Stent including anti-migration capabilities

What is claimed is: 1 . An implantable stent with anti-migration capabilities, comprising: an expandable scaffold formed of one or more interwoven filaments extending from a first end region to a second end region, the interwoven filaments defining a plurality of cell openings therebetween, wherein the expandable scaffold is configured to shift from a radially collapsed state to a radially expanded state; a base coating layer disposed along the expandable scaffold, the base coating layer surrounding each filament and spanning across the plurality of cell openings in both the radially collapsed state and the radially expanded state; and a micro-pattern coating layer disposed on an outer surface of the base coating layer such that when the expandable scaffold shifts to the radially expanded state, the micro-pattern coating layer includes individual elongate strips spaced apart by elongate channels in which the base coating layer is exposed between adjacent elongate strips of the micro-pattern coating layer, wherein at least a portion of the micro-pattern coating layer includes a plurality of anti-migration members extending outward from a wall of the micro-pattern coating layer. 2 . The implantable stent of claim 1 , wherein the micro-pattern coating layer extends around an entire circumference of the expandable scaffold in the radially collapsed state. 3 . The implantable stent of claim 1 , wherein the micro-pattern coating layer extends along an entire length of the expandable scaffold. 4 . The implantable stent of claim 1 , wherein the elongate channels extend longitudinally along an entire length of the expandable scaffold. 5 . The implantable stent of claim 1 , wherein the micro-pattern coating layer includes one or more linear slits, channels, or grooves configured to separate the micro-pattern coating layer into the individual elongate strips when the expandable scaffold is in the radially expanded state. 6 . The implantable stent of claim 1 , wherein the elongate channels extend continuously along a longitudinal axis of the expandable scaffold from the first end region to the second end region. 7 . The implantable stent of claim 1 , wherein the micro-pattern coating layer includes a plurality of preferential separation regions extending within the wall of the micro-pattern coating layer, each preferential separation region positioned between a first region of the micro-pattern coating layer and a second region of the micro-pattern coating layer, and wherein each preferential separation region is configured to permit the first region of the micro-pattern coating layer to separate from the second region of the micro-pattern coating layer along the preferential separation region therebetween, creating one of the elongate channels between the first region and the second region as the expandable scaffold shifts from the radially collapsed state to the radially expanded state. 8 . The implantable stent of claim 7 , wherein each preferential separation region extends linearly along a longitudinal axis of the expandable scaffold. 9 . The implantable stent of claim 7 , wherein the preferential separation regions extend continuously along a longitudinal axis of the expandable scaffold. 10 . The implantable stent of claim 7 , wherein each preferential separation region extends helically along the expandable scaffold. 11 . The implantable stent of claim 7 , wherein the preferential separation regions only extend through a portion of a thickness of the micro-pattern coating layer. 12 . The implantable stent of claim 1 , wherein the base coating layer is formed from a material having a greater elasticity than a material forming the micro-pattern coating layer. 13 . An implantable stent with anti-migration capabilities, comprising: an expandable scaffold formed of one or more interwoven filaments extending from a first end region to a second end region, the interwoven filaments defining a plurality of cell openings therebetween, wherein the expandable scaffold is configured to shift from a radially collapsed state to a radially expanded state; a base coating layer disposed along the expandable scaffold, the base coating layer surrounding each filament and spanning across the plurality of cell openings in both the radially collapsed state and the radially expanded state; and a micro-pattern coating layer covering an outer surface of the base coating layer, wherein when the expandable scaffold is in the radially collapsed state, the micro-pattern coating layer extends around an entire circumference of the expandable scaffold, and when the expandable scaffold shifts to the radially expanded state, the micro-pattern coating layer separates into a plurality of individual longitudinal strips spaced apart by longitudinal channels in which the base coating layer is exposed between adjacent longitudinal strips of the micro-pattern coating layer, the longitudinal channels extending along an entire length of the expandable scaffold from the first end region to the second end region, wherein at least a portion of the micro-pattern coating layer includes a plurality of anti-migration members. 14 . The implantable stent of claim 13 , wherein the micro-pattern coating layer includes a plurality of preferential separation regions extending within a wall of the micro-pattern coating layer, each preferential separation region positioned between a first region of the micro-pattern coating layer and a second region of the micro-pattern coating layer, wherein each preferential separation region is configured to permit the first region of the micro-pattern coating layer to separate from the second region of the micro-pattern coating layer along the preferential separation region therebetween, creating one of the longitudinal channels between the first region and the second region as the expandable scaffold shifts from the radially collapsed state to the radially expanded state. 15 . The implantable stent of claim 14 , wherein each of the plurality of preferential separation regions only extends through a portion of a thickness of the micro-pattern coating layer. 16 . The implantable stent of claim 14 , wherein each of the plurality of preferential separation regions extends continuously along a longitudinal axis of the expandable scaffold. 17 . The implantable stent of claim 14 , wherein the base coating layer is formed from a material having a greater elasticity than a material forming the micro-pattern coating layer. 18 . An implantable stent with anti-migration capabilities, comprising: an expandable scaffold formed of one or more interwoven filaments, the one or more interwoven filaments defining a plurality of cell openings therebetween, wherein the expandable scaffold is configured to shift from a radially collapsed state to a radially expanded state; a base coating layer surrounding and in contact with the expandable scaffold in both the radially collapsed state and the radially expanded state; and a micro-pattern coating layer extending along and in contact with an outer surface of the base coating layer, the micro-pattern coating layer including a plurality of anti-migration members; wherein the base coating layer is exposed between adjacent portions of the micro-pattern coating layer in the radially expanded state. 19 . The implantable stent of claim 18 , wherein the micro-pattern coating layer includes one or more preferential separation regions configured to separate the micro-pattern coating layer into a plurality of indivi