External working channels

What is claimed is: 1. A rigidizing system comprising: an elongate rigidizing device configured to be rigidized from a flexible configuration to a rigid configuration; and a working channel sleeve comprising one or more expandable external working channels formed of one or more non-elastic filaments, the working channel sleeve positioned along the elongate rigidizing device and configured so that the one or more external working channels expands when a tool is passed therethrough, wherein the one or more non-elastic filaments are knitted, braided or woven to form pores having a pore size that may vary as the external working channel is expanded or collapsed. 2. The rigidizing system of claim 1 , wherein the one or more expandable external working channels is coupled to a proximal end region and to a distal end region of the elongate rigidizing device. 3. The rigidizing system of claim 1 , further comprising at least one guide configured to be removably inserted into the one or more expandable external working channels, the at least one guide including a lumen configured to expand the expandable external working channel to enable passage of the tool therethrough. 4. The rigidizing system of claim 3 , wherein the one or more expandable external working channels is configured to reduce in profile as the at least one guide is removed. 5. The rigidizing system of claim 3 , wherein the at least one guide includes an atraumatic distal end. 6. The rigidizing system of claim 3 , wherein the at least one guide comprises a protrusion configured to enable rotational alignment of the at least one guide relative to the one or more expandable external working channels. 7. The rigidizing system of claim 1 , wherein the one or more expandable external working channels comprises a fluoropolymer material. 8. The rigidizing system of claim 1 , wherein the one or more expandable external working channels comprises a hydrophilic coating. 9. The rigidizing system of claim 1 , wherein the one or more expandable external working channels comprises a proximal entry marker thereon configured to indicate a distal exit position. 10. The rigidizing system of claim 1 , wherein the elongate rigidizing device is configured to rigidized by supplying positive or negative pressure to the elongate rigidizing device. 11. The rigidizing system of claim 1 , wherein the one or more non-elastic filaments comprises polytetrafluoroethylene (PTFE). 12. A rigidizing system comprising: an elongate rigidizing device configured to be rigidized from a flexible configuration to a rigid configuration; and a working channel sleeve comprising an outer member extending over an outer surface of the elongate rigidizing device, and one or more expandable external working channels formed of one or more non-elastic filaments and extending along a length of the outer member and configured expand outwards when a tool is inserted therethrough wherein the one or more non-elastic filaments are knitted, braided or woven to form pores having a pore size that may vary as the external working channel is expanded or collapsed. 13. The rigidizing system of claim 12 , wherein the outer member is a fabric tube. 14. The rigidizing system of claim 12 , wherein the outer member comprises a woven, knit or braided tube. 15. The rigidizing system of claim 12 , wherein the outer member is coupled to a proximal end region and to a distal end region of the elongate rigidizing device. 16. The rigidizing system of claim 12 , further comprising at least one guide configured to be removably inserted into an expandable external working channel of the one or more expandable external working channels, the at least one guide including a lumen configured to enable passage of the tool therethrough. 17. The rigidizing system of claim 16 , wherein the at least one guide comprises a protrusion configured to enable rotational alignment of the at least one guide relative to the elongate rigidizing device. 18. The rigidizing system of claim 12 , wherein the outer member comprises an elastomeric, plastic, or composite structure. 19. The rigidizing system of claim 12 , wherein the outer member comprises a polyurethane or silicone material. 20. The rigidizing system of claim 12 , wherein the outer member comprises a fluoropolymer material. 21. The rigidizing system of claim 12 , wherein the outer member comprises a hydrophilic coating. 22. The rigidizing system of claim 12 , wherein each of the one or more expandable external working channels comprises a proximal marker thereon configured to indicate a distal exit position. 23. The rigidizing system of claim 12 , wherein the elongate rigidizing device is configured to rigidized by supplying positive or negative pressure to the elongate rigidizing device. 24. A rigidizing system comprising: an elongate rigidizing device configured to be rigidized by vacuum or pressure from a flexible configuration to a rigid configuration; and a working channel sleeve comprising an outer member extending over an outer surface of the elongate rigidizing device and coupled to a proximal end region and to a distal end region of the elongate rigidizing device, and one or more expandable external working channels formed of one or more non-elastic filaments and extending along a length of the outer member and configured to lay flat against the elongate rigidizing device in a first configuration and to expand outwards to a second configuration when a tool is inserted therethrough wherein the one or more non-elastic filaments are knitted, braided or woven to form pores having a pore size that may vary as the external working channel is expanded or collapsed. 25. A endoscopic system comprising: an elongate endoscopic device configured to diagnose and treat disease within the body, an expandable working channel sleeve extending over an outer surface of the endoscopic device, the expandable working channel formed of one or more non-elastic filaments and configured expand when a tool is inserted therethrough, wherein the one or more non-elastic filaments are knitted, braided or woven to form pores having a pore size that may vary as the external working channel is expanded or collapsed.