Illuminating guidewire with optical sensing

We claim: 1. A guide system comprising: (a) a guide member, wherein the guide member comprises a proximal end and a distal end, wherein the guide member comprises at least one illumination fiber; (b) a light source, wherein the light source is operable to project light to the proximal end of the guide member, wherein the at least one illumination fiber is operable to distally transmit the light projected by the light source from the proximal end of the guide member to the distal end of the guide member, wherein the distal end of the guide member is operable to project the distally transmitted light, wherein the distal end of the guide member is further operable to receive light projected from the distal end of the guide member and reflected back toward the distal end of the guide member, wherein the at least one illumination fiber is operable to proximally transmit the reflected light from the distal end of the guide member to the proximal end of the guide member; (c) a detector, wherein the proximal end of the guide member is operable to project the proximally transmitted light toward the detector, wherein the detector is operable to detect the proximally transmitted light; (d) a guide catheter, wherein the guide member is configured to slide through the guide catheter; and (e) a balloon dilation catheter, wherein the balloon dilation catheter is configured to slide along the guide member. 2. The guide system of claim 1 , wherein the distal end of the guide member comprises an atraumatic lens. 3. The guide system of claim 1 , wherein the distal end of the guide member comprises a preformed bend. 4. The guide system of claim 1 , further comprising a beam splitter, wherein the beam splitter is interposed between the light source and the at least one illumination fiber. 5. The guide system of claim 4 , wherein the beam splitter is operable to redirect the light projected by the light source toward the proximal end of the guide member. 6. The guide system of claim 4 , wherein the beam splitter is interposed between the at least one illumination fiber and the detector, wherein the beam splitter is operable to transmit the light projected by the proximal end of the guide member toward the detector. 7. The guide system of claim 1 , wherein the at least one illumination fiber consists of a single illumination fiber, wherein the single illumination fiber is operable to both: (i) distally transmit the light projected by the light source from the proximal end of the guide member to the distal end of the guide member, and (ii) proximally transmit the reflected light from the distal end of the guide member to the proximal end of the guide member. 8. The guide system of claim 1 , wherein the guide member comprises a guidewire. 9. The guide system of claim 8 , wherein the at least one illumination fiber comprises a first illumination fiber and a second illumination fiber, wherein the first illumination fiber is operable to distally transmit the light projected by the light source from the proximal end of the guide member to the distal end of the guide member. 10. The guide system of claim 9 , wherein the second illumination fiber is operable to proximally transmit the reflected light from the distal end of the guide member to the proximal end of the guide member. 11. The guide system of claim 1 , wherein the detector is further operable to determine the presence of an anatomical structure based upon the reflected light. 12. The guide system of claim 11 , wherein the detector is further operable to determine the distance between the anatomical structure and the distal end of the guide member based upon the reflected light. 13. The guide system of claim 11 , wherein the detector is further operable to determine the color of the anatomical structure based upon the reflected light. 14. The guide system of claim 11 , wherein the detector is further operable to determine the type of the anatomical structure based upon the reflected light. 15. The guide system of claim 11 , wherein the detector is further operable to determine the pathology of the anatomical structure based upon the reflected light. 16. The guide system of claim 1 , wherein the detector is further operable to provide indications and/or feedback to an operator based upon the reflected light. 17. The guide system of claim 1 , wherein the guide catheter is configured to slidably receive the balloon dilation catheter with the guide member positioned in the balloon dilation catheter. 18. A guide member positioning system comprising: (a) a guide member, wherein the guide member comprises a proximal end and a distal end, wherein the guide member comprises at least one illumination fiber, wherein the at least one illumination fiber is operable to transmit light from the proximal end to the distal end; (b) a light source, wherein the light source is operable to project light to the proximal end of the guide member; (c) a beam splitter, wherein the beam splitter is operable to redirect the light projected by the light source toward the proximal end of the guide member, wherein the at least one illumination fiber is operable to distally transmit the light redirected by the beam splitter from the proximal end of the guide member to the distal end of the guide member, wherein the distal end of the guide member is operable to project the distally transmitted light, wherein the distal end of the guide member is further operable to receive light projected from the distal end of the guide member and reflected back toward the distal end of the guide member, wherein the at least one illumination fiber is operable to proximally transmit the reflected light from the distal end of the guide member to the proximal end of the guide member, wherein the proximal end of the guide member is operable to project the proximally transmitted light toward the beam splitter; (d) a detector, wherein the beam splitter is operable to transmit the light projected by the proximal end of the guide member toward the detector, wherein the detector is operable to detect the proximally transmitted light; and (e) a dilation catheter including: (i) a dilator, (ii) a first lumen in fluid communication with the dilator, and (iii) a second lumen, wherein the guide member is slidably disposed in the second lumen. 19. A guide member positioning system comprising: (a) a guide member, wherein the guide member comprises a proximal end and a distal end, wherein the guide member comprises a first illumination fiber and a second illumination fiber; (b) a light source, wherein the light source is operable to project light to the first illumination fiber, wherein the first illumination fiber is operable to distally transmit the light projected by the light source from the proximal end of the guide member to the distal end of the guide member, wherein the distal end of the guide member is further operable to receive light projected from the distal end of the guide member and reflected back toward the distal end of the guide member, wherein the second illumination fiber is operable to proximally transmit the reflected light from the distal end of the guide member to the proximal end of the guide member; (c) a detector, wherein the proximal end of the guide member is operable to project the proximally transmitted light toward the detector, wherein the detector is operable to detect the proximally transmitted light, wherein the detector is operable to filter out scattered, reflected or other peripheral light external of the light transmitted fr