Deployment handle for delivery of implants

What is claimed is: 1. A delivery device for delivering multiple implants, the device comprising: an inner shaft comprising a proximal end, a distal end, and a lumen extending from the proximal end to the distal end; an outer sheath having a proximal end, a distal end, and a second lumen extending from the proximal end of the outer sheath to the distal end of the outer sheath, the outer sheath being moveable relative to the inner shaft; a rotary deployment handle configured to cause movement of the outer sheath relative to the inner shaft so as to facilitate delivery of multiple implants carried by the inner shaft at spaced-apart locations along the inner shaft, wherein the rotary deployment handle comprises: a thumbwheel; a belt and pulley assembly operably coupled to the thumbwheel and to the outer sheath such that rotation of the thumbwheel in a first rotational direction causes movement of the outer sheath relative to the inner shaft; a lockout assembly configured to: (a) cause the thumbwheel to transition from a locked configuration in which the thumbwheel is unable to rotate to an unlocked configuration in which the thumbwheel is able to rotate and (b) tension the belt during the transition from the locked configuration to the unlocked configuration; and a re-sheath assembly configured to facilitate re-sheathing of the inner shaft by pulling a re-sheath housing that is coupled to the inner shaft in a proximal direction, thereby moving the inner shaft relative to the outer sheath; wherein the lockout assembly comprises a lockout lever, the lockout lever comprising a proximal end portion configured to extend out of a main housing of the rotary deployment handle when the lockout assembly is in a locked configuration and a distal end fixedly coupled to the main housing of the rotary deployment handle; and wherein the lockout assembly further comprises a lockout plate comprising a proximal abutment surface configured to interface with a protrusion of the lockout lever and multiple engagement members configured to interface with one or more recesses between a plurality of teeth of the thumbwheel so as to prevent rotation of the thumbwheel when the lockout assembly is in the locked configuration, wherein the lockout plate is biased to move toward a proximal end of the rotary deployment handle by a spring. 2. The delivery device of claim 1 , further comprising a ratchet wheel configured to interact with the thumbwheel in such a manner so as to allow rotation of the thumbwheel in the first rotational direction but not in a second opposite rotational direction. 3. The device of claim 1 , wherein, upon depression of the proximal end portion of the lever into the main housing by an operator, the lockout assembly transitions to an unlocked configuration by causing the protrusion of the lever to disengage from the proximal abutment surface of the lockout plate, thereby causing the lockout plate to move proximally so as to allow a proximal engagement member of the multiple engagement members of the lockout plate to disengage from the thumbwheel and thereby allow the thumbwheel to rotate. 4. The device of claim 1 , wherein the re-sheath assembly comprises the re-sheath housing removably coupled to a proximal end of the main housing of the rotary deployment handle, a re-sheath button located adjacent the proximal end of the main housing distal to the re-sheath housing, and a re-sheath rack located within the main housing of the rotary deployment handle. 5. The device of claim 4 , wherein the re-sheath button is configured to prevent longitudinal movement of the re-sheath housing and re-sheath rack unless the re-sheath button is pressed into the main housing by an operator. 6. A delivery device for delivering implants, the device comprising: an inner shaft comprising a proximal end and a distal end; an outer sheath having a proximal end, a distal end, and a lumen extending from the proximal end of the outer sheath to the distal end of the outer sheath, the outer sheath being moveable relative to the inner shaft; a deployment handle configured to cause movement of the outer sheath relative to the inner shaft so as to facilitate delivery of multiple implants carried by the inner shaft at spaced-apart locations, wherein the deployment handle comprises: an elongated main housing comprising a proximal end and a distal end and an upper surface; a deployment actuator configured to cause the movement of the outer sheath relative to the inner shaft; and a re-sheath assembly configured to facilitate re-sheathing of the inner shaft prior to removal of the delivery device from a treatment zone within a subject after deployment of one or more of the multiple implants at the treatment zone, wherein the re-sheath assembly comprises a re-sheath housing removably coupled to the proximal end of the main housing of the deployment handle, a re-sheath button located adjacent the proximal end of the main housing distal to the re-sheath housing, and a re-sheath rack located within the main housing of the deployment handle, wherein a proximal end of the re-sheath rack is fixedly coupled to the re-sheath housing and wherein the inner shaft is operably coupled to the re-sheath housing such that retraction of the re-sheath housing in a proximal direction away from the main housing causes the re-sheath rack and the inner shaft to move in a proximal direction, thereby re-sheathing the inner shaft within the outer sheath; wherein the deployment actuator comprises a thumbwheel extending out of the upper surface of the main housing, the thumbwheel comprising a plurality of teeth configured to engage with links of a belt that is operatively coupled to the outer sheath so as to effect movement of the outer sheath relative to the inner shaft when the thumbwheel is rotated; and wherein movement of the re-sheath rack in the proximal direction during re-sheathing causes the thumbwheel to transition to be placed in a locked configuration such that rotation of the thumbwheel is prevented during re-sheathing. 7. The device of claim 6 , wherein the re-sheath button is configured to prevent longitudinal movement of the re-sheath housing and re-sheath rack unless the re-sheath button is pressed into the main housing by an operator. 8. The device of claim 6 , further comprising a plurality of flush ports extending outward from the proximal end of the re-sheath housing to facilitate flushing of a lumen of the inner shaft and the lumen of the outer sheath. 9. The device of claim 6 , wherein the inner shaft comprises a lumen extending from the proximal end to the distal end. 10. A method of delivering implants at multiple different treatment sites within a subject, the method comprising: advancing a delivery catheter to a first treatment site within the subject, wherein the delivery catheter comprises an inner shaft and an outer sheath concentrically surrounding the inner shaft, wherein the inner shaft and the outer sheath are configured to move relative to each other, a deployment actuator configured to cause the movement of the outer sheath relative to the inner shaft, and wherein the inner shaft is loaded with a plurality of implants at spaced-apart locations along the length of the inner shaft; wherein the deployment actuator comprises a thumbwheel extending out of an upper surface of a main housing of a rotary deployment handle, the thumbwheel comprising a plurality of teeth configured to engage with links of a belt that is operatively coupled to the outer sheath so as to effect movement of the outer sheath relative to the inner shaft when the thumbwheel is rotated; deploying a first implant of the plurality of implants at the first treatment site wi