Microarray electrodes useful with analyte sensors and methods for making and using them

The invention claimed is: 1. A single sensor electrode comprising: a base layer; a plurality of electrically conductive members disposed on the base layer in an array, wherein: the array comprises at least 10 electrically conductive members that form the single sensor electrode; the base comprises a plurality of indentations and the plurality of electrically conductive members are individually positioned within the plurality of indentations; the at least 10 electrically conductive members each comprise an electroactive surface shaped as a circular disc and adapted to sense fluctuations in electrical current; the array of electrically conductive members that form the single electrode is coupled to a common electrical conduit; and the array of electrically conductive members is coupled to the common electrical conduit so as to be electrically linked as a group. 2. The sensor electrode of claim 1 , wherein the electrically conductive members comprise circular discs having a diameter from 1 μm to 100 μm. 3. The sensor electrode of claim 1 , wherein the electrically conductive members comprise a combination of circular discs and ellipses. 4. The sensor electrode of claim 1 , wherein the electrode is coupled to a piercing member adapted to be implanted in vivo. 5. The sensor electrode of claim 1 , wherein the electrical conduit is coupled to a potentiostat. 6. The sensor electrode of claim 1 , wherein the electrode is coupled to a processor adapted to convert data obtained from observing fluctuations in electrical current from a first format into a second format. 7. An analyte sensor apparatus comprising: a base layer; a working electrode comprising a plurality of electrically conductive members disposed on the base layer in an array, wherein: the array comprises at least 10 electrically conductive members that form the working electrode; the base comprises a plurality of indentations and the plurality of electrically conductive members are individually positioned within the plurality of indentations; the at least 10 electrically conductive members each comprise an electroactive surface shaped as a circular disc and adapted to sense fluctuations in electrical current; the working electrode is coupled to a power source adapted to sense fluctuations in electrical current of the at least 10 electrically conductive members that form the working electrode; and the electrically conductive members that form the working electrode are coupled to the power source by a common electrical conduit so that they are electrically linked as a group; an analyte sensing layer disposed over the array of electrically conductive members that form the working electrode, wherein the analyte sensing layer detectably alters the electrical current at the working electrode 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 analyte therethrough. 8. The analyte sensor apparatus of claim 7 , wherein the apparatus comprises: a reference electrode; and a counter electrode comprising a plurality of electrically conductive members disposed on the base layer in an array. 9. The analyte sensor apparatus of claim 8 , wherein: the apparatus comprises a plurality of working electrodes, counter electrodes and reference electrodes clustered together in units consisting essentially of one working electrode, one counter electrode and one reference electrode; and the clustered units are longitudinally distributed on the base layer in a repeating pattern of units. 10. The analyte sensor apparatus of claim 7 , wherein the electrically conductive members have a diameter between 10 μm and 100 μm. 11. The analyte sensor apparatus of claim 7 , wherein the array comprises at least 20 electrically conductive members. 12. The analyte sensor apparatus of claim 7 , wherein the analyte sensing layer comprises glucose oxidase. 13. The analyte sensor apparatus of claim 7 , wherein the apparatus comprises an adhesion promoting layer disposed between the analyte sensing layer and the analyte modulating layer. 14. The analyte sensor apparatus of claim 7 , wherein 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. 15. The analyte sensor apparatus of claim 13 , wherein the analyte modulating layer comprises a blend of: (1) a polyurethane/polyurea polymer formed from a mixture comprising: (a) a diisocyanate; (b) a hydrophilic polymer comprising a hydrophilic diol or hydrophilic diamine; and (c) a siloxane having an amino, hydroxyl or carboxylic acid functional group at a terminus; and (2) a branched acrylate polymer formed from a mixture comprising: (a) a butyl, propyl, ethyl or methyl-acrylate; (b) an amino-acrylate; (c) a siloxane-acrylate; and (d) a poly(ethylene oxide)-acrylate.