Patents Assigned to Fluidigm Corporation
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Patent number: 7526741Abstract: The present invention generally relates to microfluidics and more particularly to the design of customized microfluidic systems using a microfluidic computer aided design system. In one embodiment of the present invention a microfluidic circuit design method is provided. The method includes developing synthesizable computer code for a design. Next, a microfluidic circuit schematic, including a plurality of symbols for microfluidic components, is generated either interactively or using the synthesizable computer code. The microfluidic circuit schematic is then functionally simulated. The microfluidic components are placed and routed on a template to form a physical layout. Then the physical layout is physically simulated using dynamic simulation models of the microfluidic components; and the physical layout is written to a layout file.Type: GrantFiled: October 29, 2004Date of Patent: April 28, 2009Assignee: Fluidigm CorporationInventors: Michael Lee, Gajus Worthington, Gregory Harris, James Montgomery
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Publication number: 20090069194Abstract: The present invention methods and systems for determining copy number variation of a target polynucleotide in a genome of a subject including amplification based techniques. Methods can include pre-amplification of the sample followed by distribution of sample and a plurality of reaction volumes, quantitative detection of a target polynucleotide and a reference polynucleotide, and analysis so as to determine the relative copy number of the target polynucleotide sequence in the genome of the subject.Type: ApplicationFiled: September 8, 2008Publication date: March 12, 2009Applicant: Fluidigm CorporationInventor: Ramesh Ramakrishnan
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Publication number: 20090061428Abstract: An M times.N matrix microfluidic device for performing a matrix of reactions, the device having a plurality of reaction cells in communication with one of either a sample inlet or a reagent inlet through a via formed within an elastomeric block of the device. Methods provided include a method for forming vias in parallel in an elastomeric layer of an elastomeric block of a microfluidic device, the method comprising using patterned photoresist masks and etching reagents to etch away regions or portions of an elastomeric layer of the elastomeric block.Type: ApplicationFiled: October 30, 2007Publication date: March 5, 2009Applicant: Fluidigm CorporationInventors: Lincoln McBride, Geoffrey Facer, Marc Unger
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Patent number: 7476363Abstract: An M×N matrix microfluidic device for performing a matrix of reactions, the device having a plurality of reaction cells in communication with one of either a sample inlet or a reagent inlet through a via formed within an elastomeric block of the device. Methods provided include a method for forming vias in parallel in an elastomeric layer of an elastomeric block of a microfluidic device, the method comprising using patterned photoresist masks and etching reagents to etch away regions or portions of an elastomeric layer of the elastomeric block.Type: GrantFiled: May 2, 2004Date of Patent: January 13, 2009Assignee: Fluidigm CorporationInventors: Marc Unger, Jiang Huang, Emerson Quan
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Patent number: 7452726Abstract: The invention provides systems, including apparatus, methods, and kits, for the microfluidic manipulation and/or detection of particles, such as cells and/or beads. The invention provides systems, including apparatus, methods, and kits, for the microfluidic manipulation and/or analysis of particles, such as cells, viruses, organelles, beads, and/or vesicles. The invention also provides microfluidic mechanisms for carrying out these manipulations and analyses. These mechanisms may enable controlled input, movement/positioning, retention/localization, treatment, measurement, release, and/or output of particles. Furthermore, these mechanisms may be combined in any suitable order and/or employed for any suitable number of times within a system.Type: GrantFiled: December 11, 2003Date of Patent: November 18, 2008Assignee: Fluidigm CorporationInventors: Hou-Pu Chou, Antoine Daridon, Kevin Farrell, Brian Fowler, Yish-Hann Liau, Ian D. Manger, Hany Ramez Nassef, William Throndset
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Publication number: 20080281090Abstract: New microfluidic devices, useful for carrying out chemical reactions, are provided. The devices are adapted for on-chip solvent exchange, chemical processes requiring multiple chemical reactions, and rapid concentration of reagents.Type: ApplicationFiled: December 5, 2005Publication date: November 13, 2008Applicants: CALIFORNIA INSTITUTE OF TECHNOLOGY, FLUIDIGM CORPORATION, THE REGENTS OF THE UNIVERSITY OF CALIFORNIA, SIEMENS CORPORATIONInventors: Cheng-Chung Lee, Guodong Sui, Arkadij Elizarov, Hartmuth C. Kolb, Jiang Huang, James R. Heath, Michael E. Phelps, Stephen R. Quake, Hsian-rong Tseng, Paul Wyatt, Antoine Daridon
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Patent number: 7442556Abstract: This invention provides microfluidic devices and methods for using the same. Microfluidic devices of the present invention comprises a first elastic layer, a fluid flow channel within the elastic layer; and a means for providing a fluid sample from the fluid flow channel to an analytical device. The present invention also provides an analytical apparatus comprising such a microfluidic device and an analytical device.Type: GrantFiled: December 13, 2005Date of Patent: October 28, 2008Assignee: Fluidigm CorporationInventors: Ian David Manger, Cunsheng Casey Hao, Marc Alexander Unger
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Publication number: 20080257437Abstract: Microfabricated fluidic devices of the present invention include switches that can be opened and closed to allow or block the flow of fluid through a channel in response to the pressure level in a gate of the switch. The microfabricated fluidic switches may be coupled together to perform logic functions and Boolean algebra, such as inverters, AND gates, NAND, gates, NOR gates, and OR gates. The logic gates may be coupled together to form flip-flops that latch signals. The present invention also includes microfabricated fluidic pressure multipliers that increase the pressure in a second chamber relative to a first chamber. Microfabricated fluidic devices of the present invention also include high or low pressure sources. A pressure source of the present includes a pump coupled to a reservoir through unidirectional valves. Microfabricated fluidic devices of the present invention may also include devices that perform analog functions such as switching regulator.Type: ApplicationFiled: June 23, 2008Publication date: October 23, 2008Applicant: Fluidigm CorporationInventors: David N. Fernandes, Hou-Pu Chou, Marc A. Unger
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Publication number: 20080230387Abstract: A variety of elastomeric-based microfluidic devices and methods for using and manufacturing such devices are provided. Certain of the devices have arrays of reaction sites to facilitate high throughput analyses. Some devices also include reaction sites located at the end of blind channels at which reagents have been previously deposited during manufacture. The reagents become suspended once sample is introduced into the reaction site. The devices can be utilized with a variety of heating devices and thus can be used in a variety of analyses requiring temperature control, including thermocycling applications such as nucleic acid amplification reactions, genotyping and gene expression analyses.Type: ApplicationFiled: October 30, 2007Publication date: September 25, 2008Applicant: Fluidigm CorporationInventors: Lincoln McBride, Marc Unger, Michael Lucero, Hany Ramez Nassef, Geoffrey Facer
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Publication number: 20080223721Abstract: New high density microfluidic devices and methods provide precise metering of fluid volumes and efficient mixing of the metered volumes. A first solution is introduced into a segment of a flow channel in fluidic communication with a reaction chamber. A second solution is flowed through the segment so that the first solution is displaced into the reaction chamber, and a volume of the second solution enters the chamber. The chamber can then be isolated and reactions within the chamber can be initiated and/or detected. High throughput methods of genetic analysis can be carried out with greater accuracy than previously available.Type: ApplicationFiled: January 22, 2008Publication date: September 18, 2008Applicant: Fluidigm CorporationInventors: David S. Cohen, Jing Wang, Andrew May, Robert C. Jones, Hany Nassef
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Patent number: 7392827Abstract: The present invention provides microfabricated fluidic systems and methods. Microfabricated fluidic devices of the present invention include switches that can be opened and closed to allow or block the flow of fluid through a channel in response to the pressure level in a gate of the switch. The microfabricated fluidic switches may be coupled together to perform logic functions and Boolean algebra, such as inverters, AND gates, NAND, gates, NOR gates, and OR gates. The logic gates may be coupled together to form flip-flops that latch signals. The present invention also includes microfabricated fluidic pressure multipliers that increase the pressure in a second chamber relative to a first chamber. Microfabricated fluidic devices of the present invention also include pressure sources. A pressure source of the present includes a pump coupled to a reservoir through unidirectional valves. The pressure source may be high pressure source or a low pressure source.Type: GrantFiled: August 26, 2005Date of Patent: July 1, 2008Assignee: Fluidigm CorporationInventors: David Fernandes, Hou-Pu Chou, Marc A. Unger
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Publication number: 20080129736Abstract: A method of adjusting amplification curves in a PCR experiment includes receiving a plurality of amplification curves for a sample and computing a first parameter for each of the plurality of amplification curves. The method also includes computing a second parameter for each of the plurality of amplification curves and computing a third parameter using at least a portion of the first or second parameters. The method further includes computing an offset for each of the plurality of amplification curves. The offset is a function of the first parameter and the third parameter. Moreover, the method includes adjusting at least one of the plurality of amplification curves by subtracting the offset.Type: ApplicationFiled: November 30, 2007Publication date: June 5, 2008Applicant: Fluidigm CorporationInventors: Gang Sun, Ramesh Ramakrishnan, Robert C. Jones
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Publication number: 20080108063Abstract: The invention provides an assay method for detection and/or quantification of a plurality of nucleic acid or protein targets in a sample. In the method probes are used to associate a detectable tag sequence with each of the selected targets present in the sample. Probes or primers sufficient to identify at least 25, and preferably at least 500, different targets are used. The method involves segregating aliquots of the sample from each other and detecting the tag sequences in each aliquot.Type: ApplicationFiled: April 24, 2007Publication date: May 8, 2008Applicant: Fluidigm CorporationInventors: Michael Lucero, Marc Unger
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Patent number: 7368163Abstract: The present invention is directed to a surface modified polymer comprising a surface which is covalently bonded to a surface modifying compound. Formation of the covalent bond between the polymer and the surface modifying compound is achieved by a reaction between an intrinsic functional group that is present in the polymer and the functional group of the surface modifying compound. By using a polymer having an intrinsic functional group, a separate surface activation step is avoided.Type: GrantFiled: December 14, 2005Date of Patent: May 6, 2008Assignee: Fluidigm CorporationInventors: Jiang Huang, Shoujun Xiao, Marc A. Unger
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Publication number: 20080088952Abstract: An apparatus for imaging one or more selected fluorescence indications from a microfluidic device. The apparatus includes an imaging path coupled to least one chamber in at least one microfluidic device. The imaging path provides for transmission of one or more fluorescent emission signals derived from one or more samples in the at least one chamber of the at least one microfluidic device. The chamber has a chamber size, the chamber size being characterized by an actual spatial dimension normal to the imaging path. The apparatus also includes an optical lens system coupled to the imaging path. The optical lens system is adapted to transmit the one or more fluorescent signals associated with the chamber.Type: ApplicationFiled: December 10, 2007Publication date: April 17, 2008Applicant: Fluidigm CorporationInventors: Marc Unger, Geoffrey Facer, Barry Clerkson, Christopher Cesar, Neil Switz
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Publication number: 20080075380Abstract: A method of processing data associated with fluorescent emissions from a microfluidic device. The method includes performing an auto-focus process associated with a first image of the microfluidic device and performing an auto-exposure process associated with the first image of the microfluidic device. The method also includes capturing a plurality of images of the microfluidic device. The plurality of images are associated with a plurality of thermal cycles. The method further includes performing image analysis of the plurality of captured images to determine a series of optical intensities and performing data analysis of the series of optical intensities to provide a series of change in threshold values.Type: ApplicationFiled: September 13, 2007Publication date: March 27, 2008Applicant: Fluidigm CorporationInventors: Simant Dube, Gang Sun, Lian-She Zhao
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Publication number: 20080075322Abstract: A method of determining a plurality of positions associated with a plurality of reaction chambers of a microfluidic device includes a) providing a baseline image; b) providing a template image of a reaction chamber; and c) selecting a region of the baseline image. The method also includes d) performing a matching process including matching the template image to one or more portions of the region of the baseline image; e) determining a position of a first chamber; and f) predicting a position of a second chamber. The method further includes g) repeating steps c) through f) for subsequent chambers.Type: ApplicationFiled: September 13, 2007Publication date: March 27, 2008Applicant: Fluidigm CorporationInventors: Simant Dube, Gang Sun, Lian-She Zhao
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Patent number: 7312085Abstract: The invention provides systems, including apparatus, methods, and kits, for the microfluidic manipulation and/or detection of particles, such as cells and/or beads. The invention provides systems, including apparatus, methods, and kits, for the microfluidic manipulation and/or analysis of particles, such as cells, viruses, organelles, beads, and/or vesicles. The invention also provides microfluidic mechanisms for carrying out these manipulations and analyses. These mechanisms may enable controlled input, movement/positioning, retention/localization, treatment, measurement, release, and/or output of particles. Furthermore, these mechanisms may be combined in any suitable order and/or employed for any suitable number of times within a system.Type: GrantFiled: April 1, 2003Date of Patent: December 25, 2007Assignee: Fluidigm CorporationInventors: Hou-Pu Chou, Antoine Daridon, Kevin Farrell, Brian Fowler, Yish-Hann Liau, Ian D. Manger, Hany Ramez Nassef, William Throndset
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Patent number: 7307802Abstract: An apparatus for imaging one or more selected fluorescence indications from a microfluidic device. The apparatus includes an imaging path coupled to least one chamber in at least one microfluidic device. The imaging path provides for transmission of one or more fluorescent emission signals derived from one or more samples in the at least one chamber of the at least one microfluidic device. The chamber has a chamber size, the chamber size being characterized by an actual spatial dimension normal to the imaging path. The apparatus also includes an optical lens system coupled to the imaging path. The optical lens system is adapted to transmit the one or more fluorescent signals associated with the chamber.Type: GrantFiled: June 7, 2005Date of Patent: December 11, 2007Assignee: Fluidigm CorporationInventor: Marc A. Unger
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Patent number: 7291512Abstract: A valve structure comprises an elastomeric block formed with first and second microfabricated recesses separated by a membrane portion of the elastomeric block. The valve is actuated by positioning a compliant electrode on a first side of the first recess proximate to and in physical communication with the membrane. Where the valve is to be electrostatically actuated, a second electrode is positioned on a second side of the first recess opposite the first side. Application of a potential difference across the electrodes causes the compliant electrode and the membrane to be attracted into the flow channel. Where the valve is to be electrostrictively actuated, a second electrode is positioned on the same side of the recess as the compliant electrode. Application of a potential difference across the electrodes causes the electrodes to be attracted such that elastomer membrane portion material between them is compressed and bows into the flow channel.Type: GrantFiled: December 21, 2005Date of Patent: November 6, 2007Assignee: Fluidigm CorporationInventor: Marc Unger