Patent application number | Description | Published |
20080247911 | Measurement of Concentrations and Binding Energetics - Free-standing microfluidic channels are used to both transport and analyze molecules of interest. In a biochemical context, such molecules may be polypeptides, nucleic acids, or other biomolecules. The free-standing channels provide a real-time readout of concentration without the need for labeling with reporter molecules. The channels can also measure enthalpy values and equilibrium constants by detecting heat released from or absorbed by the sample. | 10-09-2008 |
20090044608 | Method And Apparatus For Measuring Particle Characteristics through Mass Detection - Method for measuring a target particle property. A suspended microchannel resonator is calibrated to determine the relationship between a detected mass and a resonance frequency shift of the resonator. The target particle is suspended in a fluid and introduced into the resonator, and the resonator frequency shift due to the particle is measured. Target particle mass is calculated from the resonator frequency shift, the target particle density, and the fluid density. A target particle property such as size or volume is determined from the calculated target particle mass. | 02-19-2009 |
20090053749 | Method and Apparatus for High Throughput Diagnosis of Diseased Cells With Microchannel Devices - The method and apparatus of the present invention detects changes in cell biomechanics caused by any of a variety of diseases and conditions. In one embodiment, the method and apparatus of the invention detect infection of red blood cells. In one embodiment, the invention is a method and apparatus comprising a microfluidic channel with a constriction, for trapping infected red blood cells while allowing healthy red blood cells to deform and pass through the channel. In another embodiment, the invention comprises a suspended microchannel resonator for detecting and counting red blood cells at the constriction of the microfluidic channel. | 02-26-2009 |
20100227310 | FLOW CYTOMETRY METHODS AND IMMUNODIAGNOSTICS WITH MASS SENSITIVE READOUT - Mass cytometry method. In one aspect, the method includes providing a sample having at least one cell type and mixing the sample with material such as nanoparticles functionalized with affinity molecules for the at least one cell type. The sample is transported through a suspended microchannel resonator to record a mass histogram and a cell count for the at least one cell type is determined from the histogram. | 09-09-2010 |
20100288043 | Method and apparatus for extended time and varying environment measurements of single particles in microfluidic channels - Methods and apparatus for improving measurements of particle or cell characteristics, such as mass, in Suspended Microchannel Resonators (SMR's). Apparatus include in particular designs for trapping particles in SMR's for extended measurement periods and for changing the fluid properties within the SMR during the extended periods. Methods include techniques to provide for cell growth over time and over time in response to changing fluid properties to aid in determining parameters such as drug resistance and drug susceptibility. | 11-18-2010 |
20110124095 | Method and apparatus for high throughput diagnosis of diseased cells with microchannel devices - The method and apparatus of the present invention detects changes in cell biomechanics caused by any of a variety of diseases and conditions. In one embodiment, the method and apparatus of the invention detect infection of red blood cells. In one embodiment, the invention is a method and apparatus comprising a microfluidic channel with a constriction, for trapping infected red blood cells while allowing healthy red blood cells to deform and pass through the channel. In another embodiment, the invention comprises a suspended microchannel resonator for detecting and counting red blood cells at the constriction of the microfluidic channel. | 05-26-2011 |
20110271747 | Method and apparatus for integrated measurement of the mass and surface charge of discrete microparticles using a suspended mirochannel resonator - Measurements of the mass and surface charge of microparticles are employed in the characterization of many types of colloidal dispersions. The suspended microchannel resonator (SMR) is capable of measuring individual particle masses with femtogram resolution. The high sensitivity of the SMR resonance frequency to changes in particle position in the SMR channel is employed to determine the electrophoretic mobility of discrete particles in an applied electric field. When an oscillating electric field is applied to the suspended microchannel, the transient resonance frequency shift corresponding to a particle transit can be analyzed to extract both the buoyant mass and electrophoretic mobility of each particle. These parameters, together with the mean particle density, can be used to compute the size, absolute mass, and surface charge of discrete particles. | 11-10-2011 |
20120118063 | APPARATUS AND METHOD FOR MEASURING BUOYANT MASS AND DEFORMABILITY OF SINGLE CELLS - Method for determining buoyant mass and deformability of a cell. The method includes introducing the cell into a suspended microchannel resonator that includes a constriction near a distal location in the resonator. A first frequency shift in the resonator is monitored as a cell moves to the distal location in the resonator, the first frequency shift being related to the buoyant mass of the cell. Transit time of the cell through the constriction is measured by monitoring a second frequency shift as a result of a change in cell location as it passes through the constriction, whereby deformability is determined from the measured buoyant mass and transit time. | 05-17-2012 |
20140051107 | Method and Apparatus for Measuring Particle Characteristics through Mass Detection - Method for measuring a target particle property. A suspended microchannel resonator is calibrated to determine the relationship between a detected mass and a resonance frequency shift of the resonator. The target particle is suspended in a fluid and introduced into the resonator, and the resonator frequency shift due to the particle is measured. Target particle mass is calculated from the resonator frequency shift, the target particle density, and the fluid density. A target particle property such as size or volume is determined from the calculated target particle mass. | 02-20-2014 |
20140096604 | Method and Apparatus for Trapping Single Particles in Microfluidic Channels - Methods and apparatus for improving measurements of particle or cell characteristics, such as mass, in Suspended Microchannel Resonators (SMR's). Apparatus include in particular designs for trapping particles in SMR's for extended measurement periods. Methods include techniques to provide differential measurements by varying the fluid density for repeated measurements on the same particle or cell. | 04-10-2014 |