Method and apparatus for measuring oxidation-reduction potential
First Claim
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1. An oxidation-reduction potential test strip device, comprising:
- a substrate;
a spacer layer interconnected to at least a portion of the substrate, wherein the spacer layer defines a sample chamber;
a test strip overlay, wherein the test strip overlay is interconnected to at least a portion of the spacer layer;
a first test lead supported by the substrate, the first test lead including;
a first area within the sample chamber;
a second area within a readout region;
a second test lead supported by the substrate, the second test lead including;
a first area within the sample chamber;
a second area within the readout region;
a reference cell, wherein the first test lead mirrors the second test lead;
a reference lead, including;
a first area in electrical contact with the reference cell;
a second area within the readout region, wherein the first test lead, the second test lead, and the reference lead are accessible to a test device in the readout region when the test strip overlay is interconnected to the substrate, and wherein the first test lead, the second test lead, and the reference lead are on a common plane;
a filter, wherein at least a portion of the filter overlaps at least a portion of each of the first area of the first test lead, the first area of the second test lead, and the first area of the reference lead, and wherein the filter forms a bridge; and
an electrolytic gel, wherein the electrolytic gel is in contact with the reference cell, and wherein at least a portion of the first test lead, at least a portion of the second test lead, the reference cell, the electrolytic gel, at least a portion of the reference lead, and the bridge are between the substrate and the test strip overlay when the test strip overlay is interconnected to the substrate.
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Abstract
Methods and systems for measuring the oxidation-reduction potential of a fluid sample are provided. The system includes a test strip with a sample chamber adapted to receive a fluid sample. The sample chamber can be associated with a filter membrane. The test strip also includes a reference cell. The oxidation-reduction potential of a fluid sample placed in the sample chamber can be read by a readout device interconnected to a test lead that is in electrical contact with the sample chamber, and a reference lead that is in electrical contact with the reference cell. Electrical contact between a fluid sample placed in the sample chamber and the reference cell can be established by a bridge. The oxidation-reduction potential may be read as an electrical potential between the test lead and the reference lead of the test strip.
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Citations
18 Claims
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1. An oxidation-reduction potential test strip device, comprising:
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a substrate; a spacer layer interconnected to at least a portion of the substrate, wherein the spacer layer defines a sample chamber; a test strip overlay, wherein the test strip overlay is interconnected to at least a portion of the spacer layer; a first test lead supported by the substrate, the first test lead including; a first area within the sample chamber; a second area within a readout region; a second test lead supported by the substrate, the second test lead including; a first area within the sample chamber; a second area within the readout region; a reference cell, wherein the first test lead mirrors the second test lead; a reference lead, including; a first area in electrical contact with the reference cell; a second area within the readout region, wherein the first test lead, the second test lead, and the reference lead are accessible to a test device in the readout region when the test strip overlay is interconnected to the substrate, and wherein the first test lead, the second test lead, and the reference lead are on a common plane; a filter, wherein at least a portion of the filter overlaps at least a portion of each of the first area of the first test lead, the first area of the second test lead, and the first area of the reference lead, and wherein the filter forms a bridge; and an electrolytic gel, wherein the electrolytic gel is in contact with the reference cell, and wherein at least a portion of the first test lead, at least a portion of the second test lead, the reference cell, the electrolytic gel, at least a portion of the reference lead, and the bridge are between the substrate and the test strip overlay when the test strip overlay is interconnected to the substrate.
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2. An oxidation-reduction potential test strip device, comprising:
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a substrate; a spacer layer interconnected to at least a portion of the substrate, wherein the spacer layer defines a sample chamber; a test strip overlay, wherein the test strip overlay is interconnected to at least a portion of the spacer layer; a first test lead supported by the substrate, the first test lead including; a first area extending into the sample chamber; a second area extending from the sample chamber to a readout region; a second test lead supported by the substrate, the second test lead including; a first area extending into the sample chamber; a second area extending from the sample chamber to the readout region; a reference cell; a reference lead, including; a first area in electrical contact with the reference cell; a second area extending from the reference cell to the readout region; a filter, wherein at least a portion of the filter overlaps at least a portion of each of the first area of the first test lead, the first area of the second test lead, and the first area of the reference lead. - View Dependent Claims (3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17)
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18. A test strip, comprising:
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a substrate, wherein a first surface of the substrate defines a first plane; an overlay, wherein a sample chamber aperture that at least partially defines a sample chamber is formed in the overlay, wherein a first surface of the overlay defines a second plane, and wherein the first and second planes are parallel to one another; a working electrode, including a sample chamber portion, and a readout portion, wherein the working electrode is located between the first plane defined by the first surface of the substrate and the second plane defined by the first surface of the overlay; a counter electrode; a reference cell, wherein the reference cell contains a material having a known electrical potential; a bridge component, wherein the bridge component is in communication with the sample chamber and is electrically interconnected to the reference cell; a reference lead, including a first portion that is in electrical contact with the reference cell and a readout portion; a blood product, wherein the reference cell is electrically interconnected to the first test lead when the blood product is placed in the sample chamber, wherein the working electrode and the counter electrode comprise a material with a constant composition, and wherein the working electrode and the counter electrode mirror one another.
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Specification
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Current AssigneeCaerus Biotechnologies
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Original AssigneeInstitute For Molecular Medicine The (INSTITUTE FOR MOLECULAR MEDICINE)
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InventorsBar-Or, Raphael, Bar-Or, David, Rael, Leonard T.
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Primary Examiner(s)Noguerola, Alex
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Application NumberUS13/450,743Publication NumberTime in Patent Office236 DaysField of Search204/400, 204416-418, 204/435, 204/403.01, 205/775, 205/782, 205/785.5, 205/789US Class Current204/435CPC Class CodesG01N 27/301 Reference electrodesG01N 27/3272 Test elements therefor, i.e...G01N 27/3277 being a redox reaction, e.g...G01N 27/403 Cells and electrode assembliesG01N 27/4168 Oxidation-reduction potenti...G01N 33/49 Blood chemical methods for ...
