Continuous flow endoscope systems

What is claimed: 1. An endoscope comprising: a hollow outer sheath defining a longitudinal axis, and being configured for insertion into a patient's body; a hollow inner sheath configured to slideably receive a first internal instrument, the hollow inner sheath being receivable within the hollow outer sheath; and a working element configured to rotatably support at least the first internal instrument and a second internal instrument such that at least the first internal instrument and the second internal instrument are rotatable about a common axis of rotation being substantially coextensive with the longitudinal axis of the hollow outer sheath, wherein the working element comprises at least one guide rail extending longitudinally along the common axis of rotation and an actuator block being slideably mountable to the at least one guide rail, the actuator block being so securable to at least one of the first internal instrument and the second internal instrument as to be able to urge the at least one of the first internal instrument and the second internal instrument longitudinally of the hollow outer sheath as the actuator block slides along the at least one guide rail, wherein the hollow inner sheath is fixedly attached to the working element such that rotation of the working element causes rotation of the hollow inner sheath, the first internal instrument, and the second internal instrument, wherein the hollow inner sheath is an axially asymmetric tubular structure along its length, wherein the working element further comprises a grommet configured to sealingly receive the first internal instrument and the second internal instrument in respective first and second bores, and wherein the first bore defines a first lip configured to urge against the first internal instrument and a second lip configured to urge against the second internal instrument, wherein the first lip extends radially inwardly from an outer circumference of the first bore and the second lip extends radially inwardly from an outer circumference of the second bore. 2. The endoscope of claim 1 , wherein a longitudinal axis of the at least one guide rail is spaced from the first internal instrument and the second internal instrument. 3. The endoscope of claim 1 , wherein the at least one guide rail comprises at least two guide rails positioned in a laterally flanking relationship relative to the first internal instrument. 4. The endoscope of claim 1 , wherein the first lip and the second lip are longitudinally spaced from each other along an insertion direction of the first and second internal instruments. 5. The endoscope of claim 1 , wherein the actuator block defines at least one guide-rail bore and the at least one guide rail extends through the at least one guide-rail bore. 6. The endoscope of claim 1 , wherein the hollow inner sheath is rotatable within the hollow outer sheath such that the hollow inner sheath is configured to orbit within a bore of the hollow outer sheath about the common axis of rotation. 7. The endoscope of claim 6 , wherein the hollow inner sheath is permanently attached to a part of the working element. 8. The endoscope of claim 1 , wherein the working element further comprises: an adapter element defining a longitudinally recessed region and a working fluid inlet bore; and a rotatable element received in the longitudinally recessed region of the adapter element and defining a circumferentially-extending recess such that a circumferentially extending channel is defined between the rotatable element and the adapter element, wherein the rotatable element defines a transverse bore fluidicly coupled to the working fluid inlet bore and to the circumferentially extending channel, and wherein the rotatable element defines an internal instrument bore coupled to the transverse bore, wherein the internal instrument bore is fluidicly coupled to a bore through the hollow inner sheath, such that the working fluid inlet bore is fluidicly coupled to an interior of the hollow inner sheath. 9. The endoscope of claim 1 , wherein the hollow inner sheath extends distally from the working element, and wherein the second internal instrument is positionable between the hollow inner sheath and the hollow outer sheath. 10. An endoscope comprising: a hollow outer sheath defining a longitudinal axis, and being configured for insertion into a patient's body; a hollow inner sheath configured to slideably receive a first internal instrument, the hollow inner sheath being receivable within the hollow outer sheath; a working element configured to rotatably support at least the first internal instrument and a second internal instrument such that at least the first internal instrument and the second internal instrument are rotatable about a common axis of rotation being substantially coextensive with the longitudinal axis of the hollow outer sheath, wherein the working element comprises at least one guide rail extending longitudinally along the common axis of rotation and an actuator block being slideably mountable to the at least one guide rail, the actuator block being so securable to at least one of the first internal instrument and the second internal instrument as to be able to urge the at least one of the first internal instrument and the second internal instrument longitudinally of the hollow outer sheath as the actuator block slides along the at least one guide rail, wherein the second internal instrument is movably securable to the hollow inner sheath by a clip configured to slidingly engage the hollow inner sheath, wherein the hollow inner sheath is fixedly attached to the working element such that rotation of the working element causes rotation of the hollow inner sheath, the first internal instrument, and the second internal instrument, wherein the hollow inner sheath is an axially asymmetric tubular structure along its length, and wherein the working element further comprises a grommet configured to sealingly receive the first internal instrument and the second internal instrument in respective first and second bores, and wherein the first bore defines a first lip configured to urge against the first internal, instrument and a second lip configured to urge against the second internal instrument, wherein the first lip extends radially inwardly from an outer circumference of the first bore and the second lip extends radially inwardly from an outer circumference of the second bore. 11. The endoscope of claim 10 , wherein the hollow inner sheath is axially asymmetric and the clip has a corresponding axially asymmetric contour positioned in sliding engagement with the hollow inner sheath. 12. The endoscope of claim 1 , wherein the second internal instrument comprises an electrode assembly being positionable between the hollow inner sheath and the hollow outer sheath, and wherein the hollow outer sheath defines a distal portion comprising a ceramic coating, and wherein a plane defined by an outlet opening is not parallel to the longitudinal axis of the hollow outer sheath. 13. The endoscope of claim 1 , wherein a gap between a distal portion of the hollow inner sheath and a distal portion of the hollow outer sheath defines an outlet opening of a fluid conduit configured to convey fluid from the patient's body, and wherein the second internal instrument comprises a distally positioned, energizable element being positionable within or adjacent to the outlet opening. 14. The endoscope of claim 13 , wherein the hollow outer sheath defines a substantially cylindrically shaped outer surface free of any outlet openings of a fluid conduit configured to carry fluid away