Diagnostic device

The invention claimed is: 1 . A diagnostic device, comprising: an elongate substantially planar porous substrate with a first end and a second end, wherein the substrate comprises at least one folded region between the first end and the second end, and wherein: a first portion of the substrate lies in a first plane with respect to the folded region, wherein the first portion of the substrate comprises a first hydrophobic region and a first hydrophilic region, wherein the first hydrophobic region comprises a first low surface energy polymeric material extending from a first major surface of the first portion of the substrate to a second major surface of the first portion of the substrate, and wherein the first hydrophobic region comprises an arrangement of interconnected open pores providing at least one uninterrupted path extending from the first major surface of the first portion of the substrate to the second major surface of the first portion of the substrate; and a second portion of the substrate that lies in a second plane with respect to the folded region, wherein the second plane is substantially parallel to the first plane, the second portion of the substrate comprising a second hydrophilic region and a second hydrophobic region comprising a second low surface energy polymeric material, which may be the same or different from the first low surface energy polymeric material, extending from a first major surface of the second portion of the substrate to second major surface of the second portion of the substrate, and wherein the second hydrophobic region comprises an arrangement of interconnected open pores providing at least one uninterrupted path extending from the first major surface of the second portion of the substrate to the second major surface of the second portion of the substrate; at least one connective region between the first portion of the substrate and the second portion of the substrate, wherein the at least one connective region is configured to maintain alignment of the first hydrophilic region and the second hydrophilic region sufficient to provide a sample flow path between the first portion of the substrate and the second portion of the substrate along a direction normal to the first plane and the second plane; and a reagent along the sample flow path, wherein the reagent is selected to detect at least one of a presence, an absence or a concentration of an analyte present in a sample applied to the diagnostic device. 2 . The diagnostic device of claim 1 , wherein the at least one connective region comprises a layer of an adhesive chosen from a pressure sensitive adhesive, a hot-melt adhesive, a cohesive adhesive, and mixtures and combinations thereof. 3 . The diagnostic device of claim 2 , wherein the at least one connective region comprises a patterned adhesive on at least one of the first portion of the substrate and the second portion of the substrate, wherein the patterned adhesive comprises an arrangement of open regions configured to allow flow of a fluid between the first hydrophilic region of the first portion of the substrate and the second hydrophilic region of the second portion of the substrate. 4 . The diagnostic device of claim 1 , wherein the elongate porous substrate is chosen from paper, nonwoven materials, polymeric films, and combinations thereof. 5 . The diagnostic device of claim 1 , wherein the first and the second low surface energy polymeric materials each comprise a radiation curable polymeric ink. 6 . The diagnostic device of claim 1 , wherein the first and the second low surface energy polymeric materials comprise monomers, oligomers, or polymers chosen from fluorocarbons, silicones, or hydrocarbons. 7 . The diagnostic device of claim 1 , wherein the first and the second low surface energy polymeric materials comprise a hydrophobic ink with a surface energy lower than 35 dynes/cm. 8 . A kit comprising the diagnostic device of claim 1 and a sample collection apparatus configured to collect a sample comprising the analyte. 9 . A diagnostic device, comprising: an elongate substantially planar porous fibrous substrate with a first end and a second end, wherein the substrate comprises: a plurality of folded regions between the first end and the second end, the plurality of folded regions dividing the planar porous substrate into a stack of overlying substantially planar panels, wherein each of the panels in the stack occupies a different substantially parallel plane, and wherein each of the panels comprises: a hydrophobic area comprising fibers coated with a hydrophobic low surface energy polymeric ink such that open areas remain between the fibers, the open areas between the fibers providing at least one uninterrupted open path between a first major surface of the panel and a second major surface of the panel, and a hydrophilic area; and wherein at least some of the panels comprise: a reagent selected to detect an analyte present in a sample, and a connective region configured to attach adjacent panels to each other; and wherein the hydrophobic areas and hydrophilic areas in adjacent panels of the stack are aligned with each other to provide a sample flow path between the hydrophilic areas thereof along a direction normal to the first plane and the second plane such that the sample contacts the reagent disposed in the flow path to provide an indication of at least one of the presence, absence or concentration of the analyte in the sample. 10 . The diagnostic device of claim 9 , wherein the connective region comprises an adhesive chosen from a pressure sensitive adhesive, a hot melt adhesive, a cohesive adhesive, and mixtures and combinations thereof. 11 . The diagnostic device of claim 9 , wherein adjacent overlying panels comprise registered areas of a cohesive adhesive configured to allow fluid flow between the hydrophilic areas in adjacent panels. 12 . The diagnostic device of claim 9 , wherein the connective region comprises a patterned adhesive comprising an arrangement of open regions, the open regions configured to allow flow of a fluid between adjacent panels. 13 . The diagnostic device of claim 9 , wherein the connective region occupies a periphery of the panels and surrounding the hydrophobic layer. 14 . The diagnostic device of claim 9 , wherein the hydrophobic areas surround the hydrophilic areas. 15 . The diagnostic device of claim 9 , wherein the elongate porous substrate is chosen from paper, nonwoven materials, polymeric films, and combinations thereof. 16 . The diagnostic device of claim 9 , wherein the ink is radiation curable. 17 . A system, comprising: a diagnostic device, comprising: an elongate substantially planar porous substrate with a first end and a second end, wherein the substrate comprises at least one folded region between the first end and the second end, and wherein: a first portion of the substrate lies in a first plane with respect to the folded region, wherein the first portion of the substrate comprises a first hydrophobic region and a first hydrophilic region, wherein the first hydrophobic region comprises a hydrophobic polymeric low surface energy material extending from a first major surface of the first portion of the substrate to a second major surface of the first portion of the substrate, and wherein the first hydrophobic region comprises an arrangement of interconnected open pores providing at least one uninterrupted path extending from the first major surface of the first portion of the substrate to the second major surface of the first portion of