BioScale, Inc. Patent applications |
Patent application number | Title | Published |
20150031047 | Methods and Systems For the Rapid Characterization of Functional Biological Molecules - In one non-limiting aspect, the invention provides a method for detecting the quality of a biological molecule comprising forming a first mixture of ingredients comprising: (i) a first binding agent that specifically binds to a tag, wherein the first binding agent is attached to a solid support; (ii) a decoy comprising a first portion comprising the tag attached to a second portion comprising an anchor; (iii) a sensor attached to a second binding agent that specifically binds to the anchor; and (iv) a sample suspected of containing a high quality biological molecule comprising a tag, wherein the tag of the high quality biological molecule is accessible; allowing interaction of the ingredients such that the sensor provides an output signal | 01-29-2015 |
20100233031 | Method and Apparatus for Analyzing Bioprocess Fluids - Methods and apparatus for analyzing bioprocess fluids are provided. A plurality of particles coated with a plurality of capture agents having an affinity for one or more biological markers is combined with bioprocess fluid to form a plurality of analyte-particle complexes. The system also includes a transport arrangement for transporting the sample to a sensor surface, and optionally a magnetic field inducing structure constructed and arranged to establish a magnetic field at and adjacent to the sensor surface. The resonant sensor produces a signal corresponding to an amount of analyte-particle complexes that are bound to the sensor surface. | 09-16-2010 |
20090269248 | METHOD AND APPARATUS FOR ANALYTE PROCESSING - A system for processing analytes in samples includes an instrument and a cartridge. The cartridge includes fluid inputs, input and output valve assemblies, processing devices, fluid reservoirs, and channels for carrying samples from the fluid inputs to the fluid reservoirs. The valve assemblies include valves adapted to form a sealed fluid chamber in response to force applied by a movable head assembly of the instrument. Each fluid reservoir is adapted to mate and align with an air displacement pump interface member. A valve assembly includes a recess wall surrounding a recess and a valve assembly wall surrounding both the recess and the recess wall. The recess wall and the valve assembly walls are adapted to mate with and seal against a flexible sheet covering the recess, the recess wall, and the valve assembly wall. The cartridge and instrument include complementary features for finely and coarsely aligning instrument assemblies with portions of the cartridge. | 10-29-2009 |
20090194181 | Fluidic System with Improved Flow Characteristics - The invention relates to a fluidic system that includes a body structure having a chamber disposed therein. The fluidic system includes at least one fluid input at a first end of the chamber and at least one fluid output at a second end of the chamber. The fluidic system also includes a sensor device (e.g., an acoustic device) having a surface defining a portion of a surface of the chamber. The fluidic system also includes a first surface at the first end of the chamber oriented at an oblique or arcuate (e.g., curved) angle relative to the surface of the sensor device to direct fluid through the chamber. | 08-06-2009 |
20090148857 | Method and apparatus for detection of analyte using an acoustic device - Methods for detecting analytes in a sample are provided. A plurality of particles, each of which is coated with a capture agent having an affinity for the analyte, is combined with the sample to form a plurality of analyte-particle complexes. The system also includes a transport arrangement for transporting the sample to the sensor surface, and a magnetic field inducing structure constructed and arranged to establish a magnetic field at and adjacent to the sensor surface. The resonant sensor produces a signal corresponding to an amount of analyte-particle complexes that are bound to the sensor surface. | 06-11-2009 |
20090148856 | Methods and apparatus for therapeutic drug monitoring using an acoustic device - Methods for therapeutic drug monitoring are provided. A plurality of particles, each of which is coated with a capture agent capable of binding a therapeutic drug of choice is combined with the sample to form a plurality of therapeutic drug-particle complexes. The system also includes a transport arrangement for transporting the sample and/or particles to the sensor surface, and optionally a magnetic field inducing structure constructed and arranged to establish a magnetic field at and adjacent to the sensor surface. The resonant sensor produces a signal corresponding to an amount of therapeutic drug-particle complexes that are bound to the sensor surface. | 06-11-2009 |
20090074951 | SUBSTRATES HAVING THROUGH-HOLE VIAS AND METHOD OF MAKING SAME - A sensor assembly for sensors such as microfabricated resonant sensors is disclosed. The disclosed assembly provides improved performance of the sensors by providing a thermally insensitive environment and short pathways for signals to travel to processing components. Further, the assembly provide modular construction for the sensors and housing modules, thereby allowing replacement of the sensors at a lower cost. The assembly includes a sensor module including a sensor formed on a conductive substrate with a cavity formed on one surface. The substrate has conductive vias extending from the cavity to a second surface of the substrate. A housing assembly accommodates the sensor and includes a rigid housing, preferably made from a ceramic. An electronic component, such as an amplifier, is mounted on the rigid housing. The electronic component electrically engages the vias substantially at the second surface of the substrate. The electronic component receive signals from the sensor through the vias. The signals are then processed through an amplifier and a digital signal processor using a modified periodogram. | 03-19-2009 |
20090068759 | REUSABLE DETECTION SURFACES AND METHODS OF USING SAME - The technology provided herein generally relates to reusable detection surfaces and methods for reusing a detection surface after using the detection surface in an assay for an analyte. | 03-12-2009 |