Patent application number | Description | Published |
20090071832 | MICROFLUIDIC DEVICE WITH VERTICAL INJECTION APERTURE - A microfluidic device with a vertical injection aperture is provided. The microfluidic device comprises a separation channel, an injection aperture disposed adjacent to and in fluid communication with the separation channel. The microfluidic device further comprises a semi-permeable filter disposed adjacent to the injection aperture, wherein the filter is configured to preconcentrate a sample in the injection aperture to form a preconcentrated sample plug during an injection operation, and wherein the sample plug flows downwardly from the injection aperture to the separation channel during an electrophoresis operation. | 03-19-2009 |
20090166201 | INJECTION METHOD FOR MICROFLUIDIC CHIPS - A microfluidic chip comprising a separation channel configured to receive a sieving matrix and a buffer and an injection channel in fluid communication with the separation channel. The injection channel is configured to receive a sample using a capillary force and a portion of the sample injects into the separation channel electro-kinetic force exerted on the sample. | 07-02-2009 |
20090166202 | INJECTION METHOD FOR MICROFLUIDIC CHIPS - A microchip for electrophoresis is provided. The microchip comprises an injection channel and a separation channel configured to receive a sample through a sample well. The injection channel and the separation channel form a ‘T’ junction. The microchip comprises a first electrode disposed at a first end of the separation channel, a second electrode disposed in front of the ‘T’ junction and adjacent to the first electrode, a third electrode disposed at a first end of the injection channel and a fourth electrode disposed at a second end of the separation channel. A portion of the sample is injected and separated into an area between the ‘T’ junction and the fourth electrode. | 07-02-2009 |
20090166203 | INJECTION METHOD FOR MICROFLUIDIC CHIPS - A microchip for capillary electrophoresis is provided. The microchip comprises an injection channel and a separation channel configured to receive a sample through a sample well disposed on a first end of the separation channel; wherein the injection channel and the separation channel intersect to form a ‘T’ junction. The microchip further comprises a first valve disposed adjacent to the ‘T’ junction and on the separation channel and a second valve disposed at the ‘T’ junction. The second valve is a two-way valve. A sample plug is injected into an area between the ‘T’ junction and a second end of the separation channel. | 07-02-2009 |
20100015633 | METHODS AND KIT FOR ANALYTE DETECTION - A method includes binding a probe to an analyte present in a sample, wherein the probe comprises a binder bonded to a metal particle that is capable of releasing metal ions when contacted with a reagent solution. The method includes contacting the metal particle with the reagent solution to release the metal ions, and observing an optical signal from the released metal ions to determine a presence or amount of the analyte in the sample. An associated kit is also provided. | 01-21-2010 |
20100032582 | FLUORESCENCE DETECTION SYSTEM AND METHOD - A fluorescence detection system comprises a light source configured to produce an excitation light, an optical lens and a fiber bundle. The optical lens is configured to focus the excitation light to a sample to emit fluorescence and to collect the fluorescence. The fiber bundle probe comprises a transmitting fiber configured to transmit the excitation light to the optical lens, and a first receiving fiber configured to deliver the collected fluorescence. The fluorescence detection system further comprises a first detector configured to detect the fluorescence delivered by the receiving fiber to generate a response signal, and a processing unit configured to determine information about the samples by analyzing the response signal. Additionally, a fluorescence detection method is also presented. | 02-11-2010 |
20100096267 | SYSTEM AND METHOD FOR PERFORMING MICROFLUIDIC MANIPULATION - Electrophoresis systems and methods comprise an electrophoresis device, wherein the electrophoresis comprises a loading channel, a separation channel, and an injection channel. The loading channel is in fluid communication with a first and second sample port. The separation channel is connected to the loading channel to form a first intersection, and an injection channel connected to the separation channel to form a second intersection and in fluid communication with a first reservoir, and wherein the separation channel is in fluid communication with a second reservoir. The electrophoresis system further comprises two electrodes coupled to the first sample port and the first reservoir, and the first sample port and the second reservoir, respectively, that are adapted to move the sample into the loading channel towards the first reservoir and form a sample plug in the separation channel, and to further move the sample plug into the separation channel towards the second reservoir. | 04-22-2010 |
20100101951 | ELECTROPHORESIS SYSTEM AND METHOD - Electrophoresis systems and methods comprise an electrophoresis device, wherein the electrophoresis device comprises a loading channel, an injection channel, and a separation channel. The loading channel is in fluid communication with a first and second sample port. The injection channel is connected to the loading channel to form a first intersection. The separation channel is connected to the injection channel to form a second intersection and in fluid communication with a first and second reservoir, and wherein the injection channel is in fluid communication with a third reservoir. The electrophoresis system further comprises electrodes coupled to the first sample port and the third reservoir, and the first reservoir and the second reservoir, respectively, that are adapted to move the sample into the loading channel towards the third reservoir and form a sample plug in the second intersection, and to further move the sample plug into the separation channel towards the second reservoir. | 04-29-2010 |
20100155244 | INJECTION METHOD FOR MICROFLUIDIC CHIPS - Methods and systems for injecting a sample during electrophoresis, that generally comprise: loading a sieving matrix through a first end of a separation channel; having the an end of the sieving matrix at a set distance from the intersection of the separation channel and a loading channel; pressure loading a sample through the loading channel and filling an empty portion of the separation channel; applying an electric field across the separation channel while flowing a washing buffer through the loading channel; and injecting a portion of the sample into the separation channel, wherein the portion of the sample injected is of a size that is determined by a distance between the end of the sieving matrix and the intersection of the loading and separation channels. | 06-24-2010 |
20120021931 | DEVICES AND METHODS FOR BATCH PROCESSING MAGNETIC BEAD ASSAYS - A microfluidic device for batch processing magnetic bead assays and having one or more microfluidic sample channels, comprising, one or more micromagnets seated in a fixture; and an actuator; wherein a portion of each micromagnet is in releasable operative association with one or more of the microfluidic sample channels, and another portion of each micromagnet is in releasable operative association with the actuator; and methods for using the same. | 01-26-2012 |
20130337576 | MICROFLUIDIC SYSTEM, CARTRIDGE AND METHOD FOR PREPARING SAMPLE - A microfluidic system for preparing a sample containing an analyte of interest is provided. The microfluidic system includes a microfluidic cartridge and a magnetic element. The microfluidic cartridge includes a number of reservoirs, an immobilizer, a number of microfluidic flow channels and a number of microvalves. The microfluidic channels are coupled with the reservoirs and the immobilizer. The microvalves are positioned along the microfluidic flow channels. The magnetic element is positioned with respect to the immobilizer. The magnetic element is configured to generate a magnetic field to magnetically immobilize the analyte of interest in the immobilizer. The immobilizer is configured to flow one or more reagents therethrough to react with the analyte of interest. | 12-19-2013 |
20140039172 | DEVICES AND SYSTEMS FOR ISOLATING BIOMOLECULES AND ASSOCIATED METHODS THEREOF - A device, a system, and a method for isolating biomolecules from biological materials are provided. The device comprises a quartz-based solid phase extraction matrix comprising one or more reagents impregnated therein; and an electroosmotic pump (EOP) operationally coupled to the quartz-based solid phase extraction matrix to elute the nucleic acids, wherein the EOP comprises a plurality of electroosmotic membranes comprising one or more positive electroosmotic membranes and one or more negative electroosmotic membranes disposed alternatively and a plurality of electrodes comprising one or more cathodes and one or more anodes, wherein at least one cathode is disposed on one side of one of the membranes and at least one anode is disposed on another side of that membrane and at least one cathode or anode is disposed between a positive electroosmotic membrane and a negative electroosmotic membrane. | 02-06-2014 |
20140039177 | METHODS OF ISOLATING NUCLEIC ACIDS UNDER REDUCED DEGRADATION CONDITION - A method of isolating nucleic acids from a biological material, comprises applying the biological material on a substrate comprising one or more cell lysis reagents impregnated therein; applying a fluid to the biological material applied on the substrate; extracting the nucleic acids from the biological material applied on the substrate; and collecting the extracted nucleic acids in a substantially intact form, wherein the collected nucleic acid has a molecular weight greater than or equal to 20 kb. | 02-06-2014 |
20150027891 | METHODS FOR ELECTROELUTION OF BIOMOLECULES - A method of eluting biomolecules, such as nucleic acids from a biological sample by electroelution is provided. An example of a method includes various steps, such as loading the biological sample to a device comprising a housing, at least two conductive redox polymer electrodes operationally coupled to the housing and a biomolecule impermeable layer disposed on at least one of the electrodes. The loading of sample is followed by initiating an electrical connection to generate an electric field strength sufficient to elute biomolecules from the biological sample; and eluting the biomolecules from the biological sample. | 01-29-2015 |
20150027894 | DEVICES AND SYSTEMS FOR ELUTION OF BIOMOLECULES - A device and a system for eluting biomolecules from biological sample by electroelution are provided. The device for electroelution of biomolecules from a biological sample is constituted with a housing configured to receive an electrolyte and the biological sample, at least two electrodes comprising conductive redox polymers operationally coupled to the housing, and a biomolecule impermeable layer disposed on at least one of the electrodes. The biomolecule impermeable layer disposed on at least one of the electrodes to prevent the biomolecules from reaching the electrode. A system is provided, wherein the system comprises a sample collection port, one or more reservoirs comprising a buffer, a solvent, a reagent or combinations thereof, an device for electroelution, and a controller. | 01-29-2015 |