Controlled ingrowth feature for antimigration

What is claimed is: 1 . A stent, comprising: a tubular scaffolding having an outer surface and an inner surface defining a lumen extending therethrough, wherein the tubular scaffolding is configured to radially expand from a delivery configuration to a deployed configuration; and a protruding element extending radially outward from the outer surface in the deployed configuration; wherein the tubular scaffolding is formed from at least one filament interwoven about a central longitudinal axis of the stent; wherein the protruding element is formed from a portion of the at least one filament. 2 . The stent of claim 1 , further comprising a cover secured to the tubular scaffolding. 3 . The stent of claim 2 , wherein the tubular scaffolding includes a plurality of scaffold openings extending through the tubular scaffolding from the outer surface to the inner surface and the cover spans at least some of the plurality of openings. 4 . The stent of claim 2 , wherein the cover is configured to prevent tissue ingrowth into the lumen. 5 . The stent of claim 1 , wherein protruding element is configured to engage a wall of a body lumen when the tubular scaffolding is in the deployed configuration within the body lumen. 6 . The stent of claim 1 , wherein the protruding element defines a gap between the protruding element and the outer surface. 7 . The stent of claim 1 , wherein the protruding element defines a maximum radial extent measured radially outward from the outer surface, the maximum radial extent being in a range of about 0.25 millimeters to about 4 millimeters. 8 . The stent of claim 7 , wherein the range of the maximum radial extent is about 0.5 millimeters to about 2 millimeters. 9 . The stent of claim 1 , wherein the protruding element is oriented non-parallel to the central longitudinal axis of the stent. 10 . A stent, comprising: a tubular scaffolding having an outer surface and an inner surface defining a lumen extending therethrough, wherein the tubular scaffolding is configured to radially expand from a delivery configuration to a deployed configuration; and a plurality of protruding elements extending radially outward from the outer surface in the deployed configuration; wherein the tubular scaffolding is formed from at least one filament interwoven about a central longitudinal axis of the stent; wherein each of the plurality of protruding elements is formed from the at least one filament. 11 . The stent of claim 10 , wherein the plurality of protruding elements is disposed between a first end of the tubular scaffolding and a second end of the tubular scaffolding opposite the first end. 12 . The stent of claim 10 , wherein the plurality of protruding elements is configured to engage a wall of a body lumen when the tubular scaffolding is in the deployed configuration within the body lumen. 13 . The stent of claim 12 , wherein the plurality of protruding elements permits tissue ingrowth between the plurality of protruding elements and the outer surface when engaged with the wall of the body lumen. 14 . The stent of claim 12 , wherein the plurality of protruding elements is configured to prevent axial migration of the stent within the body lumen in the deployed configuration. 15 . The stent of claim 10 , further comprising a cover extending along at least a portion of the tubular scaffolding to prevent tissue ingrowth into the lumen. 16 . A stent, comprising: a tubular scaffolding having an outer surface and an inner surface defining a lumen extending therethrough, wherein the tubular scaffolding is configured to radially expand from a delivery configuration to a deployed configuration; and a protruding element extending radially outward from the outer surface in the deployed configuration; wherein the tubular scaffolding is formed from at least one filament interwoven about a central longitudinal axis of the stent; wherein the protruding element is formed from a separate filament distinct from the at least one filament forming the tubular scaffolding. 17 . The stent of claim 16 , further comprising a cover extending along at least a portion of the tubular scaffolding to prevent tissue ingrowth into the lumen. 18 . The stent of claim 16 , wherein the separate filament is oriented parallel to one or more of the at least one filament. 19 . The stent of claim 16 , wherein the separate filament is secured to the tubular scaffolding. 20 . The stent of claim 16 , wherein the separate filament is interwoven into the tubular scaffolding.