Integrated assay device and methods of production and use
First Claim
1. An assay device for detecting an analyte in a sample, consisting of:
- a continuous liquid flow channel having a proximal end and a distal end, wherein liquid flow between the proximal end and distal end is independent of gravity, wherein the continuous liquid flow channel includes an internal cross-sectional shape comprising an acute angle for;
promoting capillary flow within the liquid flow channel, regulating the flow rate through the liquid flow channel to permit a reaction in the liquid flow channel;
a detection membrane, wherein the distal end of the liquid flow channel is in liquid flow communication with the detection membrane, wherein the detection membrane captures a product of the reaction from the liquid flow channel; and
a sample delivery means comprising a sample well in which the sample is collected; and
a capillary channel, wherein the sample well is in liquid flow communication with the capillary channel for delivering a predetermined volume of sample from the sample well to the liquid flow channel when the sample delivery means is manipulated to place the capillary channel in liquid flow communication with the liquid flow channel, wherein liquid flow of the sample is induced by a resultant capillary flow, and a reaction within the liquid flow channel is initiated by the resultant capillary flow from the sample delivery means; and
an end of test indicator for indicating that the liquid has traveled to the distal end of the continuous liquid flow channel and the resulting reaction and detection membrane are ready for analysis.
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Accused Products
Abstract
An assay device for the detection of analyte in a sample, methods and immunoassay formats for performing an assay with or without the device, and methods for manufacturing the device are provided. The device is a continuous liquid flow channel having a proximal and a distal end, with a detection membrane in fluid communication with the distal end of the flow channel. Interspersed between the assay buffer and detection membrane, and continuous with the liquid flow channel, are a sample delivery means, one or more reservoirs containing the reagents necessary for conducting the assay, and, optionally, mixing or incubation reservoirs for combining the sample and reagents. The geometry of the liquid flow channel regulates the flow rate of the liquids through the channel, thereby controlling incubation, mixing and reaction time. The preferred detection membrane is an immunochromatographic test strip containing immobilized reagents. The detection of labeled reagent in a particular area of the detection membrane reflects the presence or relative amount of analyte in the sample. Detection may be achieved visually. One or more liquid flow channels may be contained within a single housing for simultaneous, consecutive, or comparative sample analysis.
226 Citations
29 Claims
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1. An assay device for detecting an analyte in a sample, consisting of:
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a continuous liquid flow channel having a proximal end and a distal end, wherein liquid flow between the proximal end and distal end is independent of gravity, wherein the continuous liquid flow channel includes an internal cross-sectional shape comprising an acute angle for;
promoting capillary flow within the liquid flow channel, regulating the flow rate through the liquid flow channel to permit a reaction in the liquid flow channel;
a detection membrane, wherein the distal end of the liquid flow channel is in liquid flow communication with the detection membrane, wherein the detection membrane captures a product of the reaction from the liquid flow channel; and
a sample delivery means comprising a sample well in which the sample is collected; and
a capillary channel, wherein the sample well is in liquid flow communication with the capillary channel for delivering a predetermined volume of sample from the sample well to the liquid flow channel when the sample delivery means is manipulated to place the capillary channel in liquid flow communication with the liquid flow channel, wherein liquid flow of the sample is induced by a resultant capillary flow, and a reaction within the liquid flow channel is initiated by the resultant capillary flow from the sample delivery means; and
an end of test indicator for indicating that the liquid has traveled to the distal end of the continuous liquid flow channel and the resulting reaction and detection membrane are ready for analysis. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 29)
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16. An assay device for detecting an analyte in a sample, consisting of:
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a) a liquid flow channel having a proximal end and a distal end, wherein liquid flow between the proximal end and distal end is independent of gravity, wherein the continuous liquid flow channel includes an internal cross-sectional shape comprising an acute angle for;
promoting capillary flow within the liquid flow channel, regulating the flow rate through the liquid flow channel to pennit a reaction in the liquid flow channel;
b) an assay buffer reservoir containing an assay buffer, wherein the assay buffer reservoir is in fluid communication with the liquid flow channel;
c) a first reagent reservoir in fluid communication with the liquid flow channel downstream from the assay buffer reservoir;
d) a second reagent reservoir in fluid communication with the liquid flow channel downstream from both the assay buffer reservoir and the first reagent reservoir; and
e) a detection membrane, wherein the distal end of the liquid flow channel is in liquid flow communication with the detection membrane for detection of analyte; and
f) a sample delivery means comprising a sample well having an aperture and a capillary channel, wherein the sample delivery means is manipulated to align the capillary channel with the aperture of the sample well or to align the capillary channel with the liquid flow channel, wherein liquid flow of the sample is induced by a resultant capillary flow and a reaction within the liquid flow channel is initiated by the resultant capillary flow from the sample delivery means. - View Dependent Claims (17, 18, 19, 20, 21, 22, 23, 24, 25, 26, 27, 28)
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Specification