Patent application number | Description | Published |
20100220318 | Waveguide With Integrated Lens - A sample can be illuminated for analysis using apparatus including a light source, a planar waveguide, and a refractive volume. The light source provides light along a propagation vector. The planar waveguide is oriented such that the propagation vector is perpendicular to the normal vector of the planar waveguide and offset from the planar waveguide in a direction parallel to the normal vector of the planar waveguide. The refractive volume is positioned proximate to the planar waveguide and can optically coupling light provided by the light source to the planar waveguide. | 09-02-2010 |
20100284430 | SYSTEMS AND METHODS FOR GENERATING HIGH REPETITION RATE ULTRA-SHORT OPTICAL PULSES - Systems, methods, circuits and/or devices for generating high repetition rate ultra-short pulses are described. As one of many examples, an optical pulse generating laser system is described that produces mode-locked optical pulses. The laser system incorporates an optical pulse generation device that includes two optical loops coupled via a beam splitter. In addition, the optical pulse generation device includes an optical gain medium that is associated with the first optical loop, and a saturable element that is disposed in either the first optical loop or the second optical loop. The saturable element is operable to modulate a group of optical pulses propagating in at least one of the first optical loop and the second optical loop to create a group of substantially regular modulated pulses. | 11-11-2010 |
20110012026 | PLANAR OPTICAL WAVEGUIDE WITH CORE OF LOW-INDEX-OF-REFRACTION INTERROGATION MEDIUM - An apparatus for illuminating a sample includes a planar waveguide. The planar waveguide includes a first substrate, including a first outer surface and a first inner surface, and a second substrate, including a second outer surface and a second inner surface. The first and second inner surfaces of the first and second substrates, respectively, are spaced apart from each other and partly define a volume for confining the sample therein. The apparatus also includes a light source for providing light directed toward the planar waveguide, such that the light is optically coupled to and contained within the planar waveguide between the outer surfaces of the first and second substrates, while illuminating at least a portion of the sample confined within the volume. | 01-20-2011 |
20120071342 | SYSTEM AND METHOD FOR DETECTING MULTIPLE MOLECULES IN ONE ASSAY - A rapid diagnostic system that delivers a panel of serologic assay results using a small amount of blood, serum, or plasma is described. The system includes a disposable cartridge and a reader instrument, based on planar waveguide imaging technology. The cartridge incorporates a microarray of recombinant antigens and antibody controls in a fluidic channel, providing multiple parallel fluorescence assay results for a single sample. | 03-22-2012 |
20120088230 | System And Method For Cell Analysis - A system for enumeration of objects such as cells in a sample is disclosed. The system uses a low-cost cartridge and a reader instrument, based on planar waveguide imaging technology. Cells of a blood sample may be stained with fluorescence-tagged antibodies and are loaded onto the cartridge where the differentially labeled cells may be distinguished and quantified. | 04-12-2012 |
20130203627 | System and Method For Detecting Multiple Molecules in One Assay - A rapid diagnostic system that delivers a panel of serologic assay results using a small amount of blood, serum, or plasma is described. The system includes a disposable cartridge, including an integral lens portion coupled to a planar waveguide, and a reader instrument, based on planar waveguide imaging technology. The cartridge incorporates a microarray of recombinant antigens and antibody controls in a fluidic channel, providing multiple parallel fluorescence assay results for a single sample. | 08-08-2013 |
20130244313 | SYSTEM AND DEVICE FOR ANALYZING A FLUIDIC SAMPLE - A device for analyzing an analyte in a sample includes a first substrate, a second substrate, a fluidic channel, an inlet port and an outlet port. Each of the first substrate and the second substrate has an inner surface and an outer surface, the inner surface of the first substrate forming, at least in part, the lower wall of the fluidic channel, and the inner surface of the second substrate forming, at least in part, the upper wall of the fluidic channel. The fluidic channel is connected to the inlet port and the outlet port. The fluidic channel includes a reagent region and a detection region, at least a portion of the reagent region being coated with one or more dried reagents. The device further includes a wicking pad located on the outer surface of the second substrate, the wicking pad being positioned at a pre-determined distance from the outlet port. | 09-19-2013 |
20130283931 | Fluidic Assay Cartridge With Controlled Passive Flow - A fluidic cartridge ( | 10-31-2013 |
20140120556 | Particle Identification System, Cartridge And Associated Methods - A particle identification system includes: a cartridge for containing a sample with fluorescently labeled particles; illumination for illuminating a region within the cartridge to stimulate emission from particles; imager for generating wavelength-filtered electronic images of the emission within at least one measurement field of the region; and particle identifier for processing the electronic images to determine a superset of particles of interest, and fluorescently labeled particles within the superset based on properties of the particles in the at least one measurement field. A method determines fluorescently labeled particles within a sample, by: processing at least one electronic image from at least one focal position within the sample; determining dimmest separation lines between brighter areas in the electronic image; and, for each of the brighter areas, determining local background level based on pixel values of the separation lines forming a perimeter therearound, to determine each of the fluorescently labeled particles. | 05-01-2014 |