Patent application number | Description | Published |
20090324037 | SYSTEMS AND METHODS FOR MONITORING THE AMPLIFICATION AND DISSOCIATION BEHAVIOR OF DNA MOLECULES - The present invention relates to systems and methods for monitoring the amplification of DNA molecules and the dissociation behavior of the DNA molecules. | 12-31-2009 |
20100028980 | REAL-TIME PCR IN MICRO-CHANNELS - The present invention relates to methods for amplifying nucleic acids in micro-channels. More specifically, the present invention relates to methods for performing a real-time polymerase chain reaction (PCR) in a continuous-flow microfluidic system and to methods for monitoring real-time PCR in such systems. | 02-04-2010 |
20110008223 | FLUID INTERFACE CARTRIDGE FOR A MICROFLUIDIC CHIP - An interface cartridge for a microfluidic chip, with microfluidic process channels and fluidic connection holes at opposed ends of the process channels, provides ancillary fluid structure, including fluid flow channels and input and/or waste wells, which mix and/or convey reaction fluids to the fluidic connection holes and into the process channels of the microfluidic chip. | 01-13-2011 |
20110048547 | MICROFLUIDIC SYSTEMS AND METHODS FOR THERMAL CONTROL - The invention relates to methods and devices for control of an integrated thin-film device with a plurality of microfluidic channels. In one embodiment, a microfluidic device is provided that includes a microfluidic chip having a plurality of microfluidic channels and a plurality of multiplexed resistive thermal detectors (RTDs). Each of the RTDs is associated with one of the microfluidic channels. The RTDs are connected to a power supply through individual electrodes and pairs of common electrodes. Adjacent RTDs may be driven with alternating polarities, and the current in the common electrodes may be minimized using a virtual ground circuit. The compact microfluidic device is capable of fast heating and highly precise thermal control. The compact microfluidic device is also capable using the RTDs to sense temperature without their heating capability. | 03-03-2011 |
20110064628 | MICROFLUIDIC CHIP FEATURES FOR OPTICAL AND THERMAL ISOLATION - A microfluidic chip includes microfluidic channels, elements for thermally and optically isolating the microfluidic channels, and elements for enhancing the detection of optical signal emitted from the microfluidic channels. The thermal and optical isolation elements may comprise barrier channels interposed between adjacently-arranged pairs of microfluidic channels for preventing thermal and optical cross-talk between the adjacent microfluidic channels. The isolation element may alternatively comprise reflective film embedded in the microfluidic chip between the adjacent microfluidic channels. The signal enhancement elements comprise structures disposed adjacent to the microfluidic channels that reflect light passing through or emitted from the microfluidic channel in a direction toward a detector. The structures may comprise channels or a faceted surface that redirects the light by total internal reflection or reflective film material embedded in the microfluidic chip. | 03-17-2011 |
20110077897 | MICROFLUIDIC DEVICES WITH INTEGRATED RESISTIVE HEATER ELECTRODES INCLUDING SYSTEMS AND METHODS FOR CONTROLLING AND MEASURING THE TEMPERATURES OF SUCH HEATER ELECTRODES - The invention relates to methods and devices for control of an integrated thin-film device with a plurality of microfluidic channels. In one embodiment, a microfluidic device is provided that includes a microfluidic chip having a plurality of microfluidic channels and a plurality of multiplexed heater electrodes, wherein the heater electrodes are part of a multiplex circuit including a common lead connecting the heater electrodes to a power supply, each of the heater electrodes being associated with one of the microfluidic channels. The microfluidic device also includes a control system configured to regulate power applied to each heater electrode by varying a duty cycle, the control system being further configured to determine the temperature of each heater electrode by determining the resistance of each heater electrode. | 03-31-2011 |
20110081136 | COMBINED THERMAL DEVICES FOR THERMAL CYCLING - The invention relates to systems and methods including a combination of thermal generating device technologies to achieve more efficiency and accuracy in PCR temperature cycling of nucleic samples undergoing amplification. | 04-07-2011 |
20110306119 | SYSTEMS AND METHODS FOR MONITORING THE AMPLIFICATION AND DISSOCIATION BEHAVIOR OF DNA MOLECULES - The present invention relates to systems and methods for monitoring the amplification of DNA molecules and the dissociation behavior of the DNA molecules. The present invention in one embodiment provides a system that includes a microfluidic channel comprising a PCR processing zone and an HRTm analysis zone; and an image sensor having a first image sensor region having a first field of view and a second image sensor region having a second field of view, wherein the second field of view is different than the first field of view, wherein at least a portion of the PCR processing zone is within the first field of view; and at least a portion of the HRTm analysis zone is within the second field of view. | 12-15-2011 |
20120058460 | SLUG CONTROL DURING THERMAL CYCLING - The present invention, in one aspect, provides methods and systems for controlling slugs using temperature dependent fluorescent dyes. In some embodiments, the present invention uses one or more techniques to enhance the visibility of slugs, enhance a system's ability to differentiate between slugs, and enhance a system's ability to identify the positions of slugs. | 03-08-2012 |
20120115190 | AIR COOLING SYSTEMS AND METHODS FOR MICROFLUIDIC DEVICES - Systems and methods for air cooling a microfluidic device using confinement channels to isolate cooling air from exposed liquids are disclosed. The systems and methods may also thermally condition the cooling airflow for improved robustness of the microfluidic device. In one embodiment, the air cooling system includes a split-level cooling manifold including an inlet duct that directs cooling air to a microfluidic device and an outlet duct that directs air heated by the microfluidic device away from the microfluidic device. The temperature of cooling air may be measured. The cooling air may be preheated to a temperature that is higher than an expected ambient temperature. The temperature of the cooling air after being heated by a microfluidic device may be measured. | 05-10-2012 |
20120167988 | COMPOSITION AND METHOD FOR IN-SYSTEM PRIMING MICROFLUIDIC DEVICES - The present invention relates to compositions and methods for in-system priming of microfluidic devices. Aspects of the present invention relate to compositions and methods for in-system priming of microfluidic devices utilizing a priming solution comprising adding and/or increasing concentrations of surfactant in a buffer solution. | 07-05-2012 |
20120178077 | THERMAL CALIBRATION - The present invention relates to the use of one or more amplicons as temperature calibrators. In some embodiments, the calibrators may be used to calibrate the temperature of a microfluidic channel in which amplification and/or melt analysis is performed. In some embodiments, the amplicons may be genomic, ultra conserved elements and/or synthetic. The amplicon(s) may have a known or expected melt temperature(s). The calibrators may be added to primers of study or may follow or lead the primers of study in the channel. The amplicon(s) may be amplified and melted, and the temperature(s) at which the amplicon(s) melted may be determined. The measured temperature(s) may be compared to the known temperature(s) at which the amplicon(s) was expected to melt. The difference(s) between the measured and expected temperatures may be used to calibrate/adjust one or more temperature control elements used to control and/or detect the temperature of the channel. | 07-12-2012 |
20120239305 | HIGH-RESOLUTION MELTING ANALYSIS - The application relates to methods and systems for analysis of dissociation behavior of nucleic acids and identification of nucleic acids. In one aspect, methods and systems are disclosed for identifying a nucleic acid in a sample including an unknown nucleic acid and for detecting a single nucleotide polymorphism in a nucleic acid in a sample. Methods and systems are also disclosed for identification of a nucleic acid in a biological sample including at least one unknown nucleic acid by fitting denaturation data including measurements of a quantifiable physical change of the sample at a plurality of independent sample property points to a function to determine an intrinsic physical value and to obtain an estimated physical change function, and identifying the nucleic acid in the biological sample by comparing the intrinsic physical value for at least one unknown nucleic acid to an intrinsic physical value for a known nucleic acid. | 09-20-2012 |
20130157271 | Systems and Methods Using External Heater Systems in Microfluidic Devices - The present invention relates to methods and systems that result in high quality, reproducible, thermal melt analysis on a microfluidic platform. The present invention relates to methods and systems using thermal systems including heat spreading devices, including interconnection methods and materials developed to connect heat spreaders to microfluidic devices. The present invention also relates to methods and systems for controlling, measuring, and calibrating the thermal systems of the present invention. | 06-20-2013 |
20130177913 | REAL-TIME PCR IN MICRO-CHANNELS - The present invention relates to methods for amplifying nucleic acids in micro-channels. More specifically, the present invention relates to methods for performing a real-time polymerase chain reaction (PCR) in a continuous-flow microfluidic system and to methods for monitoring real-time PCR in such systems. | 07-11-2013 |
20130210020 | SYSTEMS AND METHODS FOR MONITORING THE AMPLIFICATION AND DISSOCIATION BEHAVIOR OF DNA MOLECULES - The present invention relates to systems and methods for monitoring the amplification of DNA molecules and the dissociation behavior of the DNA molecules. The present invention in one embodiment provides a system that includes a microfluidic channel comprising a PCR processing zone and an HRTm analysis zone; and an image sensor having a first image sensor region having a first field of view and a second image sensor region having a second field of view, wherein the second field of view is different than the first field of view, wherein at least a portion of the PCR processing zone is within the first field of view; and at least a portion of the HRTm analysis zone is within the second field of view. | 08-15-2013 |
20130217104 | MICROFLUIDIC CHIP FEATURES FOR OPTICAL AND THERMAL ISOLATION - A microfluidic chip includes microfluidic channels, elements for thermally and optically isolating the microfluidic channels, and elements for enhancing the detection of optical signal emitted from the microfluidic channels. The thermal and optical isolation elements may comprise barrier channels interposed between adjacently-arranged pairs of microfluidic channels for preventing thermal and optical cross-talk between the adjacent microfluidic channels. The isolation element may alternatively comprise reflective film embedded in the microfluidic chip between the adjacent microfluidic channels. The signal enhancement elements comprise structures disposed adjacent to the microfluidic channels that reflect light passing through or emitted from the microfluidic channel in a direction toward a detector. The structures may comprise channels or a faceted surface that redirects the light by total internal reflection or reflective film material embedded in the microfluidic chip. | 08-22-2013 |
20130218513 | MICROFLUIDIC DEVICES WITH INTEGRATED RESISTIVE HEATER ELECTRODES INCLUDING SYSTEMS AND METHODS FOR CONTROLLING AND MEASURING THE TEMPERATURES OF SUCH HEATER ELECTRODES - The invention relates to methods and devices for control of an integrated thin-film device with a plurality of microfluidic channels. In one embodiment, a microfluidic device is provided that includes a microfluidic chip having a plurality of microfluidic channels and a plurality of multiplexed heater electrodes, wherein the heater electrodes are part of a multiplex circuit including a common lead connecting the heater electrodes to a power supply, each of the heater electrodes being associated with one of the microfluidic channels. The microfluidic device also includes a control system configured to regulate power applied to each heater electrode by varying a duty cycle, the control system being further configured to determine the temperature of each heater electrode by determining the resistance of each heater electrode. | 08-22-2013 |
20130224845 | FLUID INTERFACE CARTRIDGE FOR A MICROFLUIDIC CHIP - An interface cartridge for a microfluidic chip, with microfluidic process channels and fluidic connection holes at opposed ends of the process channels, provides ancillary fluid structure, including fluid flow channels and input and/or waste wells, which mix and/or convey reaction fluids to the fluidic connection holes and into the process channels of the microfluidic chip. | 08-29-2013 |
20130244240 | SYSTEMS AND METHODS FOR MONITORING THE AMPLIFICATION AND DISSOCIATION BEHAVIOR OF DNA MOLECULES - The present invention relates to systems and methods for monitoring the amplification of DNA molecules and the dissociation behavior of the DNA molecules. | 09-19-2013 |
20140038191 | OPTICAL SYSTEM FOR HIGH RESOLUTION THERMAL MELT DETECTION - This invention relates to systems and methods for imaging sample materials within a microfluidic device during an assay reaction process. In accordance with certain aspects of the invention, images are formed with a pixel array and a region of interest (“ROI”) is defined within the pixel array. Image values, such as fluorescent intensity, can be computed as averages of individual pixel values within the ROI. Where the ROI is subject to non-uniform conditions, such as non-uniform heating, the ROI can be divided into sub-ROIs which are sufficiently small that the condition is uniform within the sub-ROI. | 02-06-2014 |
20140065703 | COMBINED THERMAL DEVICES FOR THERMAL CYCLING - The invention relates to systems and methods including a combination of thermal generating device technologies to achieve more efficiency and accuracy in PCR temperature cycling of nucleic samples undergoing amplification. | 03-06-2014 |
20140180600 | HIGH-RESOLUTION MELTING ANALYSIS - The present invention relates to methods and systems for the analysis of the dissociation behavior of nucleic acids and the identification of nucleic acids. In one aspect, methods and systems are disclosed for identifying a nucleic acid in a sample including an unknown nucleic acid and for detecting a single nucleotide polymorphism in a nucleic acid in a sample. In another aspect, methods and systems are disclosed for identification of a nucleic acid in a biological sample including at least one unknown nucleic acid by fitting denaturation data including measurements of a quantifiable physical change of the sample at a plurality of independent sample property points to a function to determine an intrinsic physical value and to obtain an estimated physical change function, and identifying the nucleic acid in the biological sample by comparing the intrinsic physical value for at least one unknown nucleic acid to an intrinsic physical value for a known nucleic acid. | 06-26-2014 |
20140272927 | METHODS, DEVICES, AND SYSTEMS FOR PROCESSING MULTIPLE ASSAYS BACKGROUND - Methods, devices, and systems for performing polymerase chain reaction (PCR) amplification and melt data acquisition according to a single slug approach in which a single slug in a microfluidic channel fills an entire thermal zone of the microfluidic channel, and the thermal zone used for both PCR temperature cycling and melt data acquisition. A detector may be configured to detect fluorescence from the thermal zone during the PCR temperature cycling for real-time PCR and/or during temperature ramping in the melt data acquisition. Slug position control may be achieved by detecting leading or trailing edges in a slug build target zone into which a slug passes after passing through the thermal zone. The single slug approach may break coupling between one or more events of the PCR amplification and melt data acquisition and enable events to be independently optimized. | 09-18-2014 |
20140272984 | Microfluidic Flow Monitoring - The present invention relates to systems and methods of monitoring velocity or flow in channels, especially in microfluidic channels. In some embodiments, the present invention relates to systems and methods of monitoring velocity or flow rate in systems and methods for performing a real-time polymerase chain reaction (PCR) in a continuous-flow microfluidic system. | 09-18-2014 |
20150069045 | THERMAL CONTROL SYSTEMS AND METHODS USING THERMALLY GUARDED MULTIPLEXED SENSORS - Methods and systems for thermal control of a device are disclosed having (i) a heated zone including two or more resistive sensors and (ii) a common electrode connected to each of the two or more resistive sensors. The two or more resistive sensors may be driven with heater control signals having alternating polarities. One or more portions of a thermal boundary of the heated zone may be heated by one or more thermal guard heaters. | 03-12-2015 |