Foldover sensors and methods for making and using them

The invention claimed is: 1. An analyte sensor apparatus comprising: a base substrate comprising a planar sheet of a flexible material, wherein the base substrate is folded to form a fixed bend; a plurality of working electrodes, a plurality of counter electrodes and a plurality of reference electrodes disposed upon a first surface of the base substrate; a plurality of contact pads disposed upon the first surface of the base substrate; a plurality of electrical conduits disposed upon the first surface of the base substrate, wherein the plurality of electrical conduits are adapted to transmit electrical signals between the plurality of working electrodes, the plurality or counter electrodes or the plurality of reference electrodes and the plurality of contact pads; an analyte sensing layer disposed over at least one of the plurality of working electrodes, wherein the analyte sensing layer detectably alters the electrical current at the at least one of the plurality of working electrodes in the presence of an analyte; and an analyte modulating layer disposed over the analyte sensing layer, wherein the analyte modulating layer modulates the diffusion of the analyte therethrough; wherein: the base substrate comprises the fixed bend so as to form a configuration characterized in that: at least one of the plurality of working electrodes, the plurality of counter electrodes or the plurality of reference electrodes is disposed on a first side of the fixed bend; and at least one of the plurality of working electrodes, the plurality of counter electrodes or the plurality of reference electrodes is disposed on a second side of the fixed bend and the plurality of contact pads are disposed on the first side of the fixed bend. 2. The analyte sensor apparatus of claim 1 , wherein the fixed bend configures the base substrate in an orientation such that the at least one of the plurality of working electrodes, the plurality of counter electrodes or the plurality of reference electrodes on the first side of the fixed bend and the at least one of the plurality of working electrodes, the plurality of counter electrodes or the plurality of reference electrodes on the second side of the fixed bend face opposite directions. 3. The analyte sensor apparatus of claim 1 , wherein the base substrate comprises at least one of: a demarcation, a perforation, or a kiss cut disposed in an area at which the base substrate is folded. 4. The analyte sensor apparatus of claim 1 , wherein: the analyte sensor apparatus does not comprise a housing that surrounds the analyte sensor apparatus; or the base substrate does not comprise an electrical via. 5. The analyte sensor apparatus of claim 1 , further comprising: a processor; a computer-readable program code having instructions, which when executed cause the processor to: assess electrochemical signal data obtained from the plurality of working electrodes; and compute analyte concentrations based upon the electrochemical signal data obtained from the plurality of working electrodes. 6. A method of making an analyte sensor apparatus, the method comprising the steps of: providing a base substrate formed from a planar sheet of a flexible material having a first surface and a second surface and adapted to transition from a first configuration to a second configuration when folded; forming a plurality of working electrodes, a plurality of counter electrodes and a plurality of reference electrodes on the first surface of the base substrate; forming a plurality of contact pads on the first surface of the base substrate; forming a plurality of electrical conduits disposed upon the first surface of the base substrate, wherein the plurality of electrical conduits are adapted to transmit electrical signals between the plurality of working electrodes, the plurality of counter electrodes or the plurality of reference electrodes and the plurality of contact pads; forming an analyte sensing layer on at least one of the plurality of working electrodes, wherein the analyte sensing layer detectably alters the electrical current at the at least one of the plurality of working electrodes in the presence of an analyte; forming an analyte modulating layer on the analyte sensing layer, wherein the analyte modulating layer modulates the diffusion of the analyte therethrough; and folding the base substrate so as to introduce a fixed bend that results in a configuration characterized in that: at least one of the plurality of working electrodes, the plurality of counter electrodes or the plurality of reference electrodes is disposed on a first side of the fixed bend; at least one of the plurality of working electrodes, the plurality of counter electrodes or the plurality of reference electrodes is disposed on a second side of the fixed bend; and the plurality of contact pads are disposed on the first side of the fixed bend; so that the analyte sensor apparatus is formed. 7. The method of claim 6 , wherein the method comprises shaping the base substrate to form a rectangular body, a first longitudinal arm extending outward from the rectangular body; and a second longitudinal arm extending outward from the rectangular body. 8. The method of claim 7 , wherein: the base substrate is formed so that the first longitudinal arm and the second longitudinal arm are parallel to each other, and the base substrate is folded so that the first longitudinal arm and the second longitudinal arm are superimposed on each other. 9. The method of claim 6 , wherein: the plurality of working electrodes are formed of an array of electrically conductive members disposed on the base substrate; the electrically conductive members are circular and have a diameter between 10 μm and 400 μm; and the array comprises at least 10 electrically conductive members. 10. The method of claim 6 , further comprising disposing the base substrate within a housing adapted to be implanted in vivo, wherein the housing comprises an aperture adapted to allow an aqueous medium in which the analyte sensor apparatus is disposed to contact the at least one of the plurality of working electrodes. 11. The method of claim 6 , further comprising disposing the base substrate within a needle, wherein: the needle is adapted to pierce a tissue and implant the analyte sensor apparatus in vivo; and the needle is adapted to be removed from the tissue following implantation of the analyte sensor apparatus. 12. The analyte sensor apparatus of claim 5 , wherein: the analyte sensing layer comprises glucose oxidase; the analyte sensor apparatus comprises an adhesion promoting layer disposed between the analyte sensing layer and the analyte modulating layer; or the analyte modulating layer comprises a hydrophilic comb-copolymer having a central chain and a plurality of side chains coupled to the central chain, wherein at least one side chain comprises a silicone moiety. 13. A method of sensing an analyte within a mammal, the method comprising: implanting an analyte sensor apparatus of claim 1 into the mammal; sensing an alteration in current at the at least one of the plurality of working electrodes in the presence of the analyte; and correlating the alteration in current with the presence of the analyte, so that the analyte is sensed. 14. An analyte sensor apparatus comprising: a base substrate comprising a planar sheet of a flexible material wherein the base substrate is folded to form a fixed bend; a plurality of working electrodes, a plurality of counter electrodes and a plurality of reference electrodes disposed upon a first surface of the base substr