Surgical cutting device and method for its use

What is claimed is: 1. An endoscopic cutting device for removing tissue from a uterus, the endoscopic cutting device comprising: a distal region configured to be transcervically inserted into the uterus; an inlet valve; an elongated member including discrete channels extending from a proximal region of the elongated member to the distal region, a first of the discrete channels having a proximal end in communication with the inlet valve such that fluid from the inlet valve is able to flow into and through the first discrete channel to the uterus, and a second of the discrete channels having an observation mechanism at a proximal end thereof and a lens adjacent to a distal end thereof, the second discrete channel being sealed from the first discrete channel to prevent the fluid from the inlet valve from entering the uterus through the second discrete channel; a motor driven cutter configured to be inserted into the first discrete channel such that a distal cutting region of the motor driven cutter extends distally beyond the distal region in the uterus; and an electric motor configured to be energized to drive the motor driven cutter to cut and detach the tissue from the uterus, wherein the endoscopic cutting device is configured to deliver the fluid into the uterus through the inlet valve and the first discrete channel to distend the uterus and wherein the endoscopic cutting device is configured to aspirate the cut and detached tissue and at least a portion of the fluid from the uterus through the cutter. 2. The endoscopic cutting device of claim 1 , wherein the second discrete channel is a light channel. 3. The endoscopic cutting device of claim 2 , further comprising a connection for a light source to provide light at the lens. 4. The endoscopic cutting device of claim 1 , wherein the fluid is a physiological salt solution. 5. The endoscopic cutting device of claim 1 , wherein the motor driven cutter includes teeth to cut and detach the tissue from the uterus. 6. The endoscopic cutting device of claim 1 , wherein the motor driven cutter includes an outer tube and an inner tube, and wherein the inner tube is configured to rotate relative to the outer tube to cut and detach the tissue from the uterus. 7. The endoscopic cutting device of claim 1 , wherein the motor driven cutter is configured to only rotate. 8. A device for removing tissue from a uterus, the device comprising: an inlet valve for receiving fluid; a first discrete channel having a proximal end in communication with the inlet valve such that the fluid is able to flow from the inlet valve into and through the first discrete channel to distend the uterus; a second discrete channel having an observation mechanism at a proximal end thereof and a lens adjacent to a distal end thereof, the second discrete channel being sealed from the first discrete channel to prevent the fluid from entering the uterus through the second discrete channel, distal regions of the first and the second discrete channels are configured to be transcervically inserted into the uterus; and a motor driven cutter configured to be inserted into the first discrete channel such that a distal cutting region of the motor driven cutter extends distally beyond a distal end of the first discrete channel into the uterus, the motor driven cutter being configured to be coupled to an electric motor to be energized to drive the motor driven cutter to cut and detach the tissue from the uterus, the motor driven cutter including a lumen to aspirate the cut and detached tissue and at least a portion of the fluid from the uterus therethrough. 9. The device of claim 8 , wherein the second discrete channel is a light channel. 10. The device of claim 9 , further comprising a connection for a light source to provide light at the lens. 11. The device of claim 8 , wherein the fluid is a physiological salt solution. 12. The device of claim 8 , wherein the motor driven cutter includes teeth to cut and detach the tissue from the uterus. 13. The device of claim 8 , wherein the motor driven cutter includes an outer tube and an inner tube. 14. The device of claim 13 , wherein the inner tube is configured to rotate relative to the outer tube to cut and detach the tissue from the uterus. 15. The device of claim 8 , wherein the motor driven cutter is configured to only rotate.