Dynamically rigidizing overtube

What is claimed is: 1 . A rigidizing overtube comprising: an elongate flexible tube comprising an outer layer and an inner layer; a plurality engagers between the outer layer and the inner layer, the plurality of layers comprising a plurality of male and female engagers, the plurality of male and female engagers positioned in an alternating arrangement around a circumference of the elongate flexible tube; and a port configured to apply a vacuum between the outer layer and the inner layer, wherein the application of vacuum between the outer layer and the inner layer fixes the plurality of male engagers relative to female engagers by constricting the outer layer and/or the inner layer against the plurality of engagers and transitions the rigidizing overtube from a flexible configuration to a rigid configuration, further wherein release of the application of vacuum returns the rigidizing overtube to the flexible configuration. 2 . The rigidizing overtube of claim 1 , wherein plurality of engagers extend substantially the entire length of the overtube. 3 . The rigidizing overtube of claim 1 , wherein the plurality of male and female engagers are connected to a mount. 4 . The rigidizing overtube of claim 3 , wherein the plurality of male and female engagers are each connected to the mount by a plurality of pivoting connectors. 5 . The rigidizing overtube of claim 3 , wherein then mount comprises a mounting ring or mounting spiral. 6 . The rigidizing overtube of claim 1 , wherein the plurality of male and female engagers are positioned in an alternating arrangement along a longitudinal axis of the rigidizing overtube. 7 . The rigidizing overtube of claim 1 , wherein the male engagers each have a double-wedge shaped cross section. 8 . The rigidizing overtube of claim 1 , wherein the plurality of female engagers each have an I-shaped cross section. 9 . The rigidizing overtube of claim 1 , further comprising a plurality of motion stops configured to prevent the plurality of male and female engagers from disengaging with one another when pulled apart axially. 10 . The rigidizing overtube of claim 9 , wherein the plurality of motion stops include serrations on the plurality of female engagers configured to interface with serrations on the plurality of male engagers, and vice versa. 11 . A rigidizing overtube comprising: an elongate flexible tube comprising an outer layer and an inner layer; a plurality engagers between the outer layer and the inner layer, the plurality of layers comprising a plurality of male and female engagers, the plurality of male and female engagers positioned in an alternating arrangement around a circumference of the elongate flexible tube; a handle at a proximal end of the elongate overtube; and a port on the handle configured to couple to a source of vacuum to apply vacuum between the outer layer and the inner layer, wherein the application of vacuum between the outer layer and the inner layer fixes the plurality of male engagers relative to female engagers by compressing the plurality engagers between the outer layer and the inner layer and transitions the rigidizing overtube from a flexible configuration to a rigid configuration, further wherein release of the application of vacuum returns the rigidizing overtube to the flexible configuration. 12 . The rigidizing overtube of claim 11 , wherein plurality of engagers extend substantially the entire length of the overtube. 13 . The rigidizing overtube of claim 11 , wherein the plurality of male and female engagers are connected to a mount. 14 . The rigidizing overtube of claim 13 , wherein the plurality of male and female engagers are each connected to the mount by a plurality of pivoting connectors. 15 . The rigidizing overtube of claim 13 , wherein then mount comprises a mounting ring or mounting spiral. 16 . The rigidizing overtube of claim 11 , wherein the plurality of male and female engagers are positioned in an alternating arrangement along a longitudinal axis of the rigidizing overtube. 17 . The rigidizing overtube of claim 11 , wherein the male engagers each have a double-wedge shaped cross section. 18 . The rigidizing overtube of claim 11 , wherein the plurality of female engagers each have an I-shaped cross section. 19 . The rigidizing overtube of claim 11 , further comprising a plurality of motion stops configured to prevent the plurality of male and female engagers from disengaging with one another when pulled apart axially. 20 . The rigidizing overtube of claim 19 , wherein the plurality of motion stops include serrations on the plurality of female engagers configured to interface with serrations on the plurality of male engagers, and vice versa.