Arthroscopic devices and methods

What is claimed is: 1. An arthroscopic system, comprising: a handpiece that includes a motor drive with a rotatable motor shaft; a probe that includes a proximal hub with a rotatable drive coupling located at a proximal end of the proximal hub, the proximal hub detachably couplable to the handpiece so that the rotatable drive coupling engages the rotatable motor shaft, the probe further including an elongate shaft assembly that extends distally from the proximal hub to a working end of the probe, the elongate shaft assembly extending along a first longitudinal axis and including an inner sleeve rotatably received in an outer sleeve, the outer sleeve including a proximal end that is fixed in the proximal hub, the inner sleeve including a proximal end that is fixed to the rotatable drive coupling, the rotatable drive coupling rotatable within the proximal hub via the rotatable motor shaft when the proximal hub is coupled to the handpiece for rotating the inner sleeve within the outer sleeve and relative to the proximal hub, the inner sleeve including a distal opening at the working end of the probe that leads to a longitudinal channel in the inner sleeve, the longitudinal channel couplable to a negative pressure source via coupling of the proximal hub to the handpiece for drawing fluid into the longitudinal channel through the distal opening along a fluid outflow path that extends proximally from the distal opening along the longitudinal channel; and a control console with a controller operatively coupled to the handpiece and including an electrical power source for operating the motor drive, wherein the proximal end of the inner sleeve being fixed to the rotatable drive coupling extends the fluid outflow path into the rotatable drive coupling, the fluid outflow path exiting the rotatable drive coupling through a side opening in the rotatable drive coupling, wherein an annular space separates an outer surface of the inner sleeve from an inner surface of the outer sleeve, wherein the proximal hub incorporates a fluid trap therein that is in fluid communication with the annular space and that is effective, during use of the probe, to trap migratory fluid therein that has migrated along the annular space in a proximal direction from the working end of the probe, the proximal hub also incorporating one or more apertures therein that fluidly connect the fluid trap with an exterior of the proximal hub to allow the migratory fluid to flow outwardly out of the proximal hub during use of the probe, wherein the handpiece and the one or more apertures in the proximal hub cooperate to allow the migratory fluid to flow in a direction from the fluid trap to the one or more apertures and out of the handpiece during use of the probe, wherein the control console includes an inflow peristaltic pump for delivering electrically conductive fluid to a treatment site, wherein the one or more apertures are void of a fluid flow connection to the inflow peristaltic pump. 2. The arthroscopic system of claim 1 , wherein the annular space has a radial dimension of less than 0.010 inch. 3. The arthroscopic system of claim 2 , wherein the radial dimension is less than 0.002 inch. 4. The arthroscopic system of claim 1 , wherein the proximal hub incorporates an electrically conductive core component that is electrically coupled to the proximal end of the outer sleeve. 5. The arthroscopic system of claim 4 , wherein the inner sleeve extends through the electrically conductive core component. 6. The arthroscopic system of claim 4 , wherein a portion of the electrically conductive core component is positioned between the fluid trap and the exterior of the proximal hub with the one or more apertures passing through the electrically conductive core component. 7. The arthroscopic system of claim 1 , wherein the fluid trap extends radially beyond the annular space. 8. The arthroscopic system of claim 7 , wherein the fluid trap is at least partially annular. 9. The arthroscopic system of claim 7 , wherein the fluid trap is annular. 10. The arthroscopic system of claim 1 , wherein a distal portion of the rotatable drive coupling fits over the proximal end of the inner sleeve. 11. The arthroscopic system of claim 1 , wherein the handpiece incorporates a suction lumen therein that directs the fluid outflow path through the handpiece when the proximal hub is coupled to the handpiece. 12. The arthroscopic system of claim 11 , wherein the suction lumen includes a first section extending longitudinally within the handpiece. 13. The arthroscopic system of claim 12 , wherein the suction lumen includes a distal section that is fluidly connected to a passageway in the handpiece in which the proximal hub is received, the distal section angled relative to the first section. 14. An arthroscopic system, comprising: a handpiece that includes a motor drive with a rotatable motor shaft; and a probe that includes a proximal hub with a rotatable drive coupling located at a proximal end of the proximal hub, the proximal hub detachably couplable to the handpiece so that the rotatable drive coupling engages the rotatable motor shaft, the probe further including an elongate shaft assembly that extends distally from the proximal hub to a working end of the probe, the elongate shaft assembly extending along a first longitudinal axis and including an inner sleeve rotatably received in an outer sleeve, the outer sleeve including a proximal end that is fixed in the proximal hub, the inner sleeve including a proximal end that is fixed to the rotatable drive coupling, the rotatable drive coupling rotatable within the proximal hub via the rotatable motor shaft when the proximal hub is coupled to the handpiece for rotating the inner sleeve within the outer sleeve and relative to the proximal hub, the inner sleeve including a distal opening at the working end of the probe that leads to a longitudinal channel in the inner sleeve, the longitudinal channel couplable to a negative pressure source via coupling of the proximal hub to the handpiece for drawing fluid into the longitudinal channel through the distal opening along a fluid outflow path that extends proximally from the distal opening along the longitudinal channel, wherein the proximal end of the inner sleeve being fixed to the rotatable drive coupling extends the fluid outflow path into the rotatable drive coupling, the fluid outflow path exiting the rotatable drive coupling through a side opening in the rotatable drive coupling, wherein an annular space separates an outer surface of the inner sleeve from an inner surface of the outer sleeve, wherein the proximal hub incorporates a fluid trap therein that is in fluid communication with the annular space and that is effective, during use of the probe, to trap migratory fluid therein that has migrated along the annular space in a proximal direction from the working end of the probe, the proximal hub also incorporating one or more apertures therein that fluidly connect the fluid trap with an exterior of the proximal hub to allow the migratory fluid to flow outwardly out of the proximal hub during use of the probe, wherein the handpiece incorporates a first electrical contact and a second electrical contact for coupling RF current through the proximal hub to the inner sleeve and the outer sleeve, respectively, wherein the inner sleeve is configured to couple RF current flow to a first electrode having a first polarity in the working end of the probe, and the outer 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