With Injector Patents (Class 204/604)
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Publication number: 20120037508Abstract: An electrophoresis apparatus that applies voltage from electrodes that are provided in a capillary flow channel and causes component separation by performing electrophoresis on a specimen that is injected into the capillary flow channel comprises: a physical quantity acquisition unit and a physical quantity determination unit. The physical quantity acquisition unit, with migration solution and specimen injected inside the capillary flow channel, acquires an electrical quantity that occurs in the capillary flow channel at a specified time when voltage is being applied to the electrodes. The physical quantity determination unit determines whether or not the electrical quantity that the physical acquisition unit acquires is within a specified range.Type: ApplicationFiled: August 9, 2011Publication date: February 16, 2012Applicant: ARKRAY, Inc.Inventors: Yasunori Shiraki, Genki Adachi, Rina Matsumi, Toru Odagaki, Yusuke Nakayama
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Patent number: 8101057Abstract: Methods and devices are described for concentration and cleanup of samples containing bio-molecule analytes (e.g., polynucleotides, such as DNA, RNA, PNA). Various embodiments provide for pH-mediated sample concentration and cleanup of nucleic acid samples with channel devices (e.g., cross-T format, microchannel devices).Type: GrantFiled: January 13, 2010Date of Patent: January 24, 2012Assignee: Applied Biosystems, LLCInventor: Karl Voss
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Patent number: 8101137Abstract: An analysis instrument for processing a microfluidic device, having sample storage means, a microfluidic device holder, sample loading means for loading sample into a microfluidic device disposed in the holder, processing means for enabling a reaction in a microfluidic device, and detection means for detecting and/or measuring the reaction is disclosed. The microfluidic device holder is adapted to hold the microfluidic device including a tape in position for processing and/or detection. A microfluidic processing device is also disclosed which includes a reaction chamber, and a sample loading chamber into which a sample is injectable. The reaction chamber is operatively connected to the sample loading chamber. A cover extends across at least part of the sample loading chamber. The cover and the reaction chamber include pierceable material and are separated by an overspill cavity configured to accept any overspill of an injected sample.Type: GrantFiled: February 8, 2006Date of Patent: January 24, 2012Assignee: Lab901 LimitedInventors: Stuart Polwart, Joel Fearnley, Kenneth G. Macnamara, Urs Lamb
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Patent number: 8062592Abstract: Even if a standby time to the measurement becomes long, a sample in a sample container is prevented from deteriorating. A cooling mechanism is provided in a sample tray for holding a sample plate, or in a plate-mounting portion of a table-type auto sampler of a capillary electrophoresis apparatus, so that the sample plate is cooled during the measurement also.Type: GrantFiled: July 18, 2008Date of Patent: November 22, 2011Assignee: Hitachi High-Technologies CorporationInventors: Miho Ozawa, Ryoji Inaba, Tomohiro Shoji, Manabu Akiba
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Patent number: 8029743Abstract: 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.Type: GrantFiled: September 19, 2007Date of Patent: October 4, 2011Assignee: General Electric CompanyInventors: Jun Xie, Shashi Thutupalli, Stacey Joy Kennerly, Wei-Cheng Tian, Erin Jean Finehout, Li Zhu, Oliver Charles Boomhower
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Patent number: 8030092Abstract: An electrophoresis apparatus is generally disclosed for sequentially analyzing a single sample or multiple samples having one or more analytes in high or low concentrations. The apparatus comprises a relatively large-bore transport capillary which intersects with a plurality of small-bore separation capillaries and includes a valve system. Analyte concentrators, having antibody-specific (or related affinity) chemistries, are stationed at the respective intersections of the transport capillary and separation capillaries to bind one or more analytes of interest. The apparatus allows the performance of two or more dimensions for the optimal separation of analytes. The apparatus may also include a plurality of valves surrounding each of the analyte concentrators to localize each of the concentrators to improve the binding of one or more analytes of interest.Type: GrantFiled: November 17, 2006Date of Patent: October 4, 2011Assignee: Princeton Biochemicals, Inc.Inventor: Norberto A. Guzman
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Publication number: 20110223605Abstract: Aspects of the disclosure provide a microfluidic chip. The microfluidic chip includes a first domain configured for polymerase chain reaction (PCR) amplification of DNA fragments, and a second domain for electrophoretic separation. The first domain includes at least a first reaction reservoir designated for PCR amplification based on a first sample, and a second reaction reservoir designated for PCR amplification based on a second sample. The second domain includes at least a first separation unit coupled to the first reaction reservoir to received first amplified DNA fragments based on the first sample, and a second separation unit coupled to the second reaction reservoir to received second amplified DNA fragments based on the second sample. The first separation unit is configured to perform electrophoretic separation for the first amplified DNA fragments, and the second separation unit is configured to perform electrophoretic separation for the second amplified DNA fragments.Type: ApplicationFiled: March 4, 2011Publication date: September 15, 2011Applicant: LOCKHEED MARTIN CORPORATIONInventors: Joan M. Bienvenue, James P Landers, Orion N Scott
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Patent number: 8007725Abstract: An electrophoresis apparatus is generally disclosed for sequentially analyzing a single sample or multiple samples having one or more analytes in high or low concentrations. The apparatus comprises a relatively large-bore transport capillary which intersects with a plurality of small-bore separation capillaries and includes a valve system. Analyte concentrators, having antibody-specific (or related affinity) chemistries, are stationed at the respective intersections of the transport capillary and separation capillaries to bind one or more analytes of interest. The apparatus allows the performance of two or more dimensions for the optimal separation of analytes. The apparatus may also include a plurality of valves surrounding each of the analyte concentrators to localize each of the concentrators to improve the binding of one or more analytes of interest.Type: GrantFiled: November 17, 2006Date of Patent: August 30, 2011Assignee: Princeton Biochemicals, Inc.Inventor: Norberto A. Guzman
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Patent number: 7993507Abstract: The present invention is related to a method of separation of compounds by electrophoresis in which the compounds such as genes, proteins, etc. may be analyzed very precisely as samples are introduced directly into the separation tubes of the chip at the collection site, and therefore, it is not necessary to have separate fluid paths or individual sample storing apparatus that have been necessary for the conventional electrophoresis; it is easy to make the chips as the structure of the chip becomes extremely simple, and high-density arrangement of the separation tubes is enabled; and further, the compounds such as genes, proteins, etc. may be analyzed very precisely without interference in the storage tubs by using a non-polar solvent as the solvent of the sample storage tub.Type: GrantFiled: November 16, 2005Date of Patent: August 9, 2011Assignee: Korea Research Institute of Standards and ScienceInventors: Sang-Ryoul Park, In-Chul Yang, Young-Ho Kim
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Patent number: 7981267Abstract: An object of the present invention is to prevent a variation in heat dissipating effect of a capillary between a holder part and an oven, to improve reproducibility of migration time, and to reduce a variation of migration time among capillaries in a single electrophoresis run. A cylindrical wall is formed in an upper part of a septa that covers a container holding a solution, and the cylindrical wall surrounds a capillary hole through which a capillary penetrates. Accordingly, the capillary is prevented from being directly affected by wind generated between the septa and the oven.Type: GrantFiled: January 13, 2009Date of Patent: July 19, 2011Assignee: Hitachi High-Technologies CorporationInventors: Toshiyuki Sakurai, Takeshi Ohura
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Publication number: 20110155575Abstract: An embodiment of the invention is directed to a capillary electrophoresis apparatus comprising a plurality of separation micro-channels. A sample loading channel communicates with each of the plurality of separation channels. A driver circuit comprising a plurality of electrodes is configured to induce an electric field across each of the plurality of separation channels sufficient to cause analytes in the samples to migrate along each of the channels. The system further comprises a plurality of detectors configured to detect the analytes.Type: ApplicationFiled: September 20, 2006Publication date: June 30, 2011Inventors: Rathissh Dorairaj, Robert S. Keynton, Thomas J. Roussel, Mark M. Crain, Douglas J. Jackson, Kevin M. Walsh, John F. Naber, Richard P. Baldwin, Danielle B. Franco
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Patent number: 7927476Abstract: 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.Type: GrantFiled: December 22, 2008Date of Patent: April 19, 2011Assignee: General Electric CompanyInventors: Wei-Cheng Tian, Erin Jean Finehout, Li Zhu, Jun Xie
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Publication number: 20110042216Abstract: A complete capillary electrophoresis (CE) system that is capable of providing a continuous flow of effluent at the exit of the flow-through outlet vial is provided. A self-contained capillary electrophoresis system with a flow-through outlet vial for interfacing with mass spectrometry includes a capillary having an upstream inlet end and a downstream terminus end; an electrically conductive hollow needle having an inner wall defining an internal tapered chamber, the internal tapered chamber dimensioned and configured to slidably accept the terminus end of the capillary, the capillary longitudinally inserted into and mounted within the internal tapered chamber to a distance whereby the terminus end of the capillary abuts the inner wall of the needle at the taper; and wherein a micro-reservoir is formed between the terminus end of the capillary and the downstream exit orifice.Type: ApplicationFiled: March 6, 2009Publication date: February 24, 2011Applicant: THE UNIVERSITY OF BRITISH COLUMBIAInventors: Elizabeth Jane Maxwell, Xuefei Zhong, Hong Zhang, David Da Yong Chen
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Patent number: 7883613Abstract: The present invention provides a capillary electrophoresis apparatus in which a capillary is easily attached to and detached from a migration medium filling unit without mixing impurities into the capillary. Mixture of impurities such as dust is also prevented when a capillary negative-electrode end is brought into contact with a sample stored in a vessel. Furthermore, temperature control is efficiently performed in the capillary. In the capillary electrophoresis apparatus, the whole of capillary array can be supported by grasping a grip portion by hand. A migration medium filling mechanism includes a slide mechanism which moves a polymer block with respect to a capillary head. The capillary electrophoresis apparatus includes a vessel in which a sample and a buffer can simultaneously be stored. Temperatures of the capillary and an irradiation and detection unit are controlled by a temperature control function provided in a thermostatic device.Type: GrantFiled: June 5, 2007Date of Patent: February 8, 2011Assignee: Hitachi High-Technologies CorporationInventors: Takashi Gomi, Ryoji Inaba, Motohiro Yamazaki, Hidenori Namba, Jin Matsumura, Hiromi Yamashita, Seiichi Ugai, Kazumichi Imai
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Publication number: 20110005932Abstract: The invention provides a system that can process a raw biological sample, perform a biochemical reaction and provide an analysis readout. For example, the system can extract DNA from a swab, amplify STR loci from the DNA, and analyze the amplified loci and STR markers in the sample. The system integrates these functions by using microfluidic components to connect what can be macrofluidic functions. In one embodiment the system includes a sample purification module, a reaction module, a post-reaction clean-up module, a capillary electrophoresis module and a computer. In certain embodiments, the system includes a disposable cartridge for performing analyte capture. The cartridge can comprise a fluidic manifold having macrofluidic chambers mated with microfluidic chips that route the liquids between chambers. The system fits within an enclosure of no more than 10 ft3. and can be a closed, portable, and/or a battery operated system. The system can be used to go from raw sample to analysis in less than 4 hours.Type: ApplicationFiled: June 7, 2010Publication date: January 13, 2011Applicant: IntegenX Inc.Inventors: Stevan B. JOVANOVICH, William D. Nielsen, David S. Cohen, Michael Recknor, Mattias Vangbo, Ezra Van Gelder, Lars Majlof, Omar El-Sissi
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Patent number: 7846315Abstract: An integrated bio-analysis system incorporates built-in sample preparation capabilities. In one aspect of the present invention, a bio-analysis instrument is provided with a built-in sample preparation device based on PCR (or thermal cycling block/module). In one embodiment of the present invention, a peltier unit in the sample preparation device provides thermal cycling of samples supported in a multi-well tray. In another aspect of the present invention, a CE instrument is provided with a built-in sample preparation capability, which may comprise a sample preparation (bio-molecular reaction) device based on thermal cycler type. In another aspect of the present invention, a PCR device is provided with a built-in analysis device, such as a CE device, for verifying the results of the PCR (bio-molecular reaction) process.Type: GrantFiled: October 25, 2004Date of Patent: December 7, 2010Assignee: Qiagen Sciences, LLCInventors: Varouj Amirkhanian, Ming-Sun Liu
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Patent number: 7834314Abstract: Methods and assemblies for ion detection in samples using a chip with elevated sample zones, also known as a “pillar chip.” Methods include analyzing such a sample by desorbing a sample from a chip, producing a described ion sample and detecting the same. The chip comprises a base having a surface and one or more structures protruding above the surface of the base. Each structure comprises a pillar and a sample zone, the latter containing a support material and the sample to be analyzed. Assemblies include a chip such as that described above and a conductive element that comprises an aperture of sufficient proportion to allow passage of a molecular ion and that is adapted to be at a different electrical potential than the base of the chip.Type: GrantFiled: April 8, 2008Date of Patent: November 16, 2010Assignee: Zyomyx, Inc.Inventors: Peter Wagner, Mark A. Scalf, Frank Zaugg
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Patent number: 7820023Abstract: An arrangement for two-dimensional separation of a complex analyte mixture is provided comprising a first separation device for the separation in a first dimension and a second device for the separation in the second dimension. In the area of the interface between the first and the second device a concentration zone is arranged for concentrating the individual sample fractions or components, respectively, leaving the first device before introduction into the second device. The concentration zone is defined in a segment between two or more electrodes seen in flow direction of the sample or sample fractions to be separated. The concentration is achieved by applying a voltage between two electrodes with polarity opposite to the charge of the components of the fraction, sufficiently strong to win the dragging force of the hydrodynamic flow. The introduction into the second device is carried out by turning off the potential difference between the electrodes.Type: GrantFiled: June 28, 2005Date of Patent: October 26, 2010Assignee: Roche Diagnostics Operations, Inc.Inventor: Mario Curcio
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Patent number: 7811436Abstract: An electrophoresis apparatus is generally disclosed for sequentially analyzing a single sample or multiple samples having one or more analytes in high or low concentrations. The apparatus comprises a relatively large-bore transport capillary which intersects with a plurality of small-bore separation capillaries. Analyte concentrators, having antibody-specific (or related affinity) chemistries, are stationed at the respective inter-sections of the transport capillary and separation capillaries to bind one or more analytes of interest. The apparatus allows the performance of two or more dimensions for the optimal separation of analytes.Type: GrantFiled: October 31, 2007Date of Patent: October 12, 2010Assignee: Princeton Biochemicals, Inc.Inventor: Norberto A. Guzman
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Patent number: 7790008Abstract: In order to provide a high-performance electrophoresis chip and an electrophoresis unit having the same that can restrain the diffusion of sample at an intersection between the electrophoresis groove and the sample introduction groove and prevent decrease in contrast and decrease in resolution, an electrophoresis chip is provided with a sample introduction groove, an electrophoresis groove, and a through hole. The sample introduction groove, the electrophoresis groove, and the through hole are formed on different substrates. In the electrophoresis chip, by combining the substrates, the sample introduction groove and the electrophoresis groove are located in different planes.Type: GrantFiled: April 27, 2005Date of Patent: September 7, 2010Assignee: Arkray, Inc.Inventors: Takayuki Taguchi, Shigeru Kitamura, Hiroshi Fukuya
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Patent number: 7785458Abstract: A capillary array includes a light detection portion, a sample supply portion, a buffer solution supply portion and a voltage application portion which are necessary functions for electrophoresis, thereby, when assembling the capillary array into an electrophoresis apparatus, the same can be immediately used. Accordingly, a capillary array is provided which can be easily incorporated into an electrophoresis apparatus.Type: GrantFiled: December 15, 2005Date of Patent: August 31, 2010Assignee: Hitachi, Ltd.Inventors: Yasushi Shimizu, Toshiaki Kita, Kiyoshi Tsukada, Akihiro Suzuki, Tomonari Morioka, Masaya Kojima, Ryoji Inaba, Daizo Tokinaga, Shuhei Yamamoto, Yoshiyuki Okishima, Masao Fukunaga, Takayasu Furukawa, Tomohiro Shoji
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Patent number: 7749365Abstract: The invention herein provides improved sample injection systems and related methods to create microfluidic devices with symmetrical channel configurations that can produce relatively large sample volumes. An embodiment of the invention provides microfluidic structures with different geometries that are symmetrical from the perspective of a sample load channel and a sample waste channel, which essentially eliminates issues of time offset and other problems commonly associated with twin-T sample formation techniques. A split-injection approach and related methods of sample plug formation are therefore provided.Type: GrantFiled: July 26, 2006Date of Patent: July 6, 2010Assignee: IntegenX, Inc.Inventors: Michael Nguyen, Luc Bousse
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Publication number: 20100155244Abstract: 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.Type: ApplicationFiled: December 22, 2008Publication date: June 24, 2010Applicant: General Electric CompanyInventors: Wei-Cheng Tian, Erin Jean Finehout, Li Zhu, Jun Xie
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Patent number: 7740747Abstract: 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.Type: GrantFiled: December 28, 2007Date of Patent: June 22, 2010Assignee: General Electric CompanyInventors: Wei-Cheng Tian, Erin Jean Finehout, Li Zhu, Jun Xie, Shashi Thutupalli
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Patent number: 7740748Abstract: 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.Type: GrantFiled: October 27, 2008Date of Patent: June 22, 2010Assignee: General Electric CompanyInventors: Wei-Cheng Tian, Shashi Thutupalli, Li Zhu, Anthony John Murray, Erin Jean Finehout, Jun Xie
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Patent number: 7736482Abstract: An electrophoresis member is produced by laying a plurality of capillaries on an adhesive layer born on a support layer to form a capillary layer, laminating thereon a second support layer, and partially removing the first support layer, the first adhesive layer and the second support layer to partially expose the capillaries to form a window portion for irradiation and detection and a sample injection portion for injecting a sample.Type: GrantFiled: February 12, 2007Date of Patent: June 15, 2010Assignees: Hitachi, Ltd., Hitachi Chemical Company, Ltd.Inventors: Hiroshi Kawazoe, Tomoyuki Kamata, Atsushi Takahashi, Tsuyoshi Sonehara, Tatemi Ido, Kunio Harada
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Publication number: 20100116661Abstract: A channel (12) is formed inside a transparent substrate (11), and the two ends are respectively connected to a sample inlet (13) and a separation medium filling port (14) both open to outside, and a sample outlet (15) which is open to outside is provided on the channel (12). The portion between the sample inlet (13) and the sample outlet (15) is a separation channel portion (12a), and the portion between the sample outlet (15) and the separation medium filling port (14) is a separation medium introduction channel portion (12b). A separation medium supplier is connected to the separation medium filling port (14) and the separation medium introduction channel portion (12b) is filled with a separation medium. Then a sample is dropped to the sample inlet (13), with the sample medium supplier still connected, to introduce the sample to the separation channel portion (12a). And then, buffer liquid is poured in buffer reservoirs (16) and (17) and a migration voltage is applied to perform a migration analysis.Type: ApplicationFiled: April 25, 2007Publication date: May 13, 2010Applicant: Shimadzu CorporationInventor: Toru Kaji
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Publication number: 20100116660Abstract: An electrophoresis chip that can be small and simple and that can analyze a sample with high accuracy is provided. The electrophoresis chip includes an upper substrate 4, a lower substrate 1, an introduction reservoir 2a, a recovery reservoir 2b and a capillary channel for sample analysis 3x. The introduction reservoir 2a and the recovery reservoir 2b are formed in the lower substrate 1. The introduction reservoir 2a and the recovery reservoir 2b are in communication with each other via the capillary channel for sample analysis 3x. The introduction reservoir 2a receives a sample to be measured. The sample is electrophoretically introduced directly into the capillary channel for sample analysis 3x by creating a potential difference between the introduction reservoir 2a and the recovery reservoir 2b, and is also analyzed in the capillary channel for sample analysis 3x during the separation of the sample while the sample is being continuously supplied.Type: ApplicationFiled: April 28, 2008Publication date: May 13, 2010Applicants: NATIONAL INSTITUTE OF ADVANCED INDUSTRIAL SCIENCE AND TECHNOLOGY, ARKRAY, Inc.Inventors: Yoshihide Tanaka, Yusuke Nakayama, Satoshi Yonehara
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Patent number: 7713394Abstract: A sample plate assembly for an electrophoresis apparatus including a tray at a sample supply portion of a capillary array, an adapter for the tray, a sample plate mounted on the adapter, a septer mounted on the sample plate and a septer holder mounted on the septer. Thereby, many number of samples can be automatically supplied to capillaries in a multi capillary array.Type: GrantFiled: December 14, 2005Date of Patent: May 11, 2010Assignee: Hitachi, Ltd.Inventors: Shuhei Yamamoto, Hiromi Yamashita, Masatoshi Kitagawa
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Publication number: 20100096267Abstract: 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.Type: ApplicationFiled: October 22, 2008Publication date: April 22, 2010Applicant: GENERAL ELECTRIC COMPANYInventors: Jun Xie, Wei-Cheng Tian, Shashi Thutupalli, Li Zhu, Anthony John Murray, Erin Jean Finehout
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Patent number: 7691245Abstract: A microfluidic device for controlling sample introduction in microcolumn separation techniques, more particularly in capillary electrophoresis (CE), where a sample is injected as a sample plug into a sampling device which comprises at least a channel for the electrolyte buffer and a supply and drain channel for the sample. The supply and drain channels discharge into the electrolyte channel at respective supply and drain ports. The distance between the supply port and the drain port geometrically defines a sample volume. The injection of the sample plug into the electrolyte channel is accomplished electrokinetically by applying an electric field across the supply and drain channels for a time at least long enough that the sample component having the lowest electrophoretic mobility is contained within the geometrically defined volume. Means are provided for electrokinetically injecting the sample into the sample volume.Type: GrantFiled: December 21, 2005Date of Patent: April 6, 2010Inventors: Andreas Manz, D. Jed Harrison, Carlo S. Effenhauser
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Patent number: 7678254Abstract: The processing apparatus for microchips, each at least having a main flow path performing migration of a sample for analysis inside a sheet-like member, comprises a holding part holding microchips so that the multiple main flow paths are provided; a pretreatment part common to the multiple main flow paths for performing a pretreatment step prior to an analysis step in each of the multiple main flow paths; a processing part for performing analysis in each of the main flow paths independently of the others; and a control part controlling an operation in the pretreatment part so that when a pretreatment step for one main flow path ends, a pretreatment for a next main flow path starts and further controlling an operation in the processing part so that an analysis is subsequently performed for the main flow path where the pretreatment step has ended.Type: GrantFiled: January 25, 2005Date of Patent: March 16, 2010Assignee: Shimadzu CorporationInventors: Nobuhiro Hanafusa, Akihir{dot over (o)} Arai, Koji Tanimizu
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Patent number: 7655125Abstract: For automating the operation of an electrophoresis apparatus and improving the throughput, the present electrophoresis apparatus has two platens capable of controlling temperature of electrophoresis plates placed thereon, a loading medium charging unit for sending a loading medium under pressure, a loading medium charging nozzle mechanism having a pair of nozzles connected to the loading medium charging unit, a pipetter mechanism for dispensing samples to sample dispensing openings of the electrophoresis plates placed on the platens, a stacker mechanism for storing sample plates, a loading buffer solution supplying mechanism, a loading buffer solution dispensing mechanism connected to the loading buffer solution supplying mechanism, a power unit for allowing electrophoresis separation for each electrophoresis plate placed on the platens, and a detector for optically detecting components migrating through each electrophoresis flow channel of the electrophoresis plates.Type: GrantFiled: October 2, 2007Date of Patent: February 2, 2010Assignee: Shimadzu CorporationInventors: Shin Nakamura, Rintaro Yamamoto, Akira Harada, Makoto Hazama, Takashi Ikegami, Toru Kaji, Naoya Endo, Hidesato Kumagai, Tetsuo Ohashi, Atsushi Inami, Keisuke Miyamoto, Shinichi Utsunomiya
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Patent number: 7651599Abstract: The present invention discloses a high-density parallel channel design for a microfabricated capillary array electrophoresis chip, with vertical T or double T design for sample injection. An alternative embodiment of the invention includes a closed buffer reservoirs with integrated electrodes and buffer feeding ports. Also disclosed are novel sample loading and injection methods, including the use of using either a capillary array connected to an electrode, or an array of metal pens as the loader/electrode.Type: GrantFiled: September 25, 2003Date of Patent: January 26, 2010Assignee: GE Healthcare (SV) Corp.Inventors: Iuliu-Ioan Blaga, Jing Ni, William D. Nielsen
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Publication number: 20090166201Abstract: 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.Type: ApplicationFiled: December 28, 2007Publication date: July 2, 2009Applicant: GENERAL ELECTRIC COMPANYInventors: Wei-Cheng Tian, Erin Jean Finehout, Li Zhu, Jun Xie, Shashi Thutupalli
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Publication number: 20090166203Abstract: 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.Type: ApplicationFiled: December 28, 2007Publication date: July 2, 2009Applicant: GENERAL ELECTRIC COMPANYInventors: Wei-Cheng Tian, Erin Jean Finehout, Li Zhu, Jun Xie, Shashi Thutupalli
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Publication number: 20090166202Abstract: 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.Type: ApplicationFiled: December 28, 2007Publication date: July 2, 2009Applicant: GENERAL ELECTRIC COMPANYInventors: Wei-Cheng Tian, Erin Jean Finehout, Li Zhu, Jun Xie, Shashi Thutupalli
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Patent number: 7540949Abstract: At a wall constituting a space for a thermostatic oven in an electrophoresis apparatus, a capillary array attachment portion is formed which permits attachment of a plurality of capillary arrays having different length. Thereby, a selected capillary array constituted by collecting a plurality of capillaries can be easily attached to the electrophoresis apparatus depending on measurement purpose.Type: GrantFiled: July 26, 2005Date of Patent: June 2, 2009Assignee: Hitachi, Ltd.Inventors: Masaya Kojima, Muneo Maeshima, Yoshiyuki Okishima, Tomohiro Shoji, Wataru Matsuo
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Publication number: 20090090630Abstract: An automated capillary zone electrophoretic system is disclosed. The system employs a capillary cartridge having a plurality of capillary tubes. The cartridge has a first array of capillary ends projecting from one side of a plate. The first array of capillary ends is spaced apart in substantially the same manner as the wells of a microtitre tray of standard size. This allows one to simultaneously perform capillary electrophoresis on samples present in each of the wells of the tray. The system includes a stacked, dual carrousel arrangement to eliminate cross-contamination resulting from reuse of the same buffer tray on consecutive executions from electrophoresis. The system also has a container connected to the detection end of the capillaries. The container is provided with valving which facilitate cleaning the capillaries, loading buffer into the capillaries, introducing samples to be electrophoresed into the capillaries, and performing capillary zone electrophoresis on the thus introduced samples.Type: ApplicationFiled: October 27, 2008Publication date: April 9, 2009Inventors: Changsheng Liu, Thomas E. Kane, Qingbo Li
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Publication number: 20090071828Abstract: The invention features microfluidic devices that contain structures that impart differential resistance to a fluid flow. The structures are disposed adjacent to intersections of channels. Devices of the invention provide differential resistance, e.g., under electric-field-driven flow and pressure-driven flow.Type: ApplicationFiled: March 23, 2006Publication date: March 19, 2009Inventors: Todd M. Squires, Max Narovlyansky
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Publication number: 20090035770Abstract: Methods and microfluidic circuitry for inline injection of nucleic acids for capillary electrophoresis analysis are provided. According to various embodiments, microfabricated structures including affinity-based capture matrixes inline with separation channels are provided. The affinity-based capture matrixes provide inline sample plug formation and injection into a capillary electrophoresis channel. Also provided are methods and apparatuses for a microbead-based inline injection system for DNA sequencing.Type: ApplicationFiled: October 25, 2007Publication date: February 5, 2009Applicant: The Regents of the University of CaliforniaInventors: Richard A. Mathies, Robert Blazej, Palani Kumaresan
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Publication number: 20090020429Abstract: Even if a standby time to the measurement becomes long, a sample in a sample container is prevented from deteriorating. A cooling mechanism is provided in a sample tray for holding a sample plate, or in a plate-mounting portion of a table-type auto sampler of a capillary electrophoresis apparatus, so that the sample plate is cooled during the measurement also.Type: ApplicationFiled: July 18, 2008Publication date: January 22, 2009Inventors: Miho Ozawa, Ryoji Inaba, Tomohiro Shoji, Manabu Akiba
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Publication number: 20090008253Abstract: A micro-fluidic method for continuous pressure-driven flow injection analysis and a planar microfluidic device intended for pressure driven flow injection analysis are provided. A network of microchannels allows a continuous flow of sample stream on the devices, as well as facile and reproducible analyte plug injection to a reagent or buffer stream on microchip-based devices. The method allows for sequent separation analysis without additional purging cycles.Type: ApplicationFiled: June 4, 2004Publication date: January 8, 2009Applicant: CRYSTAL VISION MICROSYSTEMS LLCInventors: Scott E. Gilbert, Mario Schlund
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Publication number: 20080296161Abstract: To obtain a stable pressure to inject polymer into a capillary array in order to shorten the injection time and raise the processing capacity of the apparatus. Disclosed herein is an electrophoresis apparatus comprising one or more capillaries to be filled with an electrophoretic medium and a pump mechanism which can be connected to the capillaries for filling the capillaries with an electrophoretic medium. The pump mechanism comprises a plunger; a slider which is bonded to the plunger and moves together with the plunger; a spring which gives force to the slider; a cover which limits the range of displacement of the slider; and a linear motion system which is bonded to the cover and moves linearly, wherein the cover and the slider move as one body when the electrophoretic medium is taken to the plunger, and the plunger is pushed by the action of the spring when the electrophoretic medium is injected from the plunger into the capillaries.Type: ApplicationFiled: May 19, 2008Publication date: December 4, 2008Inventors: Tomohiro Shoji, Takashi Gomi
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Publication number: 20080264792Abstract: Disclosed herein is an apparatus for the separation of proteins, comprising a capillary isoelectric focusing unit (2) for primarily separating protein samples on the basis of pi; and a hollow fiber flow field flow fractionation unit (4), connected to one side of the capillary isoelectric focusing unit (2), for secondarily separating the protein samples. The apparatus allows proteins to be separated on the basis of pi and molecular weight without denaturation and can further be applied for the identification of proteins in conjunction with nanoflow liquid chromatography-electrospray ionization-tandem mass spectrometry after enzymatic digestion of the protein fractions.Type: ApplicationFiled: January 17, 2007Publication date: October 30, 2008Applicant: INDUSTRY-ACADEMIC COOPERATION FOUNDATION, YONSEI UNIVERSITYInventors: Myeong Hee Moon, Duk Jin Kang
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Patent number: 7439075Abstract: A method of discharging a fluid flow with suspended microparticles from a fluidic microsystem (10) is described, whereby the fluid flow converges with at least one output flow to form a discharge flow at the end of a discharge channel (14) of the microsystem, and the discharge flow is delivered through a conduction element (19). A microsystem with a flow output device for implementation of this method is also described.Type: GrantFiled: February 8, 2001Date of Patent: October 21, 2008Assignee: Perkinelmer Cellular Technologies Germany GmbHInventors: Gunter Fuhr, Stephen Graham Shirley, Torsten Muller, Thomas Schnelle, Rolf Hagedorn
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Patent number: 7438793Abstract: A multi-capillary array which can be used for a multi-capillary electrophoresis apparatus to effectively disperse the heat generated within a load header. In a load header of the capillary array used for the multi-capillary electrophoresis, an insulated holder, a connection plate and tubular electrodes are closely arranged without substantial formation of gaps. The heat generated within the load header can be dispersed effectively to the external side by eliminating an air-layer within the load header.Type: GrantFiled: March 30, 2004Date of Patent: October 21, 2008Assignee: Hitachi High-Technologies CorporationInventors: Toshio Hanada, Ryoji Inaba
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Patent number: 7435322Abstract: The invention relates to a device and a method for automatically analysing the constituents of at least one analyte, especially by means of gel electrophoresis and/or isoelectric focussing, comprising at least one separating matrix, especially a gel. Each separating matrix is applied on at least one side in a supporting direction S of a supporting element, can be loaded with an analyte, and can be electrically contacted on opposite ends in a separating direction T in order to split the analyte into its constituents.Type: GrantFiled: February 1, 2002Date of Patent: October 14, 2008Inventor: Hartmut Schlichting
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Patent number: 7422672Abstract: An electrophoresis analysis method and apparatus capable of maintaining high reliability upon a repeated use of the same gel. A heat transfer medium selected from the group consisting of solids, liquids and gels is filled in substantially all of the gaps between the electrode and each capillary. A hollow electrode into which a capillary is inserted has a plurality of retaining shapes such that the capillary can be fixed at the center of the electrode. The heat from the capillary can be efficiently dissipated via the electrode, and also the temperature increase in the capillary can be prevented. Further, temperature increases due to the heating of the capillaries during operation can be controlled and thereby thermal deterioration of the gel can be prevented.Type: GrantFiled: December 11, 2003Date of Patent: September 9, 2008Assignee: Hitachi High-Technologies CorporationInventors: Syozo Kasai, Takayasu Furukawa, Ryoji Inaba, Daiki Numai, Tomoyuki Tobita
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Patent number: RE43122Abstract: The present invention provides an on-chip packed reactor bed design that allows for an effective exchange of packing materials such as beads at a miniaturized level. The present invention extends the function of microfluidic analysis systems to new applications including on-chip solid phase extraction (SPE) and on-chip capillary electrochromatography (CEC). The design can be further extended to include integrated packed bed immuno- or enzyme reactors.Type: GrantFiled: June 22, 2010Date of Patent: January 24, 2012Assignee: The Governors of the University of AlbertaInventors: D. Jed Harrison, Richard Oleschuk, Loranelle L. Lockyear, Cameron Skinner, Paul Li