Method and apparatus for combined magnetophoretic and dielectrophoretic manipulation of analyte mixtures
First Claim
1. A method of discriminating matter utilizing dielectrophoresis combined with magnetophoresis, comprising:
- injecting a sample having one or more constituents into an inlet port of a chamber;
initiating a carrier medium flow at the inlet port to establish a flow within the chamber;
generating a dielectrophoretic force on the constituents;
generating a magnetic force on the constituents;
balancing the dielectrophoretic force and magnetic force to position the constituents at characteristic equilibrium positions within the chamber; and
collecting the constituents at one or more outlet ports of the chamber according to the dielectric and magnetic characteristics of the constituents.
1 Assignment
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Accused Products
Abstract
Methods and apparatuses for discriminating matter utilizing dielectrophoresis combined with magnetophoresis. A sample having one or more constituents is injected into an inlet port of a chamber. A carrier medium flow is initiated at the inlet port to establish a flow within the chamber. A dielectrophoretic force is generated to act on the constituents of the sample. A magnetophoretic force is generated to act on the constituents of the sample. The dielectrophoretic force and magnetophoretic forces are balanced to position the constituents within the chamber. The constituents are then collected at one or more outlet ports of the chamber according to the dielectric and magnetic characteristics of the constituents. The constituents may be collected as a function of time-of-exit from the chamber and/or position within the chamber.
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Citations
18 Claims
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1. A method of discriminating matter utilizing dielectrophoresis combined with magnetophoresis, comprising:
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injecting a sample having one or more constituents into an inlet port of a chamber; initiating a carrier medium flow at the inlet port to establish a flow within the chamber; generating a dielectrophoretic force on the constituents; generating a magnetic force on the constituents; balancing the dielectrophoretic force and magnetic force to position the constituents at characteristic equilibrium positions within the chamber; and collecting the constituents at one or more outlet ports of the chamber according to the dielectric and magnetic characteristics of the constituents. - View Dependent Claims (2, 3, 4, 5, 6)
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7. A method for batch-mode discrimination of matter utilizing dielectrophoresis combined with magnetophoresis, comprising:
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injecting an aliquot of a sample having one or more constituents into an inlet port of a chamber; initiating a carrier medium flow at the inlet port to establish a flow within the chamber, wherein the carrier medium flow causes the constituents to travel at velocities dependent upon their positions within the chamber; generating a dielectrophoretic force on the constituents; generating a magnetic force on the constituents; balancing the dielectrophoretic force and magnetic force to position the constituents at characteristic equilibrium positions within the chamber; and collecting the constituents according to time-of-exit from an outlet port of the chamber. - View Dependent Claims (8, 9)
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10. A method for continuous-mode discrimination of matter utilizing dielectrophoresis combined with magnetophoresis, comprising:
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continuously injecting a sample having one or more constituents into an inlet port of a chamber; initiating a carrier medium flow at the inlet port to establish a flow within the chamber; generating a dielectrophoretic force on the constituents; generating a magnetic force on the constituents; balancing the dielectrophoretic force and magnetic force to position the constituents at characteristic equilibrium positions within the chamber; and collecting the constituents from a plurality of outlet ports of the chamber according to the positions of the constituents. - View Dependent Claims (11, 12)
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13. A method of discriminating matter utilizing dielectrophoresis combined with magnetophoresis, comprising:
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providing a chamber comprising at least one inlet and one outlet port, an array of electrodes in operative relation with to the chamber and configured to generate a dielectrophoretic force, and one or more permanent magnets in operative relation with the chamber and configured to generate a magnetic force; injecting matter into an inlet port of a chamber; generating a magnetic force on the matter using the one or more permanent magnets to discriminate and collect matter upon the magnets; generating a dielectrophoretic force using the electrodes to repel the collected matter from the magnets; and collecting the matter at one or more outlet ports of the chamber.
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14. A method of discriminating matter utilizing dielectrophoresis and magnetophoresis, comprising:
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preparing a sample containing at least one analyte and a plurality of labels, the plurality of labels having preselected dielectrophoretic and magnetic properties, at least some of the plurality of labels combining with the at least one analyte to create analyte-label complexes; injecting the sample into an inlet port of a chamber, the chamber comprising a separation channel; providing an electrical signal to at least one electrode element adapted to the chamber at different phases to create an electric field in the chamber to cause a dielectrophoretic force on the sample; providing a magnetic signal to at least one magnetic element adapted to the chamber to create a magnetic field in the camber to cause a magnetophoretic force on the sample; balancing the dielectrophoretic force and magnetophoretic force to position constituents of the sample at characteristic equilibrium positions within the chamber; initiating a carrier medium flow at the inlet port to establish a hydrodynamic flow profile within the separation channel, the carrier medium causing the at least one analyte and the analyte-label complexes to travel at velocities dependent upon their positions within the separation channel; collecting the analyte-label complexes at an outlet port of the chamber, wherein the analyte-label complexes having similar magnetic and dielectric properties arrive at the outlet port in a single elution peak.
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15. A method of discriminating target analytes utilizing dielectrophoresis and magnetophoresis, comprising:
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preparing a sample containing at least one analyte and a plurality of labels, the plurality of labels having preselected dielectrophoretic and magnetic properties, at least some of the plurality of labels combining with the at least one analyte to create analyte-label complexes; providing an electrical signal to at least one electrode element adapted to a chamber comprising a separation channel at different phases to create an electric field in the chamber to cause a dielectrophoretic force on the sample; providing a magnetic signal to at least one magnetic element adapted to the chamber to create a magnetic field in the chamber to cause a magnetophoretic force on the sample; balancing the dielectrophoretic force and magnetophoretic force to position constituents of the sample at characteristic equilibrium positions within the chamber; continuously injecting the sample into an inlet port of the chamber; collecting the analyte-label complexes at a plurality of outlet ports of the chamber, wherein the analyte-label complexes having similar magnetic and dielectric properties arrive at the same one of the plurality of outlet ports.
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16. An apparatus for discrimination of a sample utilizing dielectrophoresis, magnetophoresis, and field flow fractionation, comprising:
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a chamber having at least one inlet and one outlet port; an array of electrodes in operative relation with the chamber and configured to generate a dielectrophoretic force upon constituents of sample within the chamber; an array of magnetrodes in operative relation with the chamber and configured to generate a magnetic force upon constituents of the sample within the chamber; and wherein the electrodes and magnetrodes are configured to generate forces that balance one another to displace constituents within the sample to equilibrium positions within the chamber characteristic of their magnetic and dielectric properties. - View Dependent Claims (17, 18)
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Specification