Arthroscopic devices and methods

What is claimed is: 1. An electrosurgical probe, comprising: an outer sleeve with a longitudinal bore extending therethrough; a distal dielectric housing secured to a distal portion of the outer sleeve such that an internal passage in the distal dielectric housing is open to the longitudinal bore and extends therefrom to a first side opening in an outer surface of the distal dielectric housing; an inner reciprocating assembly received in the longitudinal bore of the outer sleeve for axially reciprocating relative to the longitudinal bore, the inner reciprocating assembly including an inner sleeve with a second side opening in an outer surface of the inner sleeve and a longitudinal passage therein that extends from the second side opening proximally back through the inner sleeve for communicating with a negative pressure source; and an active electrode element carried by a distal portion of the inner reciprocating assembly, the active electrode element including a first cutting edge residing at a location outward of the first side opening in the outer surface of the distal dielectric housing, wherein the active electrode element is configured such that, during a stroke of axial reciprocation of the inner reciprocating assembly relative to the longitudinal bore of the outer sleeve, the first cutting edge is able to move: (i) in a first direction toward and over a first edge portion of the first side opening in the outer surface of the distal dielectric housing; and (ii) in a second direction back over and away from the first edge portion of the first side opening in the outer surface of the distal dielectric housing. 2. The electrosurgical probe of claim 1 , wherein the distal dielectric housing includes an open distal end, the internal passage in the distal dielectric housing extending to the open distal end. 3. The electrosurgical probe of claim 2 , wherein the open distal end of the distal dielectric housing and the first side opening in the outer surface of the distal dielectric housing are connected along the outer surface of the distal dielectric housing. 4. The electrosurgical probe of claim 1 , wherein the first edge portion of the first side opening in the outer surface of the distal dielectric housing comprises a laterally-extending edge. 5. The electrosurgical probe of claim 1 , wherein the first direction is a proximal direction along the distal dielectric housing. 6. The electrosurgical probe of claim 1 , wherein the first direction is a distal direction along the distal dielectric housing. 7. The electrosurgical probe of claim 1 , wherein the distal portion of the inner reciprocating assembly comprises a dielectric member to which the active electrode element is fixed, the dielectric member secured to a distal portion of the inner sleeve. 8. The electrosurgical probe of claim 1 , wherein the first cutting edge comprises a side-facing cutting edge. 9. The electrosurgical probe of claim 1 , wherein the first cutting edge comprises an end-facing cutting edge. 10. The electrosurgical probe of claim 9 , wherein the end-facing cutting edge faces proximally. 11. The electrosurgical probe of claim 1 , wherein, at said location, the first cutting edge extends at least fully across the first side opening in the outer surface of the distal dielectric housing. 12. The electrosurgical probe of claim 11 , wherein, at said location, the first cutting edge is wider than the first side opening in the outer surface of the distal dielectric housing. 13. An electrosurgical probe, comprising: an outer sleeve with a longitudinal bore extending therethrough; a distal dielectric housing secured to a distal portion of the outer sleeve such that an internal passage in the distal dielectric housing is open to the longitudinal bore and extends therefrom to a first side opening in an outer surface of the distal dielectric housing; an inner reciprocating assembly received in the longitudinal bore of the outer sleeve for axially reciprocating relative to the longitudinal bore, the inner reciprocating assembly including an inner sleeve with a second side opening in an outer surface of the inner sleeve and a longitudinal passage therein that extends from the second side opening proximally back through the inner sleeve for communicating with a negative pressure source; and an active electrode element carried by a distal portion of the inner reciprocating assembly, the active electrode element including a first cutting edge residing at a location outward of the first side opening in the outer surface of the distal dielectric housing, the first cutting edge, at said location, comprising a first laterally-positioned cutting portion that is positioned over a first lateral edge of the first side opening in the outer surface of the distal dielectric housing, wherein the active electrode element is configured such that, during a stroke of axial reciprocation of the inner reciprocating assembly where the inner reciprocating assembly moves back and forth between an extended axial position and a retracted axial position relative to the longitudinal bore of the outer sleeve, the first laterally-positioned cutting portion remains positioned over the first lateral edge while moving back and forth longitudinally along said first lateral edge, wherein the distal dielectric housing includes an open distal end, the internal passage in the distal dielectric housing extending to the open distal end, wherein the open distal end of the distal dielectric housing and the first side opening in the outer surface of the distal dielectric housing combine to form a single continuous opening along the outer surface of the distal dielectric housing, wherein the distal portion of the inner reciprocating assembly comprises a dielectric member to which the active electrode element is fixed, the dielectric member secured to a distal portion of the inner sleeve, wherein, along the inner reciprocating assembly, a distal-most portion of the dielectric member extends further distally than the first cutting edge, wherein, during said stroke of axial reciprocation, the extended axial position of the inner reciprocating assembly includes the distal-most portion of the dielectric member protruding distally from the distal dielectric housing through the open distal end of the distal dielectric housing. 14. The electrosurgical probe of claim 13 , wherein the first cutting edge also comprises a second laterally-positioned cutting portion that, at said location, is positioned over a second lateral edge of the first side opening in the outer surface of the distal dielectric housing. 15. The electrosurgical probe of claim 13 , wherein the first cutting edge also comprises an end-facing cutting portion at said location. 16. The electrosurgical probe of claim 15 , wherein the end-facing cutting portion faces proximally.