Medical ablation system and method of use

What is claimed is: 1. A probe for treating a patient's joint comprising an elongated introducer portion extending to an electrosurgical working end configured to provide a low-temperature plasma about a surface region wherein the thickness of the working end is less than 3.0 mm, less than 2.5 mm or less than 2.0 mm, wherein the electrosurgical working end has an interior chamber having a gap through which the low-temperature plasma is projected, and wherein the gap is sufficiently fluid-tight to prevent liquid flow therethrough but permit propagation of the low-temperature plasma therethrough. 2. The probe of claim 1 wherein the low-temperature plasma has a temperature of less than 80° C., 70° C. 60° C. or 50° C. 3. The probe of claim 1 , wherein the gap comprises an annular gap. 4. The probe of claim 1 , wherein the electrosurgical working end comprises a dielectric or non-conductive body defining the interior chamber. 5. The probe of claim 4 , wherein the dielectric or non-conductive body comprises a polymeric or ceramic material. 6. The probe of claim 1 , wherein the interior chamber is in fluid communication with one or more of a positive pressure source, a pressurized fluid source, or a negative pressure source. 7. The probe of claim 1 , further comprising first and second electrodes disposed upstream of the gap to produce RF current to gas flowing through the gap to generate the low-temperature plasma. 8. A probe for treating a patient's joint comprising an elongated introducer extending along a longitudinal axis to an electrosurgical working end configured to provide a low-temperature plasma about a surface region wherein a distal flex portion of the introducer is flexible relative to the axis, wherein the distal flex portion allows flexibility in at least a single plane relative to the axis, wherein the electrosurgical working end is rotatable relative to the elongated introducer, the electrosurgical working end being rotatable about a rotation axis coaxial with the longitudinal axis when the distal flex portion is aligned with the elongated introducer, wherein the electrosurgical working end has an interior chamber having a gap through which the low-temperature plasma is projected, and wherein the gap is sufficiently fluid-tight to prevent liquid flow therethrough but permit propagation of the low-temperature plasma therethrough. 9. The probe of claim 8 wherein the distal flex portion allows flexibility in a single plane relative to the axis. 10. The probe of claim 8 wherein the distal flex portion allows flexibility in a multiple planes relative to the axis. 11. The probe of claim 8 further comprising a locking mechanism for preventing the distal flex portion from flexing. 12. The probe of claim 8 , wherein the gap comprises an annular gap. 13. The probe of claim 8 , wherein the electrosurgical working end comprises a dielectric or non-conductive body defining the interior chamber. 14. The probe of claim 13 , wherein the dielectric or non-conductive body comprises a polymeric or ceramic material. 15. The probe of claim 8 , wherein the interior chamber is in fluid communication with one or more of a positive pressure source, a pressurized fluid source, or a negative pressure source. 16. The probe of claim 8 , further comprising first and second electrodes disposed upstream of the gap to produce RF current to gas flowing through the gap to generate the low-temperature plasma. 17. A medical probe comprising an elongated introducer extending along a longitudinal axis to an electrosurgical working end configured to provide a plasma about a surface region thereof and an observable indicator at least one side of the working for indicating a plasma-on or plasma-off condition, wherein the electrosurgical working end has an interior chamber having a gap through which plasma is projected, and wherein the gap is sufficiently fluid-tight to prevent liquid flow therethrough but permit propagation of the plasma therethrough. 18. The probe of claim 17 wherein the observable indicator comprises a window element exposed to plasma at the interior of the working end. 19. The probe of claim 17 wherein the observable indicator comprises a thermochromic element exposed to plasma at the interior of the working end. 20. The probe of claim 17 , wherein the gap comprises an annular gap. 21. The probe of claim 17 , wherein the electrosurgical working end comprises a dielectric or non-conductive body defining the interior chamber. 22. The probe of claim 21 , wherein the dielectric or non-conductive body comprises a polymeric or ceramic material. 23. The probe of claim 17 , wherein the interior chamber is in fluid communication with one or more of a positive pressure source, a pressurized fluid source, or a negative pressure source. 24. The probe of claim 17 , further comprising first and second electrodes disposed upstream of the gap to produce RF current to gas flowing through the gap to generate the plasma.