Apparatus and methods for delivery, repositioning, and retrieval of transcatheter prosthetic valves

What is claimed is: 1. An apparatus, comprising: a recapture device configured to reposition or remove a prosthetic heart valve deployed within a heart, the recapture device including an outer sheath, an outer dilator, an inner dilator, and a handle assembly, the outer sheath defining a first lumen, the outer dilator defining a second lumen and movably disposed at least partially within the first lumen of the outer sheath, the inner dilator defining a third lumen and movably disposed at least partially within the second lumen of the outer dilator, the inner dilator including a distal tip configured to engage a proximal portion of the prosthetic heart valve, the handle assembly operatively coupled to the inner dilator and operatively coupled to the outer sheath, the handle assembly including a tether retention mechanism configured to secure a tether extending from the prosthetic heart valve to the handle assembly, the inner dilator configured to be actuated to move the inner dilator proximally relative to the outer dilator when the tether extending from the prosthetic heart valve is secured to the tether retention mechanism such that a first portion of the prosthetic heart valve moves within the second lumen of the outer dilator and to a collapsed configuration, the outer sheath configured to be actuated to move the outer sheath distally relative to the inner dilator and relative to the outer dilator such that a second portion of the prosthetic heart valve, distal of the first portion of the prosthetic heart valve, moves within the first lumen of the outer sheath and to a collapsed configuration. 2. The apparatus of claim 1 , wherein the first portion of the prosthetic heart valve and the second portion of the prosthetic heart valve collectively form an entirety of the prosthetic heart valve such that the entire prosthetic heart valve is disposed within the outer sheath. 3. The apparatus of claim 1 , wherein the handle assembly further includes a first actuator operatively coupled to the inner dilator and a second actuator operatively coupled to the outer sheath, the first actuator configured to move the inner dilator relative to the outer dilator, the second actuator configured to move the outer sheath relative to the inner dilator and relative to the outer dilator. 4. An apparatus, comprising: a recapture device configured to reposition or remove a prosthetic heart valve deployed within a heart, the recapture device including an outer sheath, an outer dilator, an inner dilator, and a handle assembly, the outer sheath defining a first lumen, the outer dilator defining a second lumen and movably disposed at least partially within the first lumen of the outer sheath, the inner dilator defining a third lumen and movably disposed at least partially within the second lumen of the outer dilator, the inner dilator including a distal tip configured to engage a proximal portion of the prosthetic heart valve, the handle assembly including an actuator operatively coupled to the inner dilator and operatively coupled to the outer dilator, the handle assembly further including a tether retention mechanism configured to secure a tether extending from the prosthetic heart valve to the handle assembly, the actuator including a drive mechanism operatively coupled to a first spring coupled to the inner dilator and to a second spring coupled to the outer dilator, wherein when the actuator is actuated, the inner dilator is configured to move proximally relative to the outer dilator when the tether extending from the prosthetic heart valve is secured to the tether retention mechanism such that a first portion of the prosthetic heart valve is pulled within the second lumen of the outer dilator and moved to a collapsed configuration, and when the outer dilator is actuated after the inner dilator is actuated, the outer dilator is configured to move proximally relative to the outer sheath such that a second portion of the prosthetic heart valve, distal of the first portion of the prosthetic heart valve, is pulled within the first lumen of the outer sheath and moved to a collapsed configuration. 5. The apparatus of claim 4 , wherein the first portion of the prosthetic heart valve and the second portion of the prosthetic heart valve collectively include an entirety of the prosthetic heart valve. 6. The apparatus of claim 4 , wherein the actuator is further operatively coupled to the tether retention mechanism such that the inner dilator and the tether retention mechanism can be actuated to move together. 7. The apparatus of claim 4 , wherein the actuator is further operatively coupled to the tether retention mechanism, the tether retention mechanism including a drive shaft configured to wind the tether into a winding housing as the inner dilator and the outer dilator are actuated. 8. The apparatus of claim 4 , wherein the second spring comprises a different spring rate than the first spring. 9. The apparatus of claim 4 , wherein the first spring includes a coil spring and the second spring includes a tape spring. 10. The apparatus of claim 4 , wherein the first spring includes a coil spring and the second spring includes a coil spring. 11. The apparatus of claim 4 , further comprising a release lever coupled to the outer dilator and configured to releasably secure the outer dilator in a fixed position relative to the outer sheath. 12. A method, comprising: delivering a retrieval device into a heart such that a portion of the retrieval device is positioned adjacent a prosthetic heart valve implanted within the heart, the retrieval device including an inner dilator movably disposed within a lumen of an outer dilator, the outer dilator being disposed at least partially within a lumen of an outer sheath; inserting a tether extending from the prosthetic heart valve through the lumen of the inner dilator; securing the tether of the prosthetic heart valve to a tether retention mechanism of the retrieval device; engaging a distal tip of the inner dilator to a first portion of the prosthetic heart valve; and actuating the inner dilator to cause the inner dilator to move proximally such that the first portion of the prosthetic heart valve moves within the lumen of the outer dilator and to a collapsed configuration. 13. The method of claim 12 , further comprising: repositioning the prosthetic heart valve; and actuating the inner dilator, after the prosthetic heart valve has been repositioned, to cause the inner dilator to move distally such that the first portion of the prosthetic heart valve is deployed from the lumen of the outer dilator and moves to an expanded configuration. 14. The method of claim 12 , further comprising: actuating the outer sheath to cause the outer sheath to move distally relative to the outer dilator and the inner dilator such that a second portion of the prosthetic heart valve moves within the lumen of the outer sheath and to a collapsed configuration, the second portion being distal of the first portion of the prosthetic heart valve; and removing the retrieval device from the heart with the prosthetic heart valve disposed within the lumen of the outer sheath. 15. The method of claim 14 , wherein actuating the inner dilator comprises actuating a first actuator disposed on a handle of the retrieval device to move the inner dilator relative to the outer dilator, and actuating the outer sheath comprises actuating a second actuator separate from the first actuator, the second actuator disposed on the handle of the retrieval device, to move the outer sheath relative to the inner dilator and relative to the outer dil