Arthroscopic devices and methods

What is claimed is: 1. A c ting device for cutting tissue in a joint of a patient, the cutting device comprising: an inner sleeve having a proximal end, a distal end, and an axial extraction channel therein that extends through the inner sleeve for connecting to a negative pressure source; a ceramic cutting member disposed at the distal end of the inner sleeve for rotation with the inner sleeve, the ceramic cutting member including a window formed therein that communicates with the axial extraction channel, the ceramic cutting member including a first burr cutting edge formed thereon for cutting tissue when rotated or oscillated against tissue, wherein a distal end of the window extends distally of a proximal end of the first burr cutting edge in an axial direction along the ceramic cutting member, and wherein a proximal end of the window extends proximally of the proximal end of the first burr cutting edge in the axial direction along the ceramic cutting member; and a motor drive operatively connected to the proximal end of the inner sleeve for rotating the inner sleeve at a speed of at least 3,000 rpm. 2. The cutting device of claim 1 , wherein a distal end of the first burr cutting edge extends distally of the distal end of the window in the axial direction along the ceramic cutting member. 3. The cutting device of claim 1 further comprising a first electrode carried by the ceramic cutting member. 4. The cutting device of claim 3 , wherein the entirety of the first electrode is positioned distal of the distal end of the window. 5. The cutting device of claim 1 , wherein the ceramic cutting member includes a second burr cutting edge. 6. The cutting device of claim 5 , wherein the distal end of the window is located between the first burr cutting edge and the second burr cutting edge. 7. The cutting device of claim 1 further comprising an outer sleeve in which the inner sleeve is rotatably received, the proximal end of the first burr cutting edge located distally of a distal-most surface of the outer sleeve. 8. The cutting device of claim 7 , wherein the outer sleeve includes a distal cut-out portion that extends proximally of the distal-most surface of the outer sleeve. 9. The cutting device of claim 8 , wherein a proximal portion of the window is rotatable in the distal cut-out portion of the outer sleeve such that a first side edge of the window is able to resect tissue in a scissor-like manner when rotated or oscillated past a sharp side edge of the distal cut-out portion. 10. A cutting device for cutting tissue in a joint of a patient, the cutting device comprising: an inner sleeve having a proximal end, a distal end, and an axial extraction channel therein that extends through the inner sleeve for connecting to a negative pressure source; a ceramic cutting member disposed at the distal end of the inner sleeve for rotation with the inner sleeve, the ceramic cutting member including a window formed therein that communicates with the axial extraction channel, the ceramic cutting member including a first burr cutting edge formed thereon for cutting tissue when rotated or oscillated against tissue, wherein the first burr cutting edge extends radially outwardly from an outer surface of the ceramic cutting member and extends at least partially alongside the window in an axial direction along the ceramic cutting member; and a motor drive operatively connected to the proximal end of the inner sleeve for rotating the inner sleeve at a speed of at least 3,000 rpm. 11. The cutting device of claim 10 , wherein a distal end of the window extends distally of a proximal end of the first burr cutting edge in the axial direction along the ceramic cutting member. 12. The cutting device of claim 10 , wherein the ceramic cutting member includes a second burr cutting edge, and wherein a distal end of the window is located between the first burr cutting edge and the second burr cutting edge. 13. The cutting device of claim 12 , wherein a proximal end of the window extends proximally of a proximal end of the first burr cutting edge in the axial direction along the ceramic cutting member. 14. The cutting device of claim 13 , wherein the distal end of the window extends distally of the proximal end of the first burr cutting edge in the axial direction along the ceramic cutting member. 15. The cutting device of claim 14 , wherein a distal end of the first burr cutting edge extends distally of the distal end of the window in the axial direction along the ceramic cutting member. 16. The cutting device of claim 10 further comprising an outer sleeve in which the inner sleeve is rotatably received, wherein a proximal end of the first burr cutting edge is located distally of a distal-most surface of the outer sleeve when the inner sleeve is rotatably received in the outer sleeve, wherein the outer sleeve includes a distal cut-out portion that extends proximally of the distal-most surface of the outer sleeve, and wherein a proximal portion of the window is rotatable in the distal cut-out portion of the outer sleeve. 17. The cutting device of claim 16 , wherein the proximal end of the first burr cutting edge extends proximally of a distal end of the window in the axial direction along the ceramic cutting member. 18. The cutting device of claim 17 , wherein a distal end of the first burr cutting edge extends distally of the distal end of the window in the axial direction along the ceramic cutting member. 19. The cutting device of claim 18 , wherein the proximal portion of the window is located proximally of the proximal end of the first burr cutting edge in the axial direction along the ceramic cutting member. 20. A cutting device for cutting tissue in a joint of a patient, the cutting device comprising: an inner sleeve having a proximal end, a distal end and an axial extraction channel therein that extends through the inner sleeve for connecting to a negative pressure source; a ceramic cutting member disposed at the distal end of the inner sleeve for rotation with the inner sleeve, the ceramic cutting member including a window formed therein that communicates with the axial extraction channel, the ceramic cutting member including a first burr cutting edge formed thereon for cutting tissue when rotated or oscillated against tissue, wherein the first burr cutting edge extends at least partially alongside the window in an axial direction along the ceramic cutting member; and a motor drive operatively connected to the proximal end of the inner sleeve for rotating the inner sleeve at a speed of at least 3,000 rpm, wherein a distal end of the first burr cutting edge extends distally of the distal end of the window in the axial direction along the ceramic cutting member. 21. The cutting device of claim 20 , wherein a proximal end of the window extends proximally of the proximal end of the first burr cutting edge in the axial direction along the ceramic cutting member.