. The method of claim 18 , wherein the stent assembly is moved into the expanded configuration by rotating a drive wire coupled to the jack screw.