Lead with textured insulative layer

We claim: 1. An implantable medical lead comprising: a lead body having a conductor lumen having a substantially smooth inner surface; an electrode on the lead body; and a conductor assembly extending through the conductor lumen, the conductor assembly including: a conductor member coupled to the lead body; and an outer insulative layer disposed about the conductor member, the outer insulative layer including a cross-sectional shape defined by a plurality of generally flat surface segments arranged about a longitudinal axis of the conductor assembly, wherein all intersections of adjacent flat surface segments form v-shaped ridges projecting away from the longitudinal axis to form a textured external surface of the conductor assembly. 2. The implantable medical lead of claim 1 , wherein the flat surface segments extend longitudinally along the conductor assembly. 3. The implantable medical lead of claim 1 , wherein the outer insulative layer includes a polymeric element extruded about the conductor member. 4. The implantable medical lead of claim 1 , wherein the outer insulative layer includes a polymeric element molded about the conductor member. 5. The implantable medical lead of claim 1 , wherein the conductor member includes a multi-strand cable about which the outer insulative layer is formed. 6. The implantable medical lead of claim 1 , wherein the conductor member includes a wire coil about which the outer insulative layer is formed. 7. The implantable medical lead of claim 1 , wherein the conductor member includes a wire coil about which the outer insulative layer is formed. 8. The implantable medical lead of claim 1 , wherein the textured external surface has a surface roughness greater than a surface roughness of the inner surface of the conductor lumen. 9. The implantable medical lead of claim 1 , wherein the plurality of generally flat surface segments consists of five surface segments. 10. The implantable medical lead of claim 1 , wherein the plurality of generally flat surface segments consists of twelve surface segments. 11. A method of forming an implantable medical lead, the method comprising: forming a conductor assembly by extruding a tubular polymeric outer insulative layer over a conductor member through an extrusion die including a cross-sectional shape defined by a plurality of generally flat surface segments arranged about a longitudinal axis of the conductor assembly, wherein all intersections of adjacent flat surface segments form v-shaped ridges projecting away from the longitudinal axis to form a textured external surface on the outer insulative layer; disposing the conductor assembly within a conductor lumen of an insulative lead body, wherein the conductor lumen has a substantially smooth inner surface; and coupling an electrode to the conductor member and the lead body, wherein the textured external surface of the outer insulative layer is configured to minimize frictional forces between the textured external surface and the inner surface of the conductor lumen. 12. The method of claim 11 , wherein the flat surface segments extend longitudinally along the conductor assembly. 13. The method of claim 11 , wherein the conductor member includes a multi-strand cable about which the outer insulative layer is formed. 14. The method of claim 11 , wherein the conductor member includes a wire coil about which the outer insulative layer is formed. 15. A method of forming an implantable medical lead, the method comprising: disposing a tubular-shaped polymeric outer insulative layer onto a conductor member; adding a surface texture to at least a portion of an outer surface of the outer insulative layer, the surface texture including a plurality of generally flat surface segments arranged about a longitudinal axis of the conductor assembly, wherein all intersections of adjacent flat surface segments form v-shaped ridges projecting away from the longitudinal axis; disposing the conductor member with the outer insulative layer disposed thereon within a conductor lumen of an insulative lead body, wherein the conductor lumen has a substantially smooth inner surface; and coupling an electrode to the conductor member and the lead body, wherein the surface texture is configured to minimize friction between the outer insulative layer and the inner surface of the conductor lumen. 16. The method of claim 15 , wherein the step of adding the surface texture to at least a portion of the outer surface of the outer insulative layer includes passing the conductor member and insulative layer together through a die that is configured to add the surface texture to the outer surface of the outer insulative layer. 17. The method of claim 15 , wherein the step of disposing the outer insulative layer onto the conductor member includes extruding the outer insulative layer onto the conductor member. 18. The method of claim 15 , wherein the steps of disposing the outer insulative layer onto the conductor member and adding the surface texture to at least a portion of the outer surface of the outer insulative layer include molding the outer insulative layer onto the conductor member, wherein the mold is configured to add the surface texture to the outer surface of the outer insulative layer. 19. The method of claim 15 , wherein the conductor member includes a multi-strand cable. 20. The method of claim 15 , wherein the conductor member includes a wire coil.