Medical device

The invention claimed is: 1. A method for positioning a guide wire in a medical device, the method comprising: positioning a proximal section of the guide wire exteriorly of a proximal section of a shaft of the medical device; positioning an intermediate section of the guide wire such that the intermediate section of the guide wire radially accesses an intermediate section of the shaft, wherein the intermediate section of the shaft defines a guide wire channel having (a) a proximal portion radially between an outer sleeve of the shaft and a core body of the shaft and (b) a distal portion extending through the core body, the proximal portion of the guide wire channel being proximal to a discontinuity in the intermediate section of the shaft, and the distal portion of the guide wire channel being distal to the discontinuity, wherein the discontinuity is in the outer sleeve of the shaft, wherein the intermediate section of the guide wire extends along the guide wire channel through the discontinuity, and wherein the outer sleeve is fixedly attached to the core body such that an outer surface of the core body engages an inner surface of the outer sleeve; and positioning a distal section of the guide wire within a distal section of the shaft, wherein the distal section of the guide wire is routed through the guide wire channel between the discontinuity and a guide wire opening at a distal end of the shaft. 2. The method of claim 1 , further including deflecting the distal end of the shaft using at least one steering wire extending through the shaft. 3. The method of claim 1 , wherein positioning the intermediate section of the guide wire includes inserting the guide wire through the discontinuity, the discontinuity including a slot, wherein the slot and the guide wire channel define a slotted channel section, and wherein the slot includes substantially parallel edges separated by a gap. 4. The method of claim 3 , wherein the guide wire transitions between the interior of the shaft and the exterior of the shaft where the slotted channel section terminates, as the guide wire channel transitions from being disposed outside of the core body to being disposed inside of the core body. 5. The method of claim 1 , wherein the distal section of the guide wire is routed through an intermediate sleeve disposed radially between the core body and the outer sleeve at the distal section of the shaft, and wherein a proximal end of the intermediate sleeve terminates distally of a distal end of the discontinuity. 6. The method of claim 1 , wherein positioning the intermediate section of the guide wire includes passing the intermediate section of the guide wire through a guide wire port fixedly secured to the intermediate section of the shaft, and wherein the guide wire port includes a funnel-shaped extension for guiding the guide wire. 7. The method of claim 6 , further comprising inserting the guide wire through the funnel shaped extension before inserting the guide wire through the discontinuity. 8. A method for positioning a guide wire in a medical device, the method comprising: positioning a proximal section of the guide wire exteriorly of a proximal section of a shaft of the medical device; positioning an intermediate section of the guide wire such that the intermediate section of the guide wire radially accesses an intermediate section of the shaft, wherein the intermediate section of the guide wire passes radially between an exterior of the shaft and an interior of the shaft through a slot in the intermediate section of the shaft, wherein the slot is in an outer sleeve of the shaft, wherein the interior of the shaft includes a guide wire channel extending through a core body of the shaft, the guide wire channel receiving the guide wire, and wherein the outer sleeve covers the core body; and positioning a distal section of the guide wire within a distal section of the shaft, wherein the distal section of the guide wire is routed through the guide wire channel between the slot and a guide wire opening at a distal end of the shaft, such that the distal section of the guide wire passes through an intermediate sleeve disposed radially between the outer sleeve and the core body, and wherein a proximal end of the intermediate sleeve terminates distally of a distal end of the slot, such that interference between the intermediate section of the guide wire and the intermediate sleeve is avoided. 9. The method of claim 8 , further including sliding the distal section of the guide wire through the distal section of the shaft, while the outer sleeve locks the intermediate sleeve in place and secures the intermediate sleeve to the core body. 10. The method of claim 8 , further including sliding the guide wire through a portion of the slot in the core body. 11. A method for positioning a guide wire in a medical device, the method comprising: inserting the guide wire through an aperture of a channel in a shaft of the medical device, the channel defining a passageway between an outer surface of an outer sleeve of the shaft and a longitudinally-extending guide wire lumen within the shaft; engaging a moveable member of the shaft with the guide wire during insertion of the guide wire through the aperture, wherein the moveable member is configured to move between a first position and a second position, the moveable member being closer to the aperture in the first position than in the second position, wherein the outer sleeve is adjacent to, and radially outward of, the moveable member in both the first position and the second position; and routing the guide wire through a portion of the guide wire lumen distal to the channel. 12. The method of claim 11 , wherein engaging the moveable member includes deflecting the moveable member against a biasing force acting on the moveable member. 13. The method of claim 11 , wherein engaging the moveable member includes deflecting the guide wire as the guide wire is forced against the moveable member. 14. The method of claim 11 , wherein movement of the moveable member between the first and second positions opens a path between the channel and the portion of the guide wire lumen distal to the channel. 15. The method of claim 11 , wherein movement of the moveable member between the first and second positions closes a path between the channel and the portion of the guide wire lumen distal to the channel.