Transcatheter delivery system and method with controlled expansion and contraction of prosthetic heart valve

What is claimed is: 1. A delivery system for a prosthetic heart valve comprising: a shaft assembly; and a coupling structure disposed near a distal end of the shaft assembly and configured to be coupled to the prosthetic heart valve, wherein the coupling structure self-expands from a compressed state to an expanded state via removal of compressive forces, wherein the coupling structure includes a base portion disposed near the distal end of the shaft assembly and a plurality of legs extending proximally from the base portion in the compressed state, wherein each of the legs includes an end portion to be coupled to a distal end of the prosthetic heart valve, and wherein the coupling structure provides a controlled gradual expansion of the prosthetic heart valve. 2. The delivery system of claim 1 , wherein the coupling structure is configured to be automatically released from the prosthetic heart valve when the prosthetic heart valve expands beyond a threshold amount. 3. The delivery system of claim 1 , wherein the coupling structure comprises a shape memory material. 4. The delivery system of claim 1 , wherein the coupling structure comprises Nitinol. 5. The delivery system of claim 1 , wherein the coupling structure is configured to be coupled to an inflow end of the prosthetic heart valve. 6. The delivery system of claim 1 , wherein the coupling structure is configured to be coupled to an outflow end of the prosthetic heart valve. 7. The delivery system of claim 1 , wherein the legs are angled away from a longitudinal axis of the base portion in the expanded state of the coupling structure. 8. The delivery system of claim 1 , wherein the shaft assembly comprises a nose cone disposed at the distal end of the shaft assembly, and wherein the coupling structure is slidably attached to the nose cone. 9. The delivery system of claim 1 , wherein the coupling structure provides the controlled gradual expansion and a controlled gradual contraction of the prosthetic heart valve based on longitudinal movement of the distal end of the shaft assembly that causes contraction and self-expansion of the coupling structure. 10. The delivery system of claim 1 , further comprising: a sheath assembly defining a lumen sized to slidably receive the shaft assembly; and wherein the delivery system is configured to transition from a loaded state in which the sheath assembly encompasses the prosthetic heart valve to a deployed state in which the sheath assembly is withdrawn from the prosthetic heart valve. 11. A delivery system for a prosthetic heart valve comprising: a shaft assembly; and a coupling structure disposed near a distal end of the shaft assembly and configured to be coupled to the prosthetic heart valve, wherein the coupling structure self-expands from a compressed state to an expanded state via removal of compressive forces, wherein the coupling structure includes a base portion disposed near the distal end of the shaft assembly and a plurality of legs extending proximally from the base portion, wherein each of the legs includes an end portion to be coupled to a distal end of the prosthetic heart valve, and wherein the coupling structure provides a controlled gradual contraction of the prosthetic heart valve based on longitudinal movement of the shaft assembly. 12. The delivery system of claim 11 , wherein the coupling structure is configured to be coupled to an inflow end of the prosthetic heart valve. 13. The delivery system of claim 11 , wherein the coupling structure is configured to be coupled to an outflow end of the prosthetic heart valve. 14. The delivery system of claim 11 , wherein the shaft assembly comprises a nose cone disposed at the distal end of the shaft assembly, and wherein the coupling structure is slidably attached to the nose cone. 15. The delivery system of claim 11 , wherein the coupling structure provides a controlled gradual expansion and the controlled gradual contraction of the prosthetic heart valve based on longitudinal movement of the distal end of the shaft assembly. 16. The delivery system of claim 11 , further comprising: a sheath assembly defining a lumen sized to slidably receive the shaft assembly; and wherein the delivery system is configured to transition from a loaded state in which the sheath assembly encompasses the prosthetic heart valve to a deployed state in which the sheath assembly is withdrawn from the prosthetic heart valve. 17. The delivery system of claim 11 , wherein the coupling structure is configured to be moved in a first direction to provide a controlled expansion of the prosthetic heart valve, and wherein the coupling structure is configured to be moved in a second direction opposite the first direction to provide a controlled contraction of the prosthetic heart valve. 18. The delivery system of claim 11 , wherein the coupling structure comprises a shape memory material. 19. The delivery system of claim 11 , wherein the legs are angled away from a longitudinal axis of the base portion in an expanded state of the coupling structure.