Patent application number | Description | Published |
20080199937 | Reagent Composition and Methods of Using and Forming the Same - A reagent composition containing GDH-PQQ as an enzyme-co-factor and screen-printed on working and counter electrodes of electrochemical biosensors, maintains activity of the enzyme reagents by proper selection of components. A preferred composition includes hydrophilic polymers, amorphous untreated silica, buffers, surfactants, and a mediator For example, the biosensor is useful in the amperometric determination of glucose. | 08-21-2008 |
20080248581 | Method for performing correction of blood glucose assay bias using blood hemoglobin concentration - A device and method for determining a correction factor for correcting the blood glucose assay bias based on sample hematocrit interference in a testing device using the blood hemoglobin concentration. The hemoglobin assay and the glucose assay may be performed using a single combination monitoring device. | 10-09-2008 |
20090068754 | Transient Decay Amperometry - A biosensor system determines an analyte concentration of a biological sample using an electrochemical process without Cottrell decay. The biosensor system generates an output signal having a transient decay, where the output signal is not inversely proportional to the square root of the time. The transient decay is greater or less than the −0.5 decay constant of a Cottrell decay. The transient decay may result from a relatively short incubation period, relatively small sample reservoir volumes, relatively small distances between electrode surfaces and the lid of the sensor strip, and/or relatively short excitations in relation to the average initial thickness of the reagent layer. The biosensor system determines the analyte concentration from the output signal having a transient decay. | 03-12-2009 |
20110297540 | Low Total Salt Reagent Compositions and Systems for Biosensors - A biosensor system for determining the concentration of an analyte in a sample is disclosed that includes a reaction means for selectively performing a redox reaction of an analyte, and a measurement means for measuring a rate of the redox reaction of the analyte. The reaction means includes a binder, a buffer salt, a mediator including at most 20% (w/w) of an inorganic, non-transition metal salt, and an enzyme system. The measurement means includes at least two conductors. The measurement means measures an output signal value from the reaction means at a maximum kinetic performance within at most 7 seconds of introducing a sample to the reaction means, where the output signal value is responsive to the concentration of the analyte in the sample, and the measurement means determines at least one ΔS value responsive to at least one error parameter. The measurement means further determines the analyte concentration in the sample from a compensation equation including at least one reference correlation and the at least one ΔS value, where the compensation equation has a R | 12-08-2011 |
20120031776 | Transient Decay Amperometry - A biosensor system determines an analyte concentration of a biological sample using an electrochemical process without Cottrell decay. The biosensor system generates an output signal having a transient decay, where the output signal is not inversely proportional to the square root of the time. The transient decay is greater or less than the −0.5 decay constant of a Cottrell decay. The transient decay may result from a relatively short incubation period, relatively small sample reservoir volumes, relatively small distances between electrode surfaces and the lid of the sensor strip, and/or relatively short excitations in relation to the average initial thickness of the reagent layer. The biosensor system determines the analyte concentration from the output signal having a transient decay. | 02-09-2012 |
20130186755 | Biosensor Desiccant System Having Enhanced Measurement Performance - A biosensor system for determining the concentration of an analyte in a sample includes a plurality of test sensors, and includes a container including a desiccant and the plurality of test sensors, sealed in the container. When the container is stored for two weeks at a temperature of 50° C., and each test sensor is subsequently removed from the container, connected through the at least two conductors to a measurement device and then contacted with one of a plurality of samples including an analyte, where the plurality of samples has analyte concentrations that span the range of 50 mg/dL-600 mg/dL, and the analyte concentration in each sample is determined by the test sensor and the measuring device, the bias of each determined analyte concentration may be within ±10 mg/dL or ±10%, and the coefficient of variation of the determined analyte concentrations may be at most 2.5%. | 07-25-2013 |
20130334066 | Transient Decay Amperometry Biosensors - A biosensor system determines an analyte concentration of a biological sample using an electrochemical process without Cottrell decay. The biosensor system generates an output signal having a transient decay, where the output signal is not inversely proportional to the square root of the time. The transient decay is greater or less than the −0.5 decay constant of a Cottrell decay. The transient decay may result from a relatively short incubation period, relatively small sample reservoir volumes, relatively small distances between electrode surfaces and the lid of the sensor strip, and/or relatively short excitations in relation to the average initial thickness of the reagent layer. The biosensor system determines the analyte concentration from the output signal having a transient decay. | 12-19-2013 |
20150076003 | Test Sensors and Methods of Using The Same - A reagent composition containing GDH-PQQ as an enzyme-co-factor and screen-printed on working and counter electrodes of electrochemical biosensors, maintains activity of the enzyme reagents by proper selection of components. A preferred composition includes hydrophilic polymers, amorphous untreated silica, buffers, surfactants, and a mediator. | 03-19-2015 |