Determining analyte concentration from variant concentration distribution in measurable species
First Claim
1. An electrochemical method for determining an analyte concentration in a sample, comprising:
- receiving a sample including a biological fluid at a sample reservoir, the sample reservoir having a reagent layer including an enzyme disposed in the sample reservoir and a pair of electrodes partially or completely disposed in the sample reservoir such that the sample contacts both the enzyme and the pair of electrodes responsive to being received at the sample reservoir, the contact between the sample and the enzyme causing a reaction between the enzyme and an analyte in the sample such that the analyte begins to undergo a redox conversion to electrochemically form a measurable species from the reaction between the enzyme and the analyte, the electrochemical forming of the measurable species resulting from a transfer of electrons from or to the analyte during the redox conversion of the analyte;
applying, by a signal generator, an electrical input signal having an excitation and a relaxation to the sample via the pair of electrodes after an incubation period, the incubation period being less than a reference period, wherein at the end of the reference period (i) all of the analyte has undergone the redox conversion to the measureable species and (ii) the measurable species has a constant concentration distribution, and wherein at the end of the incubation period (i) a portion but not all of the analyte has undergone the redox conversion to the measurable species and (ii) the measurable species has a variant concentration distribution, the reference period being based on a height of the sample reservoir, a volume of the sample reservoir, a thickness of the reagent layer, or any combination thereof, the incubation period beginning when the sample is received at the reservoir, the applying of the electrical input signal producing an electrical output signal that is based on the analyte concentration of the sample;
measuring, by a processor, the electrical output signal; and
determining, by the processor, the analyte concentration of the sample as a function that includes the measured electrical output signal.
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Accused Products
Abstract
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.
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Citations
20 Claims
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1. An electrochemical method for determining an analyte concentration in a sample, comprising:
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receiving a sample including a biological fluid at a sample reservoir, the sample reservoir having a reagent layer including an enzyme disposed in the sample reservoir and a pair of electrodes partially or completely disposed in the sample reservoir such that the sample contacts both the enzyme and the pair of electrodes responsive to being received at the sample reservoir, the contact between the sample and the enzyme causing a reaction between the enzyme and an analyte in the sample such that the analyte begins to undergo a redox conversion to electrochemically form a measurable species from the reaction between the enzyme and the analyte, the electrochemical forming of the measurable species resulting from a transfer of electrons from or to the analyte during the redox conversion of the analyte; applying, by a signal generator, an electrical input signal having an excitation and a relaxation to the sample via the pair of electrodes after an incubation period, the incubation period being less than a reference period, wherein at the end of the reference period (i) all of the analyte has undergone the redox conversion to the measureable species and (ii) the measurable species has a constant concentration distribution, and wherein at the end of the incubation period (i) a portion but not all of the analyte has undergone the redox conversion to the measurable species and (ii) the measurable species has a variant concentration distribution, the reference period being based on a height of the sample reservoir, a volume of the sample reservoir, a thickness of the reagent layer, or any combination thereof, the incubation period beginning when the sample is received at the reservoir, the applying of the electrical input signal producing an electrical output signal that is based on the analyte concentration of the sample; measuring, by a processor, the electrical output signal; and determining, by the processor, the analyte concentration of the sample as a function that includes the measured electrical output signal. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 20)
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18. An electrochemical method for determining an analyte concentration in a sample, comprising:
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receiving a sample including a biological fluid at a sample reservoir, the sample reservoir having a reagent layer including an enzyme disposed in the sample reservoir and a pair of electrodes partially or completely disposed in the sample reservoir such that the sample contacts both the enzyme and the pair of electrodes responsive to being received at the sample reservoir, the contact between the sample and the enzyme causing a reaction between the enzyme and an analyte in the sample such that the analyte begins to undergo a redox conversion to electrochemically form a measurable species from the reaction between the enzyme and the analyte, the electrochemical forming of the measurable species resulting from a transfer of electrons from or to the analyte during the redox conversion of the analyte; applying, by a signal generator, an electrical input signal having an excitation and a relaxation to the sample via the pair of electrodes after an incubation period, the incubation period being less than a reference period, wherein at the end of the reference period (i) all of the analyte has undergone the redox conversion to the measureable species and (ii) the measurable species has a constant concentration distribution, and wherein at the end of the incubation period (i) a portion but not all of the analyte has undergone the redox conversion to the measurable species and (ii) the measurable species has a variant concentration distribution, the reference period being based on a height of the sample reservoir, a volume of the sample reservoir, a thickness of the reagent layer, or any combination thereof, the incubation period beginning when the sample is received at the reservoir, the applying of the electrical input signal producing an electrical output signal that is based at least partially on the analyte concentration of the sample and has a non-Cottrell transient decay; measuring, by a processor, the electrical output signal; and determining, by the processor, the analyte concentration of the sample as a function that includes the measured electrical output signal.
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19. A method for determining an analyte concentration in a sample, comprising:
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receiving a sample including a biological fluid at a sample reservoir, the sample reservoir having a reagent layer including an enzyme disposed in the sample reservoir and a pair of electrodes partially or completely disposed in the sample reservoir such that the sample contacts both the enzyme and the pair of electrodes responsive to being received at the sample reservoir, the contact between the sample and the enzyme causing a reaction between the enzyme and an analyte in the sample such that the analyte begins to undergo a redox conversion to electrochemically form a measurable species from the reaction between the enzyme and the analyte, the electrochemical forming of the measurable species resulting from a transfer of electrons from or to the analyte during the redox conversion of the analyte; applying, by a signal generator, an electrical input signal having an excitation and a relaxation to the sample via the pair of electrodes after an incubation period, the incubation period being less than a reference period, wherein at the end of the reference period (i) all of the analyte has undergone the redox conversion to the measureable species and (ii) the measurable species has a constant concentration distribution, and wherein at the end of the incubation period (i) a portion but not all of the analyte has undergone the redox conversion to the measurable species and (ii) the measurable species has a variant concentration distribution, the reference period being based on a height of the sample reservoir, a volume of the sample reservoir, a thickness of the reagent layer, or any combination thereof, the incubation period beginning when the sample is received at the reservoir, the applying of the electrical input signal producing an electrical output signal that is based at least partially on the analyte concentration of the sample and has a decay constant less than −
0.5 or greater than −
0.5;measuring, by a processor, the electrical output signal; and determining, by the processor, the analyte concentration of the sample as a function that includes the measured electrical output signal.
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Specification