Sensor chip, biosensor system, method for measuring temperature of biological sample, method for measuring temperature of blood sample, and method for measuring concentration of analyte in blood sample
First Claim
1. A sensor chip for measuring the concentration of an analyte in a blood sample, the sensor chip comprising:
- temperature electrodes disposed to make contact with the blood sample, the temperature electrodes having at least a working electrode and a counter electrode for measuring a temperature of the blood sample;
a concentration measuring unit configured to measure a feature related to a concentration of the analyte in the blood sample;
a sample introduction port; and
a capillary configured to introduce a blood sample from the sample introduction port to the temperature electrodes and the analysis electrodes,wherein the temperature electrodes are disposed at a position closer to the sample introduction port than the analysis electrodes, andthe concentration measuring unit is formed from analysis electrodes including at least a working electrode and a counter electrode.
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Abstract
A sensor chip includes two measuring units. The first measuring unit includes an electrode system having a portion of an electrode and a portion of an electrode, and a portion of a capillary containing the portion and the portion. The second measuring unit includes an electrode system having a portion of a sensor electrode and a portion of an electrode, and a portion of a capillary containing the portion and the portion in addition to a reaction reagent layer. Data related to the temperature of the blood sample is acquired based on the dimension of a current flowing through the temperature electrodes, and data related to a concentration of an analyte in the blood sample is acquired based on the dimension of a current flowing through the analysis electrodes.
27 Citations
44 Claims
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1. A sensor chip for measuring the concentration of an analyte in a blood sample, the sensor chip comprising:
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temperature electrodes disposed to make contact with the blood sample, the temperature electrodes having at least a working electrode and a counter electrode for measuring a temperature of the blood sample; a concentration measuring unit configured to measure a feature related to a concentration of the analyte in the blood sample; a sample introduction port; and a capillary configured to introduce a blood sample from the sample introduction port to the temperature electrodes and the analysis electrodes, wherein the temperature electrodes are disposed at a position closer to the sample introduction port than the analysis electrodes, and the concentration measuring unit is formed from analysis electrodes including at least a working electrode and a counter electrode. - View Dependent Claims (2, 3, 4, 8, 9, 10, 30, 31, 32, 33, 34, 35, 36, 37, 38, 39, 40, 41)
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5. A sensor chip for measuring the concentration of an analyte in a blood sample, the sensor chip comprising:
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temperature electrodes disposed to make contact with the blood sample, the temperature electrodes having at least a working electrode and a counter electrode for measuring a temperature of the blood sample; and a concentration measuring unit configured to measure a feature related to a concentration of the analyte in the blood sample, wherein the working electrode of the temperature electrodes is common to at least either the working electrode or the counter electrode of the analysis electrodes, and the concentration measuring unit is formed from analysis electrodes including at least a working electrode and a counter electrode.
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6. A sensor chip for measuring the concentration of an analyte in a blood sample, the sensor chip comprising:
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temperature electrodes disposed to make contact with the blood sample, the temperature electrodes having at least a working electrode and a counter electrode for measuring a temperature of the blood sample; and a concentration measuring unit configured to measure a feature related to a concentration of the analyte in the blood sample, wherein the counter electrode of the temperature electrodes is common to at least either the working electrode or the counter electrode of the analysis electrodes, and the concentration measuring unit is formed from analysis electrodes including at least a working electrode and a counter electrode.
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7. A sensor chip for measuring the concentration of an analyte in a blood sample, the sensor chip comprising:
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temperature electrodes disposed to make contact with the blood sample, the temperature electrodes having at least a working electrode and a counter electrode for measuring a temperature of the blood sample; and a concentration measuring unit configured to measure a feature related to a concentration of the analyte in the blood sample, wherein the concentration measuring unit includes at least one electrode in addition to the working electrode and the counter electrode, and the at least one electrode of the concentration measuring unit other than the working electrode and the counter electrode is common to at least one of the working electrode and the counter electrode of the temperature electrodes, and the concentration measuring unit is formed from analysis electrodes including at least a working electrode and a counter electrode.
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11. A method for measuring a temperature of a biological sample with a sensor chip, the sensor chip including temperature electrodes formed from a working electrode and a counter electrode, and a capillary, the method comprising the steps of:
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introducing a biological sample by the capillary to the temperature electrodes; applying a direct current voltage to the temperature electrodes; and adjusting the direct current voltage applied in the application step to a first voltage, wherein the first voltage is set to reduce an effect of hematocrit on a temperature measurement result during application of the first voltage to the temperature electrodes. - View Dependent Claims (12, 13)
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14. A method for measuring a temperature of a blood sample using a sensor chip, the sensor chip including a capillary and temperature electrodes formed from a working electrode and a counter electrode, the method comprising the steps of:
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introducing the biological sample by the capillary to the temperature electrodes; applying a voltage to the temperature electrodes in contact with the blood sample, the voltage being set to reduce an effect of hematocrit on a temperature measurement result; acquiring data a related to the temperature of the blood sample based on a dimension of a current flowing in the blood sample by application of the voltage; and calculating a temperature t of the blood sample based on the data a.
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15. A method for measuring a concentration of an analyte in a blood sample using a sensor chip, the sensor chip including a capillary and a pair of temperature electrodes, the method comprising steps of:
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introducing the biological sample by the capillary to the pair of temperature electrodes; apply a voltage to the pair of temperature electrodes in contact with the blood sample, the voltage being set to reduce an effect of hematocrit on a temperature measurement result; acquiring data a related to the temperature of the blood sample based on a dimension of a current flowing in the blood sample by application of a voltage; acquiring data b related to a concentration of the analyte based on a dimension of a current flowing in the blood sample by a reaction mediated by an oxidoreductase that uses the analyte in the blood sample as a substrate; and measuring a concentration that determines the analyte concentration in the blood sample based on the data a and the data b. - View Dependent Claims (16, 17, 18, 19, 23, 27, 29)
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20. A method for measuring a concentration of an analyte in a blood sample comprising the steps of:
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acquiring data a related to a temperature of the blood sample based on a dimension of a current flowing in the blood sample by application of a voltage to the pair of electrodes in contact with the blood sample; acquiring data b related to a concentration of the analyte based on the dimension of a current flowing in the blood sample by a reaction mediated by an oxidoreductase that uses the analyte in the blood sample as a substrate; and measuring a concentration that determines the analyte concentration in the blood sample based on the data a and the data b, wherein the step of acquiring the data a is performed in advance of the step of acquiring the data b.
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21. A method for measuring a concentration of an analyte in a blood sample comprising the steps of:
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acquiring data a related to a temperature of the blood sample based on a dimension of a current flowing in the blood sample by application of a voltage to the pair of electrodes in contact with the blood sample; acquiring data b related to a concentration of the analyte based on the dimension of a current flowing in the blood sample by a reaction mediated by an oxidoreductase that uses the analyte in the blood sample as a substrate; and measuring a concentration that determines the analyte concentration in the blood sample based on the data a and the data b, wherein the concentration measurement step includes a step of acquiring data c related to the temperature of the blood sample based on the dimension of a current flowing in the blood sample by application of a predetermined voltage to the pair of electrodes in contact with the blood sample after acquisition of the data b, a step of calculating data d related to the temperature of the blood sample based on the data a and the data c, and a step of correcting the data b based on the data d.
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22. A method for measuring a concentration of an analyte in a blood sample comprising the steps of:
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acquiring data a related to a temperature of the blood sample based on a dimension of a current flowing in the blood sample by application of a voltage to the pair of electrodes in contact with the blood sample; acquiring data b related to a concentration of the analyte based on the dimension of a current flowing in the blood sample by a reaction mediated by an oxidoreductase that uses the analyte in the blood sample as a substrate; and measuring a concentration that determines the analyte concentration in the blood sample based on the data a and the data b, wherein the concentration measurement step includes a step of calculating the temperature t of the blood sample based on the data a, a step of calculating the concentration x of the analyte in the blood sample based on the data b, the step of measuring an environmental temperature t1 in a periphery of the blood sample, a step of comparing the difference between the temperature t and the environmental temperature t1 with a temperature threshold Z, and a step of correcting the concentration x based on the temperature t when the relation |t−
t1|≧
Z is satisfied, and correcting the concentration x based on the temperature t1 when the relation |t−
t1|<
Z is satisfied.
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24. A method for measuring a concentration of an analyte in a blood sample comprising the steps of:
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acquiring data a related to a temperature of the blood sample based on a dimension of a current flowing in the blood sample by application of a voltage to the pair of electrodes in contact with the blood sample; acquiring data b related to a concentration of the analyte based on the dimension of a current flowing in the blood sample by a reaction mediated by an oxidoreductase that uses the analyte in the blood sample as a substrate; and measuring a concentration that determines the analyte concentration in the blood sample based on the data a and the data b, wherein hematocrit is included in the data b related to the concentration of the analyte, and a temperature is contained in the data a related to the temperature of the blood sample, and a glucose concentration is contained in the data b related to the concentration of the analyte.
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25. A method for measuring a concentration of an analyte in a blood sample comprising the steps of:
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acquiring data a related to a temperature of the blood sample based on a dimension of a current flowing in the blood sample by application of a voltage to the pair of electrodes in contact with the blood sample; acquiring data b related to a concentration of the analyte based on the dimension of a current flowing in the blood sample by a reaction mediated by an oxidoreductase that uses the analyte in the blood sample as a substrate; and measuring a concentration that determines the analyte concentration in the blood sample based on the data a and the data b, wherein the concentration or amount of a reducing substance is contained in the data b related to the concentration of the analyte, and a temperature is contained in the data a related to the temperature of the blood sample, and a glucose concentration is contained in the data b related to the concentration of the analyte.
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26. A method for measuring a concentration of an analyte in a blood sample comprising the steps of:
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acquiring data a related to a temperature of the blood sample based on a dimension of a current flowing in the blood sample by application of a voltage to the pair of electrodes in contact with the blood sample; acquiring data b related to a concentration of the analyte based on the dimension of a current flowing in the blood sample by a reaction mediated by an oxidoreductase that uses the analyte in the blood sample as a substrate; and measuring a concentration that determines the analyte concentration in the blood sample based on the data a and the data b, wherein at least two features of the data included in the data a and the data b are measured at the same time, and a temperature is contained in the data a related to the temperature of the blood sample, and a glucose concentration is contained in the data b related to the concentration of the analyte.
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28. A method for measuring a concentration of an analyte in a blood sample comprising the steps of:
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acquiring data a related to a temperature of the blood sample based on a dimension of a current flowing in the blood sample by application of a voltage to the pair of electrodes in contact with the blood sample; acquiring data b related to a concentration of the analyte based on the dimension of a current flowing in the blood sample by a reaction mediated by an oxidoreductase that uses the analyte in the blood sample as a substrate; and measuring a concentration that determines the analyte concentration in the blood sample based on the data a and the data b, wherein the measurement of the data contained in the data a and the data b is performed in order of temperature, glucose concentration, concentration or amount of the reducing substance, and hematocrit, and a temperature is contained in the data a related to the temperature of the blood sample, and a glucose concentration is contained in the data b related to the concentration of the analyte.
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42. A biosensor system for measuring a concentration of an analyte in a blood sample, comprising:
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a sensor chip for measuring the temperature of a biological sample, the sensor chip comprising; temperature electrodes having at least a working electrode and an counter electrode, the electrodes for measuring the temperature of the biological sample and having a direct current voltage applied thereto; and a capillary configured to introduce the biological sample to the temperature electrodes; a voltage application unit configured to apply a voltage to the temperature electrodes in accordance with a control circuit; a temperature measuring unit configured to acquire the data a related to the temperature of the blood sample based on the dimension of a current flowing in the temperature electrodes in contact with the blood sample; an analyte measuring unit acquiring data b related to the concentration of the analyte based on the dimension of a current flowing in the blood sample depending on a reaction mediated by an oxidoreductase that uses the analyte in the blood sample as a substrate; a concentration determination unit configured to determine an analyte concentration in the blood sample based on the data a and the data b; and a sequence control unit configured to control the control circuit to execute independent measurement of the respective data included in the data a and the data b, wherein the working electrode or the counter electrode in the temperature electrodes are disposed to make contact with the biological sample introduced into the capillary, and the direct current voltage is set to reduce an effect of hematocrit on a temperature measurement result during application of the direct current voltage, and a temperature is contained in the data a related to the temperature of the blood sample, and a glucose concentration is contained in the data b related to the concentration of the analyte.
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43. A biosensor system for measuring a concentration of an analyte in a blood sample, comprising:
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a sensor chip for measuring the temperature of a biological sample, the sensor chip comprising; temperature electrodes having at least a working electrode and an counter electrode, the electrodes for measuring the temperature of the biological sample and having a direct current voltage applied thereto; and a capillary configured to introduce the biological sample to the temperature electrodes; a voltage application unit configured to apply a voltage to the temperature electrodes in accordance with a control circuit; a temperature measuring unit configured to acquire the data a related to the temperature of the blood sample based on the dimension of a current flowing in the temperature electrodes in contact with the blood sample; an analyte measuring unit acquiring data b related to the concentration of the analyte based on the dimension of a current flowing in the blood sample depending on a reaction mediated by an oxidoreductase that uses the analyte in the blood sample as a substrate; a concentration determination unit configured to determine an analyte concentration in the blood sample based on the data a and the data b; and a sequence control unit configured to control the control circuit to measure the data contained in the data a and the data b in order of temperature, glucose concentration, concentration or amount of the reducing substance, or hematocrit, wherein the working electrode or the counter electrode in the temperature electrodes are disposed to make contact with the biological sample introduced into the capillary, and the direct current voltage is set to reduce an effect of hematocrit on a temperature measurement result during application of the direct current voltage, and a temperature is contained in the data a related to the temperature of the blood sample, and a glucose concentration is contained in the data b related to the concentration of the analyte.
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44. A biosensor system for measuring a concentration of an analyte in a blood sample, comprising:
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a sensor chip for measuring the temperature of a biological sample, the sensor chip comprising; temperature electrodes having at least a working electrode and an counter electrode, the electrodes for measuring the temperature of the biological sample and having a direct current voltage applied thereto; and a capillary configured to introduce the biological sample to the temperature electrodes; a voltage application unit configured to apply a voltage to the temperature electrodes in accordance with a control circuit; a temperature measuring unit configured to acquire the data a related to the temperature of the blood sample based on the dimension of a current flowing in the temperature electrodes in contact with the blood sample; an analyte measuring unit acquiring data b related to the concentration of the analyte based on the dimension of a current flowing in the blood sample depending on a reaction mediated by an oxidoreductase that uses the analyte in the blood sample as a substrate; a concentration determination unit configured to determine an analyte concentration in the blood sample based on the data a and the data b; and an electrode selection unit configured to control the control circuit to measure the data contained in the data a and the data b through independent electrodes, wherein the working electrode or the counter electrode in the temperature electrodes are disposed to make contact with the biological sample introduced into the capillary, and the direct current voltage is set to reduce an effect of hematocrit on a temperature measurement result during application of the direct current voltage, and a temperature is contained in the data a related to the temperature of the blood sample, and a glucose concentration is contained in the data b related to the concentration of the analyte.
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Specification