Method and device for detecting analytes in fluids
First Claim
1. A device for detecting and quantifying at least one analyte in a fluid sample by employing a liquid reactant that reacts with the analyte to form a detectable reaction product, by relating the analyte to the detectable reaction product of analyte and liquid reactant comprising:
- a bibulous material having a first zone for the application of the fluid sample suspected of containing analyte, wherein when the fluid sample is added to the first zone, the fluid sample flows in a first direction, and a second zone for the application of the liquid reactant comprising a reagent that reacts with analyte present in the fluid sample to form a detectable product, wherein when the liquid reactant is added to the second zone, the liquid reactant flows in a second direction opposite and toward the first direction;
whereby when the flowing fluid sample and the flowing liquid reactant meet, flow stops and a stable interface is formed at a juncture between and distinct from the fluid sample and the liquid reactant, and whereby the detectable reaction product is formed at the stable interface and has desired wavelengths of reflectance or absorption and is proportional to analyte concentration based on peak intensity of reflectance or absorption of the detectable reaction product.
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Abstract
A disposable, dry chemistry analytical system is disclosed which is broadly useful for the detection of a variety of analytes present in biological fluids such as whole blood, serum, plasma, urine and cerebral spinal fluid. The invention discloses the use of the reaction interface that forms between two liquids converging from opposite directions within a bibulous material. The discovery comprises a significant improvement over prior art disposable, analytical reagent systems in that the detectable reactant zone is distinct and separate from the unreacted reagents allowing for the use of reaction indicators exhibiting only minor changes as well as extremely high concentrations of reactants. In addition, staged, multiple reagents can be incorporated. Whole blood can be used as a sample without the need for separate cell separating materials. Finally, the invention is useful for the detection of analytes in a broad variety of materials such as milk, environmental samples, and other samples containing target analytes.
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Citations
30 Claims
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1. A device for detecting and quantifying at least one analyte in a fluid sample by employing a liquid reactant that reacts with the analyte to form a detectable reaction product, by relating the analyte to the detectable reaction product of analyte and liquid reactant comprising:
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a bibulous material having a first zone for the application of the fluid sample suspected of containing analyte, wherein when the fluid sample is added to the first zone, the fluid sample flows in a first direction, and a second zone for the application of the liquid reactant comprising a reagent that reacts with analyte present in the fluid sample to form a detectable product, wherein when the liquid reactant is added to the second zone, the liquid reactant flows in a second direction opposite and toward the first direction;
whereby when the flowing fluid sample and the flowing liquid reactant meet, flow stops and a stable interface is formed at a juncture between and distinct from the fluid sample and the liquid reactant, and whereby the detectable reaction product is formed at the stable interface and has desired wavelengths of reflectance or absorption and is proportional to analyte concentration based on peak intensity of reflectance or absorption of the detectable reaction product. - View Dependent Claims (2, 3, 4, 5)
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6. A device for detecting and quantifying at least one analyte in a fluid sample by employing a liquid reactant that reacts with the analyte to form a detectable reaction product, by relating the analyte to the detectable reaction product of analyte and liquid reactant comprising:
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a bibulous material having a first zone for the application of the fluid sample suspected of containing analyte, wherein when the fluid sample is added to the first zone, the fluid sample flows in a first direction, and a second zone for the application of the liquid reactant comprising a reagent that reacts with analyte present in the fluid sample to form a detectable product, wherein when the liquid reactant is added to the second zone, the liquid reactant flows in a second direction opposite and toward the first direction;
whereby when the flowing fluid sample and the flowing liquid reactant meet, flow stops and a stable interface is formed at a juncture between and distinct from the fluid sample and the liquid reactant, and whereby the detectable reaction product forms at a rate sufficient for it to be detected within about fifteen seconds after application of the fluid sample to the fluid sample zone. - View Dependent Claims (7, 8, 9, 10)
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11. A device for detecting and quantifying at least one analyte in a fluid sample by employing a liquid reactant that reacts with the analyte to form a detectable reaction product, by relating the analyte to the detectable product of analyte and liquid reactant comprising:
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bibulous material having a first zone for the application of the fluid sample suspected of containing analyte, wherein when the fluid sample is added to the first zone, the fluid sample flows in a first direction, and a second zone for the application of a liquid adjacent to a reconstitutable reagent located on the bibulous material, the reagent and the liquid forming the liquid reactant that reacts with analyte present in the fluid sample to form a detectable product, wherein when the liquid reactant is present is the second zone, the liquid reactant flows in a second direction opposite and toward the first direction;
whereby when the flowing fluid sample and the flowing liquid reactant meet, flow stops and a stable interface is formed at a juncture between and distinct from the fluid sample and the liquid reactant, and whereby the detectable reaction product has desired wavelengths of reflectance or absorption and is proportional to analyte concentration based on peak intensity of reflectance or absorption of the detectable reaction product. - View Dependent Claims (12, 13, 14, 15)
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16. A device for detecting and quantifying at least one analyte in a fluid sample by employing a liquid reactant that reacts with the analyte to form a detectable reaction product, by relating the analyte to the detectable reaction product of analyte and liquid reactant comprising:
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a bibulous material having a first zone for the application of the fluid sample suspected of containing analyte, wherein when the fluid sample is added to the first zone, and the fluid sample flows in a first direction, and a second zone for the application of the liquid reactant comprising a reagent that reacts with analyte present in the fluid sample to form a detectable product, wherein when the liquid reactant is added to the second zone, the liquid reactant flows in a second direction opposite and toward the first direction;
whereby when the flowing fluid sample and the flowing liquid reactant meet, flow stops and a stable interface is formed at a juncture between and distinct from the fluid sample and the liquid reactant, and whereby the detectable reaction product has desired wavelengths of reflectance or absorption and the detectable reaction product is formed at a rate proportional to concentration of the analyte. - View Dependent Claims (17, 18, 19, 20)
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21. A device for detecting and quantifying at least one analyte in a fluid sample by employing a liquid reactant that reacts with the analyte to form a detectable reaction product, by relating the analyte to the detectable reaction product of analyte and liquid reactant comprising:
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a bibulous material having a first zone for the application of the fluid sample suspected of containing analyte, wherein when the fluid sample is added to the first zone the fluid sample flows in a first direction, and a second zone for the application of the liquid reactant comprising a reagent that reacts with analyte present in the fluid sample to form a detectable product, wherein when the liquid reactant is added to the second zone, the liquid reactant flows in a second direction opposite and toward the first direction;
whereby when the flowing fluid sample and flowing liquid reactant meet, flow stops and a stable interface is formed at a juncture between and distinct from the fluid sample and the liquid reactant, and whereby the detectable reaction product has desired wavelengths of reflectance or absorption and the detectable reaction product may be formed in an amount sufficient to cause a predetermined threshold intensity of reflectance or absorption indicative of the presence of the analyte. - View Dependent Claims (22, 23, 24, 25)
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26. A device for detecting and quantifying at least one analyte in a fluid sample by employing a liquid reactant that reacts with the analyte to form a detectable reaction product, by relating the analyte to the detectable reaction product of analyte and liquid reactant comprising:
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a bibulous material having a first zone for the application of the fluid sample suspected of containing analyte, wherein when the fluid sample is added to the first zone, the fluid sample flows in a first direction, and a second zone for the application of the liquid reactant comprising a reagent that reacts with analyte present in the fluid sample to form a detectable product, wherein when the liquid reactant is added to the second zone, the liquid reactant flows in a second direction opposite and toward the first direction;
whereby when the flowing fluid sample and the flowing liquid reactant meet, flow stops and a stable interface is formed at a juncture between and distinct from the fluid sample and the liquid reactant, and whereby the detectable reaction product has desired wavelengths of reflectance or absorption from about 250 nanometers to about 700 nanometers and is proportional to analyte concentration based on peak intensity of reflectance or absorption of the detectable reaction product. - View Dependent Claims (27, 28, 29, 30)
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Specification