Expandable catheter system for peri-ostial injection and muscle and nerve fiber ablation

What is claimed is: 1. A circumferential ablation system for ablating tissue in the ostial wall of a target vessel comprising: an inner tube coupled to an injector manifold; a sheath; at least two expandable injector tubes secured to said injector manifold, the injector manifold configured to ensure uniform expansion of the at least two expandable injector tubes, each of said injector tubes having an injector tube lumen, each of said injector tubes having an injector needle, each injector needle having an injector needle lumen, each injector needle being connected to the distal end of the respective injector tube and each injector needle lumen being in fluid communication with the injector tube lumen; a mechanical structure initially disposed within the sheath and configured to move radially outward, the mechanical structure movable to a diameter larger than the diameter of the sheath, the at least two expandable injector tubes and the injector manifold movable relative to the mechanical structure and along a longitudinal axis of the injector manifold; a penetration limiting mechanism configured to limit the penetration of the injector needles; and an external source of ablative fluid in fluid communication with each of said injector tube lumens. 2. The circumferential ablation system as recited in claim 1 further including an outer tube; and wherein the inner tube is in concentric alignment with said outer tube. 3. The circumferential ablation system as recited in claim 2 wherein the sheath is located coaxially outside of the outer tube. 4. The circumferential ablation system of claim 3 where said sheath has a closed position and a open position, where the sheath in the closed position extends in the distal direction so as to completely cover the injector needles. 5. The circumferential ablation system of claim 3 where said at least two expandable injector tubes are radially displaceable with respect to a central axis responsive to a relative longitudinal displacement of said sheath with respect to said outer tube. 6. circumferential ablation system as recited in claim 4 where said at least two expandable injector tubes are expanded when the sheath is in the open position. 7. The circumferential ablation system as recited in claim 2 further including a middle tube that concentrically surrounds the inner tube, and is concentrically surrounded by the outer tube. 8. The circumferential ablation system as recited in claim 1 where each of said injector tubes is fixedly coupled to said injector manifold at a proximal end of each of said injector tubes. 9. The circumferential ablation system as recited in claim 8 where each of said injector tubes is fixed to said inner tube by the injector manifold. 10. The circumferential ablation system as recited in claim 1 where said injector manifold is substantially annular in contour having at least two through openings passing in said longitudinal direction, each of said injector tubes being insertable within a respective one of said through openings. 11. The circumferential ablation system as recited in claim 10 where said injector manifold is adhesively coupled to said inner tube. 12. The circumferential ablation system as recited in claim 10 where said injector manifold is molded in one piece formation with said inner tube. 13. The circumferential ablation system as recited in claim 1 where said penetration limiting mechanism is a hub member fixedly attached to each of said injector tubes. 14. The circumferential ablation system as recited in claim 1 wherein said inner tube has a guide wire lumen. 15. The circumferential ablation system as recited in claim 1 including a guide wire insertable through a guide wire lumen defined by said inner tube. 16. The circumferential ablation system of claim 15 having an over-the-wire configuration where the guide wire lumen runs the entire length of a catheter body of the circumferential ablation system. 17. The circumferential ablation system of claim 1 having a rapid exchange configuration where a proximal end of a guide wire lumen exits from a catheter body of the circumferential ablation system at a location at least 10 cm distal to a proximal end of the catheter body. 18. The circumferential ablation system as recited in claim 1 where said at least two expandable injector tubes are self-expanding. 19. The circumferential ablation system as recited in claim 18 where said at least two expandable injector tubes are formed of a nickel titanium alloy. 20. The circumferential ablation system as recited in claim 1 where said ablative fluid is an ethanol composition. 21. The circumferential ablation system as recited in claim 1 including a fixed wire delivery mechanism. 22. A circumferential ablation system for ablating tissue in the ostial wall of a target vessel comprising: a sheath; a catheter body having a central axis extending in a longitudinal direction and a fluid injection lumen; an injector manifold; at least two expandable injector tubes secured to said injector manifold, each of said injector tubes having an injector tube lumen, each of said injector tubes having an injector needle, each injector needle having an injector needle lumen, each injector needle being connected to the distal end of the respective injector tube and each injector needle lumen being in fluid communication with the injector tube lumen; a mechanical structure initially disposed within the sheath, the mechanical structure radially movable to a diameter larger than the diameter of the sheath, the at least two expandable injector tubes and the injector manifold configured to slide independently relative to the mechanical structure and along the central axis of the catheter body, a penetration limiting mechanism configured to limit the penetration of the injector needles; and an external source of ablative fluid in fluid communication with each of said injector tube lumens. 23. The circumferential ablation system as recited in claim 22 where said mechanical structure is formed of a nickel titanium alloy. 24. The circumferential ablation system of claim 22 where said sheath has a closed position and a open position, where the sheath in the closed position extends in the distal direction so as to completely cover the injector needles. 25. The circumferential ablation system of claim 22 where said at least two expandable injector tubes are radially displaceable with respect to said central axis responsive to a relative longitudinal displacement of said sheath with respect to said catheter body. 26. The circumferential ablation system as recited in claim 22 where said at least two expandable injector tubes are expanded when the sheath is in the open position. 27. The circumferential ablation system as recited in claim 22 wherein said mechanical structure has a predetermined deployed cross-sectional diameter for centering of the circumferential ablation system within said target vessel. 28. The circumferential ablation system as recited in claim 22 where said at least two expandable injector tubes are self-expanding. 29. The circumferential ablation system as recited in claim 22 where said at least two expandable injector tubes are configured to expand to their preset diameters. 30. The circumferential ablation system as recited in claim