Microfluidic test device
First Claim
1. A microfluidic device for determining an amount of an analyte in a sample, comprising:
- a base plate comprising a proximal and a distal end and having at least three electrodes printed thereon, wherein the at least three electrodes comprise a counter electrode, positioned at the proximal end of the base plate, a reference electrode, positioned furthest from the proximal end of the base plate, and a working electrode, positioned in between the counter and reference electrodes;
a reaction layer on at least one of the electrodes comprising reagents for producing a detectable signal in response to a quantity of analyte in the sample;
an insulating layer positioned between the base plate and a hydrophilic layer, wherein the insulating layer comprises a groove,a hydrophilic layer comprising a porous material and configured for holding a liquid sample in contact with the base plate;
a hydrophobic mesh protective layer disposed directly on the hydrophilic porous material, wherein the hydrophobic protective layer is configured for retaining the sample in contact with the reaction layer and at least covers said proximal end where said at least three electrodes are positioned;
a cover made of a dielectric material and having a proximal end and a distal end comprised on the hydrophobic protective layer and containing a groove providing for communication between the electrodes and the exterior of the device, which groove aligns with the corresponding groove in the insulating layer.
3 Assignments
0 Petitions
Accused Products
Abstract
The present invention provides biosensor test devices for measuring the presence or amount of an analyte in a biological fluid. The devices have a base plate that has an electrode system embedded therein, and a hydrophilic porous material situated on the base plate. A hydrophobic protective layer is situated on the hydrophilic porous material, and a cover is placed on the hydrophobic protective layer to complete the device. Some embodiments also use an insulating layer, which can be situated between the base layer and the hydrophilic porous material. The cover of the device has an opening present therein, situated over the electrodes, so that the electrodes communicate with the exterior of the device through the groove. The insulating layer can also have a groove situated therein, which in one embodiment is placed to align with the groove in the cover. The invention also provides methods of manufacturing the devices, and methods of using them.
72 Citations
25 Claims
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1. A microfluidic device for determining an amount of an analyte in a sample, comprising:
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a base plate comprising a proximal and a distal end and having at least three electrodes printed thereon, wherein the at least three electrodes comprise a counter electrode, positioned at the proximal end of the base plate, a reference electrode, positioned furthest from the proximal end of the base plate, and a working electrode, positioned in between the counter and reference electrodes; a reaction layer on at least one of the electrodes comprising reagents for producing a detectable signal in response to a quantity of analyte in the sample; an insulating layer positioned between the base plate and a hydrophilic layer, wherein the insulating layer comprises a groove, a hydrophilic layer comprising a porous material and configured for holding a liquid sample in contact with the base plate; a hydrophobic mesh protective layer disposed directly on the hydrophilic porous material, wherein the hydrophobic protective layer is configured for retaining the sample in contact with the reaction layer and at least covers said proximal end where said at least three electrodes are positioned; a cover made of a dielectric material and having a proximal end and a distal end comprised on the hydrophobic protective layer and containing a groove providing for communication between the electrodes and the exterior of the device, which groove aligns with the corresponding groove in the insulating layer. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12)
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13. A method of manufacturing a microfluidic device, comprising:
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providing a base plate and screen printing an electrode system thereon, wherein the electrode system comprises three electrodes, and further wherein the at least three electrodes comprise a counter electrode, positioned at the proximal end of the base plate, a reference electrode, positioned furthest from the proximal end of the base plate, and a working electrode, positioned in between the counter and reference electrodes; placing a reagent formulation for conducting an assay onto at least one electrode of the electrode system; applying an insulating layer to the base plate, wherein the insulating layer comprises a groove; applying a hydrophilic porous material to the insulating layer; affixing a non-porous hydrophobic mesh protective layer directly to the hydrophilic porous material, wherein the hydrophobic protective layer at least covers a portion of said base plate comprising said electrode system; affixing a cover made of a dielectric material and having a proximal end and a distal end to the hydrophobic protective layer, wherein the cover contains a groove providing communication between the electrodes and the exterior of the device, and aligning the groove of the cover with the groove of the insulating layer. - View Dependent Claims (14, 15, 16, 17, 18, 19, 20, 21, 22)
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23. A method of determining the concentration of an analyte in a fluid sample comprising:
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placing a portion of the sample on a test device comprising; a base plate having a proximal and a distal end and comprising an electrode system screen printed thereon, wherein the electrode system has at least three electrodes comprising a counter electrode, positioned at the proximal end of the base plate, a reference electrode, positioned furthest from the proximal end of the base plate, and a working electrode, positioned in between the counter and reference electrodes; a reaction layer on at least one of the electrodes comprising materials for producing a detectable signal in response to a quantity of analyte in the sample; an insulating layer positioned between the base plate and a hydrophilic layer, wherein the insulating layer comprises a groove, a hydrophilic layer comprising a porous material and configured for wicking a liquid sample into contact with the first layer; a non-porous hydrophobic mesh protective layer disposed directly on the wicking material, wherein the hydrophobic protective layer is configured for retaining the sample in contact with the reaction layer and at least covers a portion of said base plate comprising said at least three electrodes; and a cover made of a hydrophobic, dielectric material and having a proximal and a distal end comprised on the hydrophobic protective layer and containing a groove providing for communication between the electrodes and the exterior of the device, wherein the groove aligns with the corresponding groove in the insulating layer; inserting the test device into an electronic detection system so that the test device is connected to the detection system through the contact leads of the test device; determining the concentration of the analyte in the fluid sample. - View Dependent Claims (24, 25)
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Specification