Medical device and methods

What is claimed is: 1 . An endoscopic system, comprising: an endoscope having a main body portion and a shaft portion extending distally from the main body portion, the endoscope including a working channel, an optics channel, and at least one fluid flow channel; and a tissue resecting device including an elongate outer sleeve configured for introduction through the working channel of the endoscope; wherein the working channel extends from a distal end of the shaft portion through the shaft portion and the main body portion to a port at a proximal face of the main body portion, the working channel including a non-straight portion disposed within the main body portion and a straight channel portion extending longitudinally through the shaft portion to the distal end, wherein the non-straight portion is configured to limit axial sliding of the tissue resecting device within the working channel; wherein the optics channel extends from a distal end of the shaft portion through the shaft portion and the main body portion to an optics connector on an exterior of the main body portion; wherein the at least one fluid flow channel extends from a distal end of the shaft portion through the shaft portion and the main body portion to a connector on an exterior of the main body portion. 2 . The endoscopic system of claim 1 , further including a disposable adapter component coupleable to a proximal end of the main body portion. 3 . The endoscopic system of claim 2 , wherein a lumen through the disposable adapter component is configured to communicate with the working channel when the disposable adapter component is coupled to the main body portion. 4 . The endoscopic system of claim 3 , wherein the disposable adapter component includes at least one seal configured to seal around the outer sleeve when the outer sleeve of the tissue resecting device is disposed within the working channel through the lumen of the disposable adapter component, and the at least one seal is configured to seal the lumen when the outer sleeve of the tissue resecting device is absent from the working channel. 5 . The endoscopic system of claim 2 , wherein the endoscope is free of structure protruding into the working channel between the proximal face of the main body portion and the distal end of the shaft portion. 6 . The endoscopic system of claim 1 , wherein the non-straight portion of the working channel has a curved centerline. 7 . The endoscopic system of claim 1 , wherein the non-straight portion of the working channel acts as a resistance feature to limit axial sliding of the outer sleeve within the working channel. 8 . The endoscopic system of claim 1 , wherein the straight channel portion includes a central longitudinal axis extendable to the proximal face to define a hypothetical central axis, wherein a central axis of the non-straight portion at the proximal face is offset from the hypothetical central axis of the straight channel portion at the proximal face. 9 . An endoscopic system for working within a body cavity, comprising: an endoscope having a main body and an elongate shaft extending distally from the main body, the endoscope including a working channel extending through the main body and the elongate shaft, an optics channel extending from the main body through the elongate shaft, and at least one fluid flow channel extending from the main body through the elongate shaft; and a tissue resecting device including an elongate outer sleeve configured for introduction through the working channel of the endoscope; wherein the main body includes an angled extension portion having optics communicating with the optics channel; wherein the working channel has a straight channel portion extending longitudinally through the elongate shaft to a distal end of the elongate shaft, the working channel extends proximally to an aperture in a proximal face of the main body, and a center of the aperture is offset from an axis of the straight channel portion extended to the proximal face, wherein a portion of the working channel within the main body is configured to limit axial sliding of the tissue resecting device within the working channel. 10 . The endoscopic system of claim 9 , further comprising a video camera coupled to a proximal end of the angled extension portion. 11 . The endoscopic system of claim 9 , further comprising a light source coupled to the main body of the endoscope. 12 . The endoscopic system of claim 9 , further comprising a pressure sensor coupled to the main body to measure pressure within the body cavity. 13 . The endoscopic system of claim 12 , wherein the endoscope includes first and second fluid flow channels extending distally through the elongate shaft from the main body. 14 . The endoscopic system of claim 13 , wherein the pressure sensor is coupled to the first fluid flow channel. 15 . The endoscopic system of claim 9 , wherein the center of the aperture is offset from an axis of the straight channel portion extended to the proximal face by about 2 mm to 5 mm. 16 . An endoscopic system for working within a body cavity, comprising: an endoscope having a main body coupled to an elongate shaft extending distally therefrom; first, second, and third channels extending from the main body to a distal end of the elongate shaft; a proximal end of the first channel coupleable to a fluid source to provide fluid flow through the first channel; a proximal end of the second channel coupleable to a pressure sensor for determining a fluid pressure within the body cavity; and a tissue resecting probe configured for introduction through the third channel, wherein the third channel has a straight channel portion that extends longitudinally through the elongate shaft and a proximal channel portion that extends through the main body; wherein a central axis of the proximal channel portion of the third channel at a proximal face of the main body is offset from a hypothetical central axis of the straight channel portion of the third channel if extended to the proximal face of the main body; wherein the main body includes an angled extension portion with optics at a proximal end of the angled extension portion, the optics allowing viewing through an optics channel; wherein the proximal channel portion is configured to provide a selected level of resistance to axial sliding of the tissue resecting probe through the third channel while permitting rotation of the probe within the third channel. 17 . The endoscopic system of claim 16 , wherein a video camera is couplable to the optics at the proximal end of the angled extension portion. 18 . The endoscopic system of claim 16 , wherein the tissue resecting probe includes an elongate shaft assembly comprising an outer sleeve with a lumen therein and an inner sleeve that can reciprocate in the lumen. 19 . The endoscopic system of claim 16 , wherein the central axis of the proximal channel portion of the third channel at the proximal face of the main body is offset from the hypothetical central axis of the straight channel portion of the third channel if extended to the proximal face of the main body by about 2 mm to 5 mm. 20 . The endoscopic system of claim 16 , further including a disposable adapter component coupleable to a proximal end of the main body such that a lumen through the disposable adapter component is configured to communicate with the third channel when the disposable adapter component is coupled to the main body.