Patent application number | Description | Published |
20090068760 | MICROFLUIDIC ASSAY SYSTEM WITH DISPERSION MONITORING - Disclosed is a microfluidic assay system and methods that apply flow injection analysis to permit dispersion monitoring. A solution containing a reagent that binds an analyte and a tracer is delivered via pressure-driven flow into the receiving end of the injection channel of the system of the invention. A sample fluid suspected of containing the analyte is delivered into the upstream end of the input channel under conditions permitting flow of the sample fluid toward the downstream end of the assay channel and permitting dispersion of the reagent into the sample fluid. The amount of tracer present in the fluid as it passes over the reference region and the capture region and the amount of binding between the analyte and the capture region are detected. The amount of binding detected between the analyte and the capture region is correlated to the amount of tracer detected in the reference region. | 03-12-2009 |
20100030083 | ASSESSMENT OF TISSUE RESPONSE TO STRESS - An approach is described for identifying sites of imminent skin breakdown in amputee prosthesis users. Thermal recovery time (TRT) for a limb is optically determined using an infrared camera. TRT is the time interval for the temperature of the skin to achieve 70% of its maximum value during a 10-minute recovery period after a subject has completed a standing/walk-in-place procedure. A limb tolerance map is produced in which 5×5 pixel squares are colored to indicate their TRT and labeled to indicate a temperature vs. time curve (indicative of blood flow characteristics) for the square. TRT data can also be used for prosthetic fitting and socket replacement, by locating tolerant/intolerant regions on a limb and providing a visual “limb tolerance map” for a proposed socket design and applied to other areas, such as the design of shoes for patients with insensate feet, cushions for wheelchair users, and mattresses for bedridden patients. | 02-04-2010 |
20100081216 | METHOD AND DEVICE FOR RAPID PARALLEL MICROFLUIDIC MOLECULAR AFFINITY ASSAYS - Disclosed are methods and devices for rapid parallel molecular affinity assays performed in a microfluidic environment. The invention exploits hydrodynamic addressing to provide simultaneous performance of multiple assays in parallel using a minimal sample volume flowing through a single channel. | 04-01-2010 |
20110151479 | MICROFLUIDIC SYSTEMS INCORPORATING FLOW-THROUGH MEMBRANES - Disclosed is a flow-through membrane assay that takes advantage of a high surface area and rapid transport while allowing individual control over flow rates and times for each step of a multi-step assay. A microfluidic card features channels in communication with a porous membrane, channels on either side of membrane to allow transverse flow across the membrane, capturing a labeled target from the sample by flowing the sample across the membrane, or capturing a target from the sample followed by flowing a reagent containing a label that binds to the target. Fluid can be pushed or pulled through the assay membrane by external control. Air near the membrane is managed by diverting air between fluids to a channel upstream of the assay membrane, venting air between fluids through a hydrophobic membrane upstream of the assay membrane, and/or by venting trapped air through a hydrophobic membrane downstream of the assay membrane. | 06-23-2011 |
20120138469 | MICROFLUIDIC DEVICES FOR TRANSVERSE ELECTROPHORESIS AND ISOELECTRIC FOCUSING - Devices and methods are provided for separation of particles of a first selected electrophoretic mobility or isoelectric point from a fluid comprising particles of at least one other selected electrophoretic mobility or isoelectric point. The devices comprise a microchannel; electrodes to either side of the microchannel for applying a selected voltage to produce an electrical field across the microchannel orthogonal to the length of the microchannel; and outlets in said microchannel placed to receive outlet portions of the fluid containing enhanced concentrations of each type of particle. The devices may be used for particle detection, quantification, separation, mixing, dilution and concentration; to release, separate and detect interior particles of cells or organisms, and to separate particles such as proteins and microorganisms from biological fluids such as blood; or to separate and detect airborne contaminants such as bacterial warfare agents from air. | 06-07-2012 |
20120171698 | METHOD AND DEVICE FOR RAPID PARALLEL MICROFLUIDIC MOLECULAR AFFINITY ASSAYS - Disclosed are methods and devices for rapid parallel molecular affinity assays performed in a microfluidic environment. The invention exploits hydrodynamic addressing to provide simultaneous performance of multiple assays in parallel using a minimal sample volume flowing through a single channel. | 07-05-2012 |
20120288961 | CAPILLARITY-BASED DEVICES FOR PERFORMING CHEMICAL PROCESSES AND ASSOCIATED SYSTEMS AND METHODS - The present technology is directed to capillarity-based devices for performing chemical processes and associated system and methods. In one embodiment, for example, a device can include a base configured to receive one or more fluids, a porous wick carried by the base portion, and a flow-metering element along the porous wick to modify a rate or volume of fluid flow along the porous wick. The porous wick can comprise a first pathway, a second pathway, and an intersection at which the first pathway and the second pathway converge. Input ends of the first and second pathways can be wettably distinct. Upon wetting of the input ends, fluid is configured to travel by capillary action along each pathway. The device may also include volume-metering features configured to automatically and independently control or modify a volume of fluid flow along one or more pathways of the porous wick. | 11-15-2012 |
20150203806 | SYSTEMS FOR DISRUPTING BIOLOGICAL SAMPLES AND ASSOCIATED DEVICES AND METHODS - The present technology relates generally to systems for disrupting biological samples and associated devices and methods. In some embodiments, system includes a vessel configured to receive the biological sample, a permanent magnet configured to be positioned within the vessel, an electromagnet configured to be positioned proximate the vessel, and a current source operably coupled to the electromagnet and configured to transmit an alternating current. In some embodiments, when the biological sample is placed within the vessel and the alternating current is transmitted to the electromagnet, the electromagnet produces an alternating magnetic field that causes the permanent magnet to rotate within the vessel, thereby lysing at least one of the cells of the biological sample. | 07-23-2015 |