Arthroscopic devices and methods

What is claimed is: 1. A bipolar radiofrequency (RF) device for treating tissue in the presence of an electrically conductive fluid, comprising: a handpiece including a motor drive, a receiving channel, a first active electrical contact on an inner wall of the receiving channel, and a first return electrical contact on the inner wall of the receiving channel, wherein the first return electrical contact is disposed proximally of the first active electrical contact on the inner wall of the receiving channel; a probe comprising a proximal hub and an elongated shaft extending distally about a longitudinal axis from the proximal hub, the proximal hub being configured for detachable insertion into the receiving channel of the handpiece; a working end at a distal end of the elongated shaft, said working end including an active electrode and a return electrode; and a second return electrical contact, the second return electrical contact located on an outer surface of the proximal hub and disposed proximally of a second active electrical contact on the outer surface of the proximal hub so that: (1) the first return electrical contact engages the second return electrical contact when the proximal hub is inserted into the receiving channel of the handpiece; and (2) the first active electrical contact also engages the second active electrical contact when the proximal hub is inserted into the receiving channel of the handpiece, wherein the second active electrical contact is electrically coupled to an inner sleeve of the elongated shaft by a rotating collar that is fixedly attached to a proximal end of the inner sleeve. 2. The bipolar RF device of claim 1 , wherein the probe comprises a flow channel extending through the elongated shaft to an exit port in the proximal hub that communicates with an interior chamber in the proximal hub, wherein the handpiece comprises an outflow passageway, and wherein an outlet end of the flow channel opens to the receiving channel through the inner wall of the receiving channel. 3. The bipolar RF device of claim 2 , wherein the flow channel extends from a window in the working end to the exit port in the proximal hub and is configured for removal of fluids and tissue debris from a treatment site. 4. The bipolar RF device of claim 3 , wherein the outflow passageway in the handpiece is configured for coupling to a negative pressure source. 5. The bipolar RF device of claim 2 further comprising a first seal between the outer surface of the proximal hub and the inner wall of the receiving channel to inhibit fluid migration between: (i) where the first active electrical contact engages the second active electrical contact when the proximal hub is inserted into the receiving channel of the handpiece; and (ii) where the first return electrical contact engages the second return electrical contact when the proximal hub is inserted into the receiving channel of the handpiece. 6. The bipolar RF device of claim 5 , wherein the first seal comprises a resilient member carried by at least one of the proximal hub and handpiece. 7. The bipolar RF device of claim 5 , wherein a gap between the outer surface of the proximal hub and the inner wall of the receiving channel is sufficiently large to permit fluid migration from the interior chamber in the proximal hub through the gap when the proximal hub is inserted into the receiving channel of the handpiece. 8. The bipolar RF device of claim 1 , wherein the second active electrical contact and the second return electrical contact each comprise a pair of diametrically opposed spring-loaded electrical contacts and the first active electrical contact and the first return electrical contact each comprise a ring electrode extending 360° about a full circumference of the inner wall of the receiving channel. 9. The bipolar RF device of claim 8 , wherein the pair of diametrically opposed spring-loaded electrical contacts of the second return electrical contact are electrically coupled to an outer sleeve of the elongated shaft by a cylindrical core member which extends distally of where the first active electrical contact engages the second active electrical contact when the proximal hub is inserted into the receiving channel of the handpiece. 10. The bipolar RF device of claim 1 , wherein the elongated shaft includes an outer sleeve, the inner sleeve concentrically received within the outer sleeve. 11. The bipolar RF device of claim 10 , wherein the outer sleeve is electrically coupled to the second return electrical contact. 12. The bipolar RF device of claim 11 , wherein the outer sleeve is electrically coupled to the second return electrical contact by a cylindrical core member in which the rotating collar is coaxially disposed. 13. A bipolar radiofrequency (RF) device for treating tissue in the presence of an electrically conductive fluid, comprising: a handpiece including a motor drive, a receiving channel, a first active electrical contact on an inner wall of the receiving channel, and a first return electrical contact on the inner wall of the receiving channel, wherein the first return electrical contact is disposed proximally of the first active electrical contact on the inner wall of the receiving channel; a probe comprising a proximal hub and an elongated shaft extending distally about a longitudinal axis from the proximal hub, the proximal hub being configured for detachable insertion into the receiving channel of the handpiece; a working end at a distal end of the elongated shaft, said working end including an active electrode and a return electrode; and a second return electrical contact, the second return electrical contact located on an outer surface of the proximal hub and disposed proximally of a second active electrical contact on the outer surface of the proximal hub so that: (1) the first return electrical contact engages the second return electrical contact when the proximal hub is inserted into the receiving channel of the handpiece; and (2) the first active electrical contact also engages the second active electrical contact when the proximal hub is inserted into the receiving channel of the handpiece, wherein the second active electrical contact and the second return electrical contact each comprise a pair of diametrically opposed spring-loaded electrical contacts and the first active electrical contact and the first return electrical contact each comprise a ring electrode extending 360° about a full circumference of the inner wall of the receiving channel, wherein the pair of diametrically opposed spring-loaded electrical contacts of the second return electrical contact are electrically coupled to an outer sleeve of the elongated shaft by a cylindrical core member which extends distally of where the first active electrical contact engages the second active electrical contact when the proximal hub is inserted into the receiving channel of the handpiece, wherein the pair of diametrically opposed spring-loaded electrical contacts of the second active electrical contact pass radially through the cylindrical core member and are electrically coupled to an inner sleeve of the elongated shaft by a rotating collar which is coaxially disposed in the cylindrical core member. 14. A bipolar radiofrequency (RF) device for treating tissue in a patient in the presence of an electrically conductive fluid, comprising: a handpiece including a receiving channel and an outflow passageway and being adapted for gripping by the hand of an operator; a probe comprising a proximal hub and an elongated shaft extending distally about a longitudinal axis from the proximal hub to a working end of the pr