Interventional medical systems, assemblies, and construction methods

The invention claimed is: 1. A catheter for delivering a leadless pacemaker device to an implant site, the catheter comprising: an elongate shaft including a proximal portion, a distal-most portion, and a handle, the proximal portion being secured to the handle and including a sidewall that defines first and second lumens extending alongside one another and along a length of the proximal portion, the distal-most portion including an internal shoulder and a sidewall defining a receptacle, the receptacle having a distal opening defined by a distal terminal end of the distal-most portion sidewall, and the receptacle being sized to contain the leadless pacemaker device therein when a proximal end of the leadless pacemaker device abuts the internal shoulder, and the distal opening being sized to allow passage of the leadless pacemaker device therethrough; and a coiled spring member including one or more proximal turns secured to the proximal portion of the shaft, one or more distal turns secured to the distal-most portion of the shaft, and a plurality of open-pitch turns therebetween, the spring member defining a transition lumen that extends along a longitudinal axis of the spring member, the transition lumen being in fluid communication with the first and second lumens of the proximal portion of the shaft and the receptacle of the distal-most portion of the shaft, the open-pitch turns being pre-loaded by a longitudinal compression thereof, the one or more proximal turns of the spring member having a first diameter, and the one or more distal turns of the spring member having a second diameter, the second diameter being greater than the first diameter; a sheath overlaying the coiled spring member and allowing a bending of the spring member; and a deflection assembly including the handle, a control member subassembly, and an elongate pull wire, the pull wire extending from a proximal end thereof to a distal end thereof, and within the first lumen of the proximal portion of the shaft, and alongside the coiled spring member, the distal end of the pull wire being secured to the distal-most portion of the shaft, and the control member subassembly being mounted to the handle and coupled to the proximal end of the pull wire, the control member subassembly being configured to move the pull wire along the length of the proximal portion of the shaft, thereby controlling the bending of the coiled spring member via the pull wire. 2. The catheter of claim 1 , wherein a distal opening of the first lumen of the proximal portion of the catheter shaft is located at a distal end of the proximal portion, the distal opening being circumferentially offset from the distal end of the pull wire of the deflection assembly, when the spring member is unbent. 3. The catheter of claim 1 , wherein the distal end of the pull wire of the deflection assembly of the catheter is formed in one or more loops, the one or more loops extending around the one or more distal turns of the coiled spring member. 4. The catheter of claim 1 , wherein the longitudinal compression of the open-pitch turns of the coiled spring member of the catheter is between 10 percent and 15 percent of a free length of the coiled spring member. 5. The catheter of claim 1 , wherein the distal-most portion of the catheter shaft further includes a collar coupled to the sidewall of the distal-most portion, the collar forming the internal shoulder of the distal-most portion, and the one or more distal turns of the coiled spring member being coupled to the collar. 6. The catheter of claim 5 , wherein: the distal end of the pull wire of the catheter is formed in one or more loops, the one or more loops extending around the one or more distal turns of the coiled spring member; and a sidewall of the collar of the distal-most portion of the catheter shaft has a recess formed therein, the one or more loops being press fit within the recess. 7. The catheter of claim 5 , wherein a sidewall of the collar has an opening formed therethrough, the distal end of the pull wire extending through the opening of the collar sidewall. 8. The catheter of claim 1 , wherein the distal-most portion of the catheter shaft is formed from a medical grade metal material, and the pull wire of the deflection assembly is secured to the shaft distal-most portion by a weld joint. 9. The catheter of claim 1 , wherein the coiled spring member of the catheter bends up to 180 degrees in a curve as small as a 5 mm radius, when the control member subassembly of the catheter deflection assembly has moved the pull wire proximally. 10. The system of claim 1 , wherein: the handle of the catheter deflection assembly comprises a shell, first and second rows of teeth, and a railway, the shell having an outer surface, an inner surface, and a slot formed through the shell, the slot having opposing first and second sides and proximal and distal ends defining a length of the slot, the length of the slot extending along a longitudinal axis of the handle, the rows of teeth protruding from the inner surface of the shell, the first row extending alongside the first side of the slot, and the second row extending alongside the second side of the slot, and the railway protruding from the inner surface of the shell, opposite the slot and toward the slot; the control member subassembly of the catheter deflection assembly comprises a post, to which the proximal end of the pull wire secured, first and second engagement features, an elastically deformable support, and an operator interface coupled to the post, the operator interface being located adjacent the outer surface of the shell, the post being located in between the first and second engagement features and extending through the slot of the shell, each of the first and second engagement features confronting a corresponding row of the first and second rows of teeth of the handle for interlocking engagement therewith, and the elastically deformable support resting on the railway of the handle; and wherein, when the elastically deformable support of the control member subassembly is un-deformed, each of the first and second engagement features of the control member subassembly interlock with the corresponding row of the first and second rows of teeth, thereby preventing movement of the control member subassembly along the length of the handle slot; and when a force vector is applied to the operator interface of the control member subassembly, the elastically deformable support deforms against the railway of the handle so that the first and second engagement features of the control member subassembly move out from the interlocking engagement with the first and second rows of teeth of the handle, and the control member subassembly moves along the length of the handle slot, the force vector having a first component directed generally toward the railway and along a vertical axis that is generally orthogonal to the longitudinal axis of the handle, and a second component directed along the longitudinal axis of the handle. 11. The system of claim 10 , wherein the first and second rows of teeth and the railway of the deflection assembly handle are integrally formed in the inner surface of the shell. 12. The system of claim 10 , wherein: the elastically deformable support of the control member subassembly comprises first and second flexible cantilever beam members; the railway of the deflection assembly handle comprises first and second rails extending along the longitudinal axis of the handle, the first rail supporting the first beam member of the control member subassembly, and the second rail supporting the second beam member; and the deformation of the elastically d