Use of conductive sensors in diagnostic assays
First Claim
1. A method of determining the presence or concentration of a predetermined analyte in a liquid test sample, said predetermined analyte capable of interacting with an oxidase e said method comprising:
- 1) contacting a liquid test sample containing a predetermined analyte with a conductive sensor comprising;
a) a layer of a host matrix permeable to the predetermined analyte, said host matrix layer having homogeneously incorporated therein an oxidase enzyme capable of interacting with the predetermined analyte, a compound having peroxidase activity and a dopant compound precursor, and wherein the predetermined analyte, the oxidase enzyme, the compound having peroxidase activity and the dopant compound precursor interact to generate a dopant compound;
b) a layer of a conducting polymer in contact with the host matrix layer such that the dopant compound generated in the host matrix layer migrates to and oxidatively dopes the conducting polymer layer causing a change in its conductivity; and
c) means operatively connected to the conducting polymer layer for measuring the change in conductivity of the conducting polymer layer; and
,2) correlating the change in conductivity of the conducting polymer layer to the concentration of the predetermined analyte in the liquid test sample.
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Abstract
A conductive sensor and its use in a diagnostic assay are disclosed. The miniaturized conductive sensor, utilizing a conducting polymer, is used in a diagnostic device to determine the presence or concentration of a predetermined analyte in a liquid test sample, wherein the predetermined analyte, like glucose, is assayed by an oxidase interaction. The interaction between the oxidase and a small amount of the predetermined analyte in the test sample generates, either directly or indirectly, a dopant compound in a reaction zone of the conductive sensor. The dopant compound then migrates to the detection zone of the conductive sensor of the diagnostic device to oxidize the conducting polymer and convert the conducting polymer from an insulating form to a conducting form. The resulting increase in conductivity of the conducting polymer is measured, then the conductivity increase is correlated to the concentration of the predetermined analyte in the test sample.
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Citations
8 Claims
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1. A method of determining the presence or concentration of a predetermined analyte in a liquid test sample, said predetermined analyte capable of interacting with an oxidase e said method comprising:
- 1) contacting a liquid test sample containing a predetermined analyte with a conductive sensor comprising;
a) a layer of a host matrix permeable to the predetermined analyte, said host matrix layer having homogeneously incorporated therein an oxidase enzyme capable of interacting with the predetermined analyte, a compound having peroxidase activity and a dopant compound precursor, and wherein the predetermined analyte, the oxidase enzyme, the compound having peroxidase activity and the dopant compound precursor interact to generate a dopant compound; b) a layer of a conducting polymer in contact with the host matrix layer such that the dopant compound generated in the host matrix layer migrates to and oxidatively dopes the conducting polymer layer causing a change in its conductivity; and c) means operatively connected to the conducting polymer layer for measuring the change in conductivity of the conducting polymer layer; and
,2) correlating the change in conductivity of the conducting polymer layer to the concentration of the predetermined analyte in the liquid test sample. - View Dependent Claims (2)
- 1) contacting a liquid test sample containing a predetermined analyte with a conductive sensor comprising;
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3. A method of determining the presence or concentration of a predetermined analyte in a liquid test sample, said predetermined analyte capable of interacting with an oxidase enzyme, said method comprising:
- 1) contacting a liquid test sample containing a predetermined analyte with a conductive sensor comprising;
a) a semipermeable membrane capable of effectively separating cellular material and interfering components from the liquid test sample and capable of allowing the predetermined analyte to permeate through the semipermeable membrane; b) a layer of a host matrix in contact with the semipermeable membrane, said host matrix layer permeable to the predetermined analyte and said host matrix layer having homogeneously incorporated therein an oxidase enzyme capable of interacting with the predetermined analyte, a compound having peroxidase activity and a dopant compound precursor, wherein the predetermined analyte, the oxidase enzyme, the compound having peroxidase activity and the dopant compound precursor interact to generate a dopant compound; c) a layer of a conducting polymer in contact with the host matrix layer such that the dopant compound generated in the host matrix layer migrates to and oxidatively dopes the conducting polymer layer causing a change in its conductivity; and d) means operatively connected to the conducting polymer layer for measuring a change in conductivity of the conducting polymer layer; and
,2) correlating the change in conductivity of the conducting polymer layer to the concentration of the predetermined analyte in the liquid test sample. - View Dependent Claims (4)
- 1) contacting a liquid test sample containing a predetermined analyte with a conductive sensor comprising;
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5. A method of assaying a test sample for the presence or concentration of glucose comprising:
- 1) contacting a test sample containing glucose with a conductive sensor comprising;
a) a layer of a host matrix comprising gelatin, chitosan or a combination thereof and having a thickness of from about 0.2μ
to about 5μ
, said host matrix layer permeable to glucose and said host matrix layer having homogeneously incorporated therein glucose oxidase, a peroxidase enzyme or a molybdenum(VI) transition metal catalyst, and iodide ion, wherein the glucose, the glucose oxidase, the peroxidase or the molybdenum(VI) catalyst, and the iodide ion interact to generate molecular iodine;b) a layer of a conducting polymer having a thickness of from about 100Å
to about 2000Å
in contact with the host matrix layer such that at east a portion of the molecular iodine generated in the host matrix layer migrates to and oxidatively dopes the conducting polymer layer causing a change in its conductivity;c) a microelectrode assembly in contact with the conducting polymer layer, said microelectrode assembly constructed to sense the change in conductivity of the conducting polymer layer in response to the oxidative doping of the conducting polymer layer by the molecular iodine; and
,2) correlating the change in conductivity of the conducting polymer layer to the concentration of the glucose in the test sample. - View Dependent Claims (6, 7, 8)
- 1) contacting a test sample containing glucose with a conductive sensor comprising;
Specification