Endoscopic sheath assembly

Having described the invention, the following is claimed: 1. A sheath assembly for an endoscope, the endoscope having a handle portion and an elongate scope portion extending from the handle portion to a tip, the sheath assembly comprising: an elongate tubular body extending along a longitudinal axis between a first distal end opening located at a distal end thereof and a first proximal end opening located at a proximal end thereof, the body comprising: a first wall section extending radially about the longitudinal axis to define a scope lumen, the scope portion of the endoscope being receivable coaxially in the scope lumen with the distal end of the body being disposed adjacent the endoscope tip and the proximal end of the body being disposed adjacent the handle portion of the endoscope; and a second wall section extending radially about at least a portion of the first wall section and longitudinally along the longitudinal axis between a second distal end opening adjacent the first distal end opening and a second proximal end opening adjacent the first proximal end opening, the first and the second wall sections defining an integral suction lumen therebetween connectable in fluid communication with a first source of negative pressure; and a plug mated with the first distal end opening of the body for closing the scope lumen, the plug having a lens surface through which light or other energy is transmissible to or from the endoscope tip, the plug further have at least one suction opening therein disposed in co-registration with the second distal end opening of the body. 2. The sheath assembly of claim 1 , wherein the first and second distal end openings are coterminous. 3. The sheath assembly of claim 1 , wherein at least one aperture extends through the second wall section such that the suction lumen is in fluid communication with an environment external to the sheath assembly. 4. The sheath assembly of claim 1 , wherein the plug has a cross-sectional profile that mirrors a cross-sectional profile of the elongate tubular body. 5. The sheath assembly of claim 1 , wherein the lens surface of the plug is formed from a transparent plastic material. 6. A sheath assembly for an endoscope, the endoscope having a handle portion and an elongate scope portion extending from the handle portion to a tip, the sheath assembly comprising: an elongate tubular body extending along a longitudinal axis between a first distal end opening located at a distal end thereof and a first proximal end opening located at a proximal end thereof, the body comprising: a first wall section extending radially about the longitudinal axis to define a scope lumen, the scope portion of the endoscope being receivable coaxially in the scope lumen with the distal end of the body being disposed adjacent the endoscope tip and the proximal end of the body being disposed adjacent the handle portion of the endoscope; a second wall section extending radially about at least a portion of the first wall section and longitudinally along the longitudinal axis between a second distal end opening adjacent the first distal end opening and a second proximal end opening adjacent the first proximal end opening, the first and the second wall sections defining an integral suction lumen therebetween connectable in fluid communication with a first source of negative pressure; and a plug mated with the first distal end opening of the body for closing the scope lumen, the plug having a lens surface through which light or other energy is transmissible to or from the endoscope tip; wherein the body further comprises at least one rib member extending radially within the suction lumen from a distal end integral with one of the first and the second wall sections to a proximal end disposed opposite the other one of the first and the second wall sections and being bearable thereon to support the suction lumen when the first source of negative pressure is applied, wherein the proximal end of the at least one rib member is free from contact with one of the first and second wall sections in the absence of negative pressure within the suction lumen. 7. The sheath assembly of claim 6 , wherein the plug has a cross-sectional profile that mirrors a cross-sectional profile of the elongate tubular body. 8. The sheath assembly of claim 6 , wherein at least one aperture extends through the second wall section such that the suction lumen is in fluid communication with an environment external to the sheath assembly. 9. The sheath assembly of claim 6 , wherein the lens surface of the plug is formed from a transparent plastic material. 10. A sheath assembly for an endoscope, the endoscope having a handle portion and an elongate scope portion extending from the handle portion to a tip, the sheath assembly comprising: an elongate tubular body extending along a longitudinal axis between a first distal end opening located at a distal end thereof and a first proximal end opening located at a proximal end thereof, the body comprising: a first wall section extending radially about the longitudinal axis to define a scope lumen, the scope portion of the endoscope being receivable coaxially in the scope lumen with the distal end of the body being disposed adjacent the endoscope tip and the proximal end of the body being disposed adjacent the handle portion of the endoscope; a second wall section extending radially about at least a portion of the first wall section and longitudinally along the longitudinal axis between a second distal end opening adjacent the first distal end opening and a second proximal end opening adjacent the first proximal end opening, the first and the second wall sections defining an integral suction lumen therebetween connectable in fluid communication with a first source of negative pressure; and a plug mated with the first distal end opening of the body for closing the scope lumen, the plug having a lens surface through which light or other energy is transmissible to or from the endoscope tip; and a leak-detection mechanism coupled to the body and being configured to provide an indication of the integrity of the sheath assembly before and/or after use. 11. The sheath assembly of claim 10 , wherein the leak-detection mechanism is non-balloon-based. 12. The sheath assembly of claim 10 , wherein the leak-detection mechanism further comprises: a connector extending longitudinally between a forward end portion that coaxially surrounds the first and second proximal end openings and a rearward end portion configured to fit onto the handle portion of the endoscope, the rearward end portion of the connector including an elongate lumen port having a third lumen that opens into fluid communication with the scope lumen of the body, the lumen port being connectable in fluid communication with a second source of negative pressure for evacuating the scope lumen; wherein a wall comprising the lumen port is made of a material having a color that changes upon collapse of the third lumen to visually indicate drawing of vacuum through the lumen port. 13. The sheath assembly of claim 10 , wherein at least one aperture extends through the second wall section such that the suction lumen is in fluid communication with an environment external to the sheath assembly. 14. The sheath assembly of claim 10 , wherein the first and second distal end openings are coterminous.