Arthroscopic devices and methods

What is claimed is: 1. A disposable bipolar RF probe for use in the presence of an electrically conductive fluid, the disposable bipolar RF probe comprising: a shaft including an inner electrically conductive sleeve with a first polarity region at a proximal end thereof and an outer electrically conductive sleeve with a second polarity region at a proximal end thereof, wherein the inner electrically conductive sleeve is concentrically received within the outer electrically conductive sleeve along a longitudinal axis, and a proximal hub including a central passage, wherein the respective proximal ends of the inner and outer electrically conductive sleeves are received in the central passage such that the first polarity region and the second polarity region are exposed in the central passage and are axially separated from each other in the central passage by an annular space that extends fully from the first polarity region to the second polarity region in the central passage, wherein said annular space is open to fluid flow from the first polarity region to the second polarity region to allow the electrically conductive fluid to migrate in a proximal direction through the annular space from the first polarity region to the second polarity region yet has a longitudinal length and a radial dimension selected to achieve an electrical resistance of the electrically conductive fluid along the annular space for limiting current flow between the first polarity region and the second polarity region in the presence of electrically conductive fluid during use. 2. The disposable bipolar RF probe of claim 1 , wherein the inner electrically conductive sleeve is configured to couple RF current flow to a first electrode having a first polarity in a working end of the probe, and the outer electrically conductive sleeve is configured to couple RF current flow to a second electrode having a second polarity in the working end of the probe, the first polarity and the second polarity opposing one another. 3. The disposable bipolar RF probe of claim 2 , wherein said electrical resistance in the presence of electrically conductive fluid during use is achieved sufficiently so that RF current flow to the working end is unimpeded. 4. The disposable bipolar RF probe of claim 1 , wherein at least a portion of the inner electrically conductive sleeve is rotationally disposed in a bore of the outer electrically conductive sleeve. 5. The disposable bipolar RF probe of claim 1 , wherein the longitudinal length is at least 0.5 inch. 6. The disposable bipolar RF probe of claim 5 , wherein the radial dimension is less than 0.010 inch. 7. The disposable bipolar RF probe of claim 1 , wherein the proximal hub is adapted for detachable coupling to a handle carrying first and second electrical contacts for coupling RF current through the proximal hub to said inner and outer electrically conductive sleeves, respectively. 8. A system comprising: the disposable bipolar RF probe of claim 1 ; and a handle, wherein the handle includes a motor drive unit for rotating the inner electrically conductive sleeve when the disposable bipolar RF probe is coupled to the handle. 9. The disposable bipolar RF probe of claim 1 , wherein the longitudinal length is at least 0.6 inch. 10. The disposable bipolar RF probe of claim 9 , wherein the radial dimension is less than 0.004 inch. 11. The disposable bipolar RF probe of claim 9 , wherein the radial dimension is less than 0.002 inch. 12. The disposable bipolar RF probe of claim 1 , wherein the longitudinal length is at least 0.8 inch. 13. The disposable bipolar RF probe of claim 1 , wherein the longitudinal length is at least 1.0 inch. 14. The disposable bipolar RF probe of claim 13 , wherein the radial dimension is in the range of 0.001 inch to 0.002 inch.