Tissue extraction devices and methods

What is claimed is: 1. An electrosurgical tissue resecting probe, comprising: a metallic outer sleeve having a lumen extending longitudinally therein and a window extending through a side wall of the metallic outer sleeve proximate a distal end of the metallic outer sleeve; and an inner sleeve movably disposed within the lumen of the metallic outer sleeve and having a distal electrode edge configured to resect tissue extending into the window; wherein a radially outward facing edge of the window at least partly comprises a dielectric material that is flush with an outer surface of the metallic outer sleeve. 2. The electrosurgical tissue resecting probe of claim 1 , wherein the dielectric material has a radial thickness substantially equal to a radial thickness of the metallic outer sleeve. 3. The electrosurgical tissue resecting probe of claim 1 , further comprising a dielectric layer disposed on an inner surface of the metallic outer sleeve. 4. The electrosurgical tissue resecting probe of claim 3 , wherein the dielectric layer overlaps and is bonded to the dielectric material. 5. The electrosurgical tissue resecting probe of claim 1 , wherein the outer surface of the metallic outer sleeve comprises a second polarity electrode. 6. The electrosurgical tissue resecting probe of claim 1 , wherein the metallic outer sleeve includes an interlocking structure configured to engage with a mating interlocking structure of the dielectric material to fixedly secure the dielectric material relative to the metallic outer sleeve. 7. The electrosurgical tissue resecting probe of claim 6 , wherein the mating interlocking structure of the dielectric material and the interlocking structure of the metallic outer sleeve prevents rotational movement of the dielectric material relative to the metallic outer sleeve. 8. The electrosurgical tissue resecting probe of claim 6 , wherein the mating interlocking structure of the dielectric material and the interlocking structure of the metallic outer sleeve prevents axial movement of the dielectric material relative to the metallic outer sleeve. 9. The electrosurgical tissue resecting probe of claim 6 , wherein the mating interlocking structure of the dielectric material and the interlocking structure of the metallic outer sleeve prevents radial outward displacement of the dielectric material relative to the metallic outer sleeve. 10. The electrosurgical tissue resecting probe of claim 6 , wherein the interlocking structure of the metallic outer sleeve includes at least one beveled edge. 11. The electrosurgical tissue resecting probe of claim 6 , wherein the interlocking structure of the metallic outer sleeve includes a plurality of keys, wherein each key includes: a circumferential slot having a first end adjacent the edge of the window and a second end opposite the first end; and an enlarged opening at the second end of the circumferential slot; wherein the circumferential slot has a first longitudinal extent and the enlarged opening has a second longitudinal extent greater than the first longitudinal extent. 12. The electrosurgical tissue resecting probe of claim 11 , wherein the circumferential slot includes at least one beveled edge. 13. The electrosurgical tissue resecting probe of claim 11 , wherein the circumferential slot includes a proximal beveled edge and a distal beveled edge. 14. The electrosurgical tissue resecting probe of claim 13 , wherein the proximal beveled edge and the distal beveled edge are angled toward each other in a radially outward direction. 15. An electrosurgical tissue resecting probe, comprising: a metallic outer sleeve having a lumen extending longitudinally therein and a window extending through a side wall of the metallic outer sleeve proximate a distal end of the metallic outer sleeve; and an inner sleeve movably disposed within the lumen of the metallic outer sleeve and having a distal electrode edge configured to resect tissue extending into the window; wherein an edge of the window at least partly comprises a dielectric material having a radial thickness substantially equal to a radial thickness of the metallic outer sleeve; wherein the metallic outer sleeve includes a plurality of keys configured to engage with the dielectric material to prevent movement of the dielectric material relative to the metallic outer sleeve. 16. The electrosurgical tissue resecting probe of claim 15 , wherein the metallic outer sleeve has a central longitudinal axis; wherein a radially outermost surface of the metallic outer sleeve is disposed a first radial distance from the central longitudinal axis; wherein a radially outermost surface of the dielectric material is disposed a second radial distance from the central longitudinal axis; wherein the second radial distance is equal to or less than the first radial distance. 17. The electrosurgical tissue resecting probe of claim 15 , wherein the radial thickness of the dielectric material is from about 0.003 inches to about 0.010 inches. 18. The electrosurgical tissue resecting probe of claim 15 , wherein the plurality of keys extends circumferentially away from the window. 19. The electrosurgical tissue resecting probe of claim 15 , wherein each of the plurality of keys has a width ranging from 0.002 inches to 0.020 inches. 20. The electrosurgical tissue resecting probe of claim 15 , wherein each of the plurality of keys has a circumferential depth ranging from 0.002 inches to 0.020 inches.