Internally trussed high-expansion support for inflow control device sealing applications

What is claimed is: 1. A method of sealing an inflow control device installed in a subterranean formation which is producing an undesirable fluid, said method comprising: (a) conveying a truss structure and sealing structure disposed thereon through production tubing adjacent the inflow control device, said truss and sealing structures being radially expandable between a contracted configuration and an expanded configuration, wherein the inflow control device comprises: an inner tubular defining a flowbore and coupled to the production tubing; an outer housing disposed around the inner tubular and having at least one opening therein to allow fluid flow from the subterranean formation into an annulus between the outer housing and the inner tubular; and at least one aperture extending through the inner tubular to fluidly connect the annulus between the outer housing and the inner tubular to the flowbore; and (b) radially expanding the truss and sealing structures from their contracted configurations to an expanded configuration whereby the sealing structure seals against the at least one aperture of the inflow control device thereby creating a flow restriction between the subterranean formation and an inside surface of the production tubing. 2. The method of claim 1 , wherein when in the expanded configuration the truss structure radially supports the sealing structure. 3. The method of claim 1 , further comprising conveying the sealing and truss structures through the production tubing simultaneously, the truss structure being nested inside the sealing structure when the sealing structure is in its contracted configuration. 4. The method of claim 1 , wherein radially expanding the truss structure into its expanded configuration further comprises expanding a plurality of expandable cells defined on the truss structure. 5. The method of claim 1 , further comprising conveying the truss structure and the sealing structure through the production tubing until the truss structure and the sealing structure are disposed in proximity to the inflow control device as determined based on sensor feedback, and radially expanding the truss and sealing structures from their contracted configurations to the expanded configuration when the truss and sealing structures are disposed in proximity to the inflow control device. 6. The method of claim 1 , further comprising conveying a second truss structure with a second sealing structure disposed thereon in a contracted configuration through the production tubing and through the expanded truss structure. 7. A downhole completion system, comprising: (a) a truss structure, the truss structure being radially expandable between a contracted configuration and an expanded configuration; and (b) a sealing structure disposed about the truss structure, the sealing structure being radially expandable between a contracted configuration and an expanded configuration, said sealing structure being operable to seal an inflow control device comprising: an inner tubular defining a flowbore and coupled to production tubing; an outer housing disposed around the inner tubular and having at least one opening therein to allow fluid flow from the subterranean formation into an annulus between the outer housing and the inner tubular; and at least one aperture extending through the inner tubular to fluidly connect the annulus between the outer housing and the inner tubular to the flowbore; wherein the sealing structure is operable to seal the at least one aperture of the inflow control device so as to restrict the flow of fluids through the at least one aperture. 8. The downhole completion system according to claim 7 , further comprising a conveyance device to transport the sealing and truss structures in their respective contracted configurations through the production tubing to the inflow control device, wherein the conveyance device is selected from the group consisting of wireline, slickline, coiled tubing, and jointed tubing. 9. The downhole completion system according to claim 7 , further comprising a deployment device to radially expand the sealing and truss structures from their respective contracted configurations to their respective expanded configurations, the truss structure being expanded while arranged at least partially within the sealing structure. 10. The downhole completion system according to claim 9 , wherein the deployment device is selected from the group consisting of a hydraulic inflation tool and an inflatable packer. 11. The downhole completion system according to claim 7 , wherein the truss structure includes a plurality of expandable cells. 12. The downhole completion system according to claim 11 , wherein at least one of the plurality of expandable cells includes an arc-shaped perforation with holes formed at the beginning and end of the arc-shaped perforation. 13. The downhole completion system according to claim 7 , wherein the truss structure has a diameter which expands by more than 50% when the truss structure is expanded from the contracted configuration to the expanded configuration. 14. The downhole completion system according to claim 7 , wherein the axial length of the truss structure in the contracted and expanded configurations is substantially the same. 15. The downhole completion system according to claim 7 , wherein an inner diameter of the truss structure in the expanded position is greater than an outer diameter of the sealing structure in the contracted position. 16. The downhole completion system according to claim 7 , wherein a swellable material is disposed about at least a portion of the truss structure. 17. The downhole completion system according to claim 7 , further comprising the inflow control device. 18. The method of claim 6 , further comprising: conveying the second truss structure and sealing structure disposed thereon through the production tubing to a position proximate a second inflow control device located downhole from the inflow control device, wherein the second inflow control device comprises: an inner tubular defining a flowbore and coupled to the production tubing; an outer housing disposed around the inner tubular and having at least one opening therein to allow fluid flow from the subterranean formation into an annulus between the outer housing and the inner tubular; and at least one aperture extending through the inner tubular to fluidly connect the annulus between the outer housing and the inner tubular to the flowbore; and radially expanding the second truss and sealing structures from their contracted configurations to an expanded configuration whereby the second sealing structure seals against the at least one aperture of the second inflow control device. 19. The method of claim 1 , further comprising exerting a compressive force on the sealing structure and the truss structure via a protective material surrounding an outer surface of the sealing element as the truss and sealing structures are lowered through the production tubing. 20. The downhole completion system according to claim 16 , wherein the swellable material comprises one or more bands of viscous fluid.