Efficient compound distribution in microfluidic devices
First Claim
1. A microfluidic device formed from a substrate, said device comprising a plurality of individual units in said substrate, each individual unit comprising 4 subunits, where the 4 subunits have 4-fold symmetry, said units further characterized by:
- a common supply reservoir containing a target compound for said 4 subunits; and
each subunit comprising;
a compound reservoir containing a test compound;
a delivery channel connecting with both the common supply reservoir and the compound reservoir such that the test compound and the target compound form an assay mixture when such test compound and target compound are transported through the delivery channel;
an assay channel connecting a buffer reservoir and a waste reservoir and crossing the delivery channel to form a cross-intersection for injecting the assay mixture from the delivery channel into the assay channel, the assay mixture being transported along the assay channel toward the waste reservoir for detection.
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Abstract
Microfluidic devices are provided having units of 8-fold symmetry comprising 8 assay units, where a reservoir provides a common component to 8 assay units. The units can be compactly formed in a substrate to provide the ability to perform a large number of assays within a small area. The microfluidic devices find use in operations, such as assays, DNA sequence detection, etc. Various formats can be used to have the microfluidic device interrelate with microtiter well plates. Methods are provided for monitoring the flow rates/velocities of assay components and streams for comparison of results in different assay units and/or to modify the conditions to change the flow rates in particular channels.
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Citations
14 Claims
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1. A microfluidic device formed from a substrate, said device comprising a plurality of individual units in said substrate, each individual unit comprising 4 subunits, where the 4 subunits have 4-fold symmetry, said units further characterized by:
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a common supply reservoir containing a target compound for said 4 subunits; and
each subunit comprising;
a compound reservoir containing a test compound;
a delivery channel connecting with both the common supply reservoir and the compound reservoir such that the test compound and the target compound form an assay mixture when such test compound and target compound are transported through the delivery channel;
an assay channel connecting a buffer reservoir and a waste reservoir and crossing the delivery channel to form a cross-intersection for injecting the assay mixture from the delivery channel into the assay channel, the assay mixture being transported along the assay channel toward the waste reservoir for detection. - View Dependent Claims (2, 3, 4, 5, 6)
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7. A microfluidic device formed from a substrate, said device comprising a plurality of individual units in said substrate, each unit comprising 8 single assay units, where the 8 assay units have 8-fold symmetry, said units further characterized by:
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a common supply reservoir containing a target compound for said 8 assay units;
each assay unit comprising;
a compound reservoir containing a test compound;
a delivery channel in fluid communication with both said common supply reservoir and said compound reservoir, such that a test compound and a target compound form an assay mixture when such test compound and target compound are transported through the delivery channel;
an assay channel fluidly connecting a buffer reservoir and a waste reservoir and crossing the delivery channel to form a cross-intersection for injecting the assay mixture from the delivery channel into the assay channel, the assay mixture being transported along the assay channel toward the waste reservoir for detection; and
electrodes associated with a plurality of reservoirs operatively connected to a computer. - View Dependent Claims (8, 9, 10, 11)
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12. A method for performing multiple assays, each assay involving a target compound and a test compound, in a microfluidic device comprising a plurality of individual units having (a) a common supply reservoir containing the target compound, (b) four separate subunits having 4-fold symmetry, each subunit comprising a compound reservoir containing the test compound, a delivery channel connecting with the supply reservoir and the compound reservoir, and an assay channel connecting a buffer reservoir and a waste reservoir and crossing the delivery channel to form a cross-intersection, said method comprising:
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combining the target compound with the test compound in the delivery channel to form an assay mixture that produces a product;
injecting the assay mixture from the delivery channel into the assay channel at the cross-intersection;
transporting the assay mixture through the assay channel; and
detecting the product, thereby performing multiple assays. - View Dependent Claims (13, 14)
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Specification