Device and methods of using device for detection of hyperammonemia

The invention claimed is: 1. A biosensor comprising: (i) at least a first and second vessel; (ii) a fluid exchange opening positioned between the first and the second vessel; (iii) at least one conduit in fluid communication with the at least first vessel, the at least one conduit configured to receive a fluid from a point external to the biosensor; and (iv) a membrane positioned at the fluid exchange opening; wherein the membrane comprises an ionomer; wherein the at least one conduit is configured to hold a sample volume from about 5 μl to about 100 μl; and wherein the first vessel or the second vessel comprises, individually or in combination: a hypohalite, an alkali buffer, and at least one: phenolic reagent or indophenol related compound. 2. The biosensor of claim 1 , wherein either the first or the second vessels individually comprises hypohalite, an alkali buffer, a catalyst, and at least one phenolic reagent or indophenol related compound. 3. The biosensor of claim 1 further comprising at least a first electrically conductive support, the electrically conductive support in fluid communication with the at least second vessel, the electrically conductive support operably connected by at least one wire to an amperometer, voltmeter, spectrophotometer, or combination thereof. 4. The biosensor of claim 3 wherein the electrically conductive support further comprises a hydrogel and at least one metabolic enzyme or functional fragment thereof. 5. The biosensor of claim 1 , wherein the biosensor does not comprise one or more of the following: (i) uricase or a functional fragment thereof; (ii) a hydrogel comprising dextran or a derivative thereof; (iii) a bacterial cell; (iv) an electronic dipole configured for electrophoresis; (v) 3,4-Dihydroxybenzoic acid (3,4-DHB); and (vi) a vaporizer, gas chromotograph, or a heating element configured for converting liquid ammonia into a gaseous state. 6. The biosensor of claim 1 , wherein the biosensor is not functionally dependent upon exposure to any stimulus external to the biosensor. 7. The biosensor of claim 3 , further comprising a circuit comprising the at least one wire, and a digital display operably connected to a processor configured to receive digital information from the spectrophotometer and to send digital information to the digital display. 8. The biosensor of claim 1 , wherein the biosensor further comprises a test strip comprising the first conduit configured for receiving a volume of bodily fluid. 9. The biosensor of claim 1 , wherein the alkali buffer comprises: (i) from about 0.1 M to about 5 M sodium acetate; or (ii) from about 0.1 M to about 5 M sodium chloride. 10. The biosensor of claim 1 , wherein the hypohalite is selected from: hypochlorite or bleach. 11. The biosensor of claim 1 , wherein the at least one indophenol reagent or indophenol related compound is selected from: phenol, 2-phenylphenol, or napthol. 12. The biosensor of claim 1 , wherein the alkali buffer comprises about 1.0 M of any buffer selected from: sodium chloride, calcium chloride, zinc chloride, sodium acetate, calcium acetate, and zinc acetate. 13. The biosensor of claim 1 , wherein the membrane comprises Nafion. 14. A system comprising the biosensor of claim 1 further comprising a computer processor in operable connection to at least one computer storage memory. 15. The system of claim 14 further comprising a digital display in operable connection to at least one electrically conductive support by an electrical circuit capable of carrying an a electrical signal corresponding to a measurement of a wavelength, current, and/or voltage differential from a diode, spectrophotometer, voltmeter and/or amperometer to the digital display, wherein the digital display is configured to display a concentration value of ammonia, ammonium ion and/or an amino acid in a sample when the at least one electrically conductive support is in contact with the sample for a time period sufficient for at least one catalyst to catalyze an indophenol reaction. 16. A kit comprising a solid support that comprises: (i) at least a first and second vessel; (ii) a fluid exchange opening positioned between the at least first and second vessel; (iii) at least one conduit in fluid communication with the at least first vessel, the at least one conduit configured to receive a fluid from a point external to the solid support; and (iv) a membrane positioned at the fluid exchange opening; wherein the membrane comprises an ionomer; wherein the at least one conduit is configured to hold a sample volume from about 5 μl to about 100 μl; and wherein the first vessel or the second vessel comprise, individually or in combination: hypohalite, an alkali buffer, and at least one indophenol reagent or indophenol related compound. 17. A test strip comprising a solid support comprising: (i) at least a first and second vessel; (ii) a fluid exchange opening positioned between the at least first and second vessel; (iii) at least one conduit in fluid communication with the at least first vessel, the at least one conduit configured to receive a fluid from a point external to the biosensor; and (iv) a membrane positioned at the fluid exchange opening; wherein the membrane comprises an ionomer, and wherein the first vessel or the second vessel comprise, individually or in combination: hypohalite, an alkali buffer, and at least one: phenolic reagent, indophenol reagent or indophenol related compound. 18. The test strip of claim 17 , wherein the test strip is adapted for a portable device comprising a diode, spectrophotometer, voltmeter and/or amperometer and a digital display such that, when the test strip is contacted to the device, the first and second electrodes become operably connected to a closed electrical circuit comprising the voltmeter and/or amperometer and the digital display, and, upon contact with a sample, hypohalite, an alkali buffer, and at least one indophenol reagent or indophenol related compound catalyze an indophenol reaction resulting in a current on the first electrode corresponding to a concentration value of ammonia in the sample, such concentration value readable on the display of the portable device.