Pneumatically power-assisted TAVI delivery system

The invention claimed is: 1. A delivery device for a collapsible prosthetic heart valve, the delivery device comprising: an operating handle, including: a housing defining a movement space therein; a piston cylinder disposed within the movement space; a piston slidable in a longitudinal direction within the piston cylinder, the piston and the piston cylinder together defining at least one pressure chamber; a deployment actuator coupled to the housing and rotatable relative to the housing; and a pneumatic switch in fluid communication with the pressure chamber, the pneumatic switch adapted to provide a pressurized fluid to the at least one pressure chamber to apply a force to the piston in the longitudinal direction, wherein rotation of the deployment actuator actuates the pneumatic switch; and a catheter assembly, including: a first shaft around which a compartment is defined, the first shaft being operatively connected to the piston or the housing, the compartment being adapted to receive the valve in an assembled condition; and a distal sheath operatively connected to the piston, the distal sheath being moveable between a closed condition covering the compartment and an open condition uncovering the compartment for deployment of the valve, wherein movement of the piston in the longitudinal direction in the piston cylinder moves the distal sheath between the closed condition and the open condition, and wherein rotation of the deployment actuator in a first direction moves the piston proximally in the longitudinal direction, and rotation of the deployment actuator in a second direction opposite the first direction moves the piston distally in the longitudinal direction. 2. The delivery device of claim 1 , wherein the piston cylinder includes a proximal piston cylinder and a distal piston cylinder, the piston and the proximal piston cylinder together defining a proximal pressure chamber and the piston and the distal piston cylinder together defining a distal pressure chamber. 3. The delivery device of claim 1 , wherein the first shaft is attached to the distal sheath and operatively connected to the piston, the catheter assembly further including an outer shaft connecting the housing to the compartment and at least partially surrounding the first shaft, and wherein the piston cylinder is a distal piston cylinder surrounding a distal end of the piston. 4. The delivery device of claim 1 , wherein the first shaft is operatively connected to the housing, the catheter assembly further includes an outer shaft attached to the distal sheath and operatively connected to the piston, the outer shaft at least partially surrounding the first shaft, wherein the piston cylinder is a proximal piston cylinder surrounding a proximal end of the piston. 5. The delivery device of claim 1 , wherein the deployment actuator is a knob rotatable about a central axis that extends parallel to the longitudinal direction. 6. The delivery device of claim 1 , wherein the piston is a threaded rod in threaded engagement with the deployment actuator. 7. The delivery device of claim 6 , wherein the operating handle further includes a coupling assembly rotationally fixed to the deployment actuator, the coupling assembly having an engaged position in which rotation of the deployment actuator moves the threaded rod in the longitudinal direction, and a disengaged position in which rotation of the deployment actuator does not move the threaded rod in the longitudinal direction. 8. The delivery device of claim 7 , wherein the coupling assembly includes a split nut having a plurality of threaded split nut portions, the split nut portions each being linearly slidable away from one another and away from the threaded rod, the split nut having an engaged position in which threads of the split nut portions are engaged with the threaded rod and a disengaged position in which the threads of the split nut portions do not engage the threaded rod. 9. The delivery device of claim 1 , wherein rotation of the deployment actuator in a first direction actuates the pneumatic switch and provides the pressurized fluid to the at least one pressure chamber. 10. The delivery device of claim 9 , wherein the operating handle further includes a toggle guide moveable in the longitudinal direction relative to the deployment actuator, and rotation of the deployment actuator in the first direction causes movement of the toggle guide in the longitudinal direction away from the deployment actuator, thereby actuating the pneumatic switch. 11. The delivery device of claim 1 , wherein: the piston cylinder includes a proximal piston cylinder and a distal piston cylinder, the piston and the proximal piston cylinder together defining a proximal pressure chamber and the piston and the distal piston cylinder together defining a distal pressure chamber, and rotation of the deployment actuator in a first direction actuates the pneumatic switch and provides the pressurized fluid to the proximal pressure chamber, and rotation of the deployment actuator in a second direction opposite the first direction actuates the pneumatic switch and provides the pressurized fluid to the distal pressure chamber.