Biosensing meter with fail/safe procedures to prevent erroneous indications
First Claim
1. A biosensing meter for receiving a sample strip that includes electrically isolated excitation and sense electrodes and a sample well bridging thereacross, with an analyte reactant resident therein, said biosensing meter comprising:
- excitation supply means for applying an excitation potential to said excitation electrode;
sense amplifier means connected to said sense electrode for producing an output signal when a volume of a biological fluid is placed in said sample well and creates a current path between said excitation and sense electrode;
processor means coupled to said sense amplifier means for first, testing if said output signal exceeds a first threshold value and second, testing if said output signal thereafter exceeds a second, larger threshold value, an output signal that exceeds said first threshold value recognized as an indication of said volume in said sample cell, an output signal that exceeds said second larger threshold recognized as an indication that said volume will enable a subsequent determination to be made for an analyte in said biological fluid, said processor means only enabling said subsequent determination after said second, larger threshold has been exceeded by said output signal.
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Accused Products
Abstract
A biosensing meter receives a sample strip that includes electrically isolated sense and excitation electrodes bridged by a reaction zone. When a drop of biological sample fluid is placed in the reaction zone, a plurality of fail/safe tests are performed. A drop size test is performed by a circuit that detects the size of the drop placed in the reaction zone. The circuit both detects that a drop has been placed in the reaction zone and further measures a test current level, after a delay, to determine that the drop size is sufficient to enable hydration of reactants in the reaction zone. Subsequently, during the reaction, a "delta" current change is measured at succeeding sample time. This test measures the difference between succeeding current samples during a measurement time. If each succeeding sample is not less than preceding sample by a delta value, a determination is made that the current is not monotonically decreasing and the test is aborted. At the termination of the measurement time, a current sum test is performed wherein a processor calculates a linear sum of all sample test currents and calculates a ratio between that sum and the last current sample. If that ratio matches a pre-calculated constant for the Cottrell relationship, then it is known that the measurement values exhibit the Cottrell relationship.
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Citations
10 Claims
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1. A biosensing meter for receiving a sample strip that includes electrically isolated excitation and sense electrodes and a sample well bridging thereacross, with an analyte reactant resident therein, said biosensing meter comprising:
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excitation supply means for applying an excitation potential to said excitation electrode; sense amplifier means connected to said sense electrode for producing an output signal when a volume of a biological fluid is placed in said sample well and creates a current path between said excitation and sense electrode; processor means coupled to said sense amplifier means for first, testing if said output signal exceeds a first threshold value and second, testing if said output signal thereafter exceeds a second, larger threshold value, an output signal that exceeds said first threshold value recognized as an indication of said volume in said sample cell, an output signal that exceeds said second larger threshold recognized as an indication that said volume will enable a subsequent determination to be made for an analyte in said biological fluid, said processor means only enabling said subsequent determination after said second, larger threshold has been exceeded by said output signal. - View Dependent Claims (2, 3, 4)
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5. A biosensing meter for receiving a sample strip that includes a pair of electrode means and an analyte reactant containing reaction zone bridging said pair of electrode means, said biosensing meter for determining whether a current through said reaction zone varies in accordance with a Cottrell relationship, said meter comprising:
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sense amplifier means for obtaining a plurality of successive readings of current in said reaction zone over a plurality of measurement times, after a sample containing an analyte is placed in said reaction zone; and processor means for comparing each of a plurality of successive current readings with immediately previous current readings to test if each said successive current reading exhibits a smaller value than an immediately previous current reading, and if not, issuing a signal indicative of a failure of said test. - View Dependent Claims (6)
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7. A biosensing meter for receiving a sample strip that includes a pair of electrode means and analyte reactant containing reaction zone bridging said pair of electrode means, said biosensing meter for determining whether a current through said reaction zone varies in accordance with a Cottrell relationship, said meter comprising:
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sense amplifier means for obtaining a plurality of successive values of current in said reaction zone over a plurality of m measurement times, after a sample containing an analyte is placed in said reaction zone; and processor means for summing said successive values of current and determining if a ratio of said summed values to a value of a current, determined at an m'"'"'th measurement time, falls within a set range, and if yes, proceeding to a further determination. - View Dependent Claims (8)
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9. In a system for measuring a current i passing through a reaction zone of a test cell, which current, in dependence upon the concentration of an analyte in the reaction zone, changes to follow one of a family of curves whose shape is defined by the Cottrell equation, a method for determining that said current is changing in accordance with the Cottrell equation, said method comprising the steps of:
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(a) measuring said current i at a plurality of measurement times tn, tn+1, tn+2 . . . tm to derive current values in, in+1, in+2 . . . im ; (b) comparing each current value with an immediately succeeding current value to test if said succeeding current value is smaller by at least a threshold value; (c) if the test of step b is not fulfilled, providing a signal indicating that said measured current in said test cell is not changing in accordance with said Cottrell equation.
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10. In a system for measuring a current i passing through a reaction zone of a test cell, which current, in dependence upon the concentration of an analyte in the reaction zone, changes to follow one of a family of curves whose shape is defined by the Cottrell equation, a method for determining that said current is changing in accordance with the Cottrell equation, said method comprising the steps of:
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(a) measuring said current i at a plurality of measurement times tn, tn+1, tn+2 . . . tm to derive current values in, in+1, in+2 . . . im ; (b) summing said current values in through im and determining if a ratio of said sum to im falls within a constant range; and
, if not(c) providing a signal indicating that said measured current in said test cell is not changing in accordance with said Cottrell equation.
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Specification