Coupling units for medical device delivery systems

We claim: 1. A stent delivery system, comprising: a core member having a distal segment; a coupler positioned about the core member distal segment and rotatably and slidably coupled to the core member, the coupler comprising a rigid plate having: a first substantially flat end surface, a second substantially flat end surface, a side surface extending between the first and second end surfaces, the side surface comprising one or more projections separated by recesses, wherein a maximum diameter of the first and second end surfaces is at least 5 times greater than a length of the side surface, and an aperture extending through the first and second end surfaces and receiving the core member therethrough, the aperture defining a radial gap between an outer surface of the core member and an inner surface of the coupler, the gap configured to permit the coupler to slide and rotate with respect to the core member distal segment; a proximal restraint coupled to the core member distal segment at a position proximal to the first plate, a distal restraint coupled to the core member distal segment at a position distal to the first plate, one or more second rigid plates slidably and rotatably coupled to the core member distal segment between the proximal restraint and the distal restraint; one or more spacers coupled to the core member distal segment between the proximal restraint and the distal restraint; and a stent extending along the core member distal segment such that an inner surface of the stent is engaged by the one or more projections of the coupler, wherein the proximal restraint and the distal restraint are spaced apart along the core member by a longitudinal distance that is greater than the combined length of the first and second rigid plates and the one or more spacers coupled to the core member distal segment between the proximal restraint and the distal restraint. 2. The stent delivery system of claim 1 , wherein the projections comprise rounded edges. 3. The stent delivery system of claim 1 , wherein the one or more projections comprises three or more projections. 4. The stent delivery system of claim 1 , wherein a longest dimension of the first and second end surfaces is configured to fit within a 0.017″, 0.021″ or 0.027″ inner diameter catheter. 5. The stent delivery system of claim 1 , wherein the maximum diameter of the first and second end surfaces are generally orthogonal to the length of the side surface. 6. The stent delivery system of claim 1 , wherein the first rigid plate comprises at least one of a metal or a rigid polymer. 7. The stent delivery system of claim 1 , wherein the first rigid plate side surface has a length of between about 25-100 microns. 8. The stent delivery system of claim 1 , wherein the spacer comprises a cylindrical body having end walls orthogonal to a long axis of the core member. 9. The stent delivery system of claim 1 , wherein the first and second rigid plates are spaced apart from one another by a distance corresponding to a pore pitch of the stent. 10. The stent delivery system of claim 1 , wherein the first and second end surfaces are substantially orthogonal to a long axis of the core member. 11. The stent delivery system of claim 1 , wherein the projections interlock with the stent such that each projection is at least partially received within a pore of the stent. 12. A stent delivery system, comprising: a catheter having a lumen and an inner surface extending along the lumen; a core member, extending within the catheter lumen; a first plate comprising: a first substantially flat end surface, a second substantially flat end surface, and a side surface extending between the first end surface and the second end surface, wherein a maximum diameter of the first and second end surfaces is at least 5 times greater than a length of the side surface; and an aperture extending through the first and second end surfaces, the core member extending through the aperture, the aperture defining a radial gap between an outer surface of the core member and an inner surface of the plate, the gap configured such that the first plate can rotate and slide longitudinally about the core member; a proximal restraint coupled to the core member at a position proximal to the first plate; a distal restraint coupled to the core member at a position distal to the first plate; a second plate rotatably and slidably coupled to the core member at a position between the proximal restraint and the distal restraint; one or more spacers coupled to the core member at a position between the proximal restraint and the distal restraint; and a stent extending along the core member and over the first plate and the second plate, at least a portion of the stent being radially positioned between the first plate side surface and the catheter inner surface, wherein the proximal and distal restraints are spaced apart along the core member by a longitudinal distance that is greater than the combined length of the first and second plates and the one or more spacers. 13. The stent delivery system of claim 12 , wherein the first plate side surface comprises a plurality of projections separated by recesses. 14. The stent delivery system of claim 13 , wherein the projections interlock with the stent such that each projection is at least partially received within a pore of the stent. 15. The stent delivery system of claim 13 , wherein the one or more projections comprises three or more projections. 16. The stent delivery system of claim 12 , wherein the maximum diameter of the first and second end surfaces are generally orthogonal to the length of the side surface. 17. The stent delivery system of claim 12 , wherein the first plate comprises at least one of a metal or a rigid polymer. 18. The stent delivery system of claim 12 , wherein the spacer comprises a cylindrical body having end walls orthogonal to a long axis of the core member. 19. The stent delivery system of claim 12 , wherein the first and second plates are spaced apart from one another by a distance corresponding to a pore pitch of the stent. 20. The stent delivery system of claim 12 , wherein the first plate side surface has a length of between about 25-100 microns.