Tissue extraction devices and methods

What is claimed is: 1. A tissue extraction system, comprising: a hysteroscope including a handle coupled to an elongate shaft, the hysteroscope having a working channel and one or more fluid channels extending through the elongate shaft; a resection device including an elongated shaft assembly configured to extend through the working channel, the elongated shaft assembly including an outer sleeve having a tissue-receiving window through a side wall of the outer sleeve into a lumen of the outer sleeve, and an inner sleeve slidably disposed within the lumen of the outer sleeve and configured to resect tissue extending through the tissue-receiving window into the lumen of the outer sleeve by sliding the inner sleeve axially relative to the outer sleeve from a window open configuration to a window closed configuration; and a fluid management system including a pump configured to supply an inflow fluid through the hysteroscope, wherein the fluid management system includes a negative pressure source in fluid communication with the inner sleeve and configured to extract resected tissue therethrough; wherein the inner sleeve includes an electrode element disposed at least partially within the inner sleeve and extending distally therefrom. 2. The tissue extraction system of claim 1 , wherein the resection device includes a terminal chamber defined by a distal portion of the lumen of the outer sleeve and a distal tip fixedly attached to the outer sleeve. 3. The tissue extraction system of claim 2 , wherein the resection device includes a flow passageway configured to at least partially supply pressurized fluid to the terminal chamber. 4. The tissue extraction system of claim 3 , wherein the flow passageway is formed in the outer sleeve. 5. The tissue extraction system of claim 3 , wherein the flow passageway is formed in the inner sleeve. 6. The tissue extraction system of claim 3 , wherein the flow passageway is formed by a space between the inner sleeve and the outer sleeve. 7. The tissue extraction system of claim 1 , wherein the inner sleeve is configured to axially reciprocate within and relative to the outer sleeve. 8. The tissue extraction system of claim 7 , wherein the resection device includes a motor drive for axially reciprocating the inner sleeve relative to the outer sleeve. 9. The tissue extraction system of claim 1 , further comprising an RF energy source electrically coupled to the electrode element. 10. The tissue extraction system of claim 1 , wherein a tissue extraction lumen extending within the inner sleeve has proximal and distal cross-sections that differ from each other. 11. The tissue extraction system of claim 10 , wherein the distal cross-section, adjacent a distal end of the inner sleeve, is smaller than the proximal cross-section. 12. The tissue extraction system of claim 10 , wherein the negative pressure source is coupled to a proximal end of the tissue extraction lumen. 13. The tissue extraction system of claim 1 , wherein a ceramic collar is disposed radially outward of the electrode element. 14. The tissue extraction system of claim 13 , wherein the ceramic collar is disposed distal of a distal end of the inner sleeve. 15. The tissue extraction system of claim 13 , wherein the electrode element extends distal of the ceramic collar. 16. The tissue extraction system of claim 1 , wherein the electrode element defines a tissue-resecting edge that is displaced radially inward from an outer diameter of the inner sleeve. 17. A tissue extraction system, comprising: a hysteroscope including a handle coupled to an elongate shaft, the hysteroscope having a working channel and one or more fluid channels extending through the elongate shaft; a resection device including an elongated shaft assembly configured to extend through the working channel, the elongated shaft assembly including an outer sleeve having a tissue-receiving window through a side wall of the outer sleeve into a lumen of the outer sleeve, and an inner sleeve slidably disposed within the lumen of the outer sleeve and configured to axially translate in a distal direction relative to the outer sleeve from a window open configuration to a window closed configuration; wherein the resection device includes an RF energy source coupled to an annular electrode disposed within a distal end of the inner sleeve and extending distally of the distal end of the inner sleeve; wherein axial translation of the inner sleeve relative to the outer sleeve from the window open configuration to the window closed configuration resects tissue extending through the tissue-receiving window into the lumen of the outer sleeve; and a fluid management system including a pump configured to supply an inflow fluid through the hysteroscope, wherein the fluid management system includes a negative pressure source in fluid communication with the inner sleeve and configured to extract resected tissue therethrough. 18. The tissue extraction system of claim 17 , wherein a distal edge of the annular electrode is disposed proximal of the tissue-receiving window in the window open configuration and the distal edge of the annular electrode is disposed distal of the tissue-receiving window in the window closed configuration. 19. The tissue extraction system of claim 17 , wherein the RF energy source is configured to operate at selected parameters to generate a plasma around a distal edge of the annular electrode. 20. The tissue extraction system of claim 17 , wherein an inner diameter of the annular electrode is less than an inner diameter of the inner sleeve.