527 results about "Sorted Cells" patented technology

The invention provides a microfabricated device for sorting cells based on a desired characteristic, for example, reporter-labeled cells can be sorted by the presence or level of reporter on the cells. The device includes a chip having a substrate into which is microfabricated at least one analysis unit. Each analysis unit includes a main channel, having a sample inlet channel, typically at one end, and a detection region along a portion of its length. Adjacent and downstream from the detection region, the main channel has a discrimination region or branch point leading to at least two branch channels. The analysis unit may further include additional inlet channels, detection points, branch points, and branch channels as desired. A stream containing cells is passed through the detection region, such that on average one cell occupies the detection region at a given time. The cells can be sorted into an appropriate branch channel based on the presence or amount of a detectable signal such as an optical signal, with or without stimulation, such as exposure to light in order to promote fluorescence.

Apparatus and Methods are provided for a microfabricated fluorescence activated cell sorter based on a switch for rapid, active control of cell routing through a microfluidic channel network. This sorter enables low-stress, highly efficient sorting of populations of small numbers of cells (i.e., 1000-100,000 cells). The invention includes packaging of the microfluidic channel network in a self-contained plastic cartridge that enables microfluidic channel network to macro-scale instrument interconnect, in a sterile, disposable format. Optical and / or fluidic switching forces are used alone or in combination to effect switching.

Apparatus and methods are described for automatically performing set-up steps for flow cytometry operations. The invention provides for the spatial determination of a flow stream and the subsequent automatic alignment of analysis devices and / or collection vessels. The automatic determination of flow stream properties provides for the automatic configuration flow cytometer parameters.

Combinations, called matrices with memories, of matrix materials with remotely addressable or remotely programmable recording devices that contain at least one data storage unit are provided. The matrix materials are those that are used in as supports in solid phase chemical and biochemical syntheses, immunoassays and hybridization reactions. The matrix materials may additionally include fluophors or other luminescent moieties to produce luminescing matrices with memories. The data storage units are non-volatile antifuse memories or volatile memories, such as EEPROMS, DRAMS or flash memory. By virtue of this combination, molecules and biological particles, such as phage and viral particles and cells, that are in proximity or in physical contact with the matrix combination can be labeled by programming the memory with identifying information and can be identified by retrieving the stored information. Combinations of matrix materials, memories, and linked molecules and biological materials are also provided. The combinations have a multiplicity of applications, including combinatorial chemistry, isolation and purification of target macromolecules, capture and detection of macromolecules for analytical purposes, selective removal of contaminants, enzymatic catalysis, cell sorting, drug delivery, chemical modification and other uses. Methods for electronically tagging molecules, biological particles and matrix support materials, immunoassays, receptor binding assays, scintillation proximity assays, non-radioactive proximity assays, and other methods are also provided.

The present invention relates to microfluidic devices and methods for detecting rare cells. The disclosed microfluidic devices and methods integrate and automate sample preparation, cell labeling, cell sorting and enrichment, and DNA / RNA analysis of sorted cells.

A method is provided for acoustically ejecting from a channel or other container a plurality of fluid droplets, each of which contains one or more particles or other localized volumes. The localized volumes, which can be living cells, are ejected towards sites on a substrate surface, a container, or a channel. An integrated cell sorting and arraying system is also provided that is capable of sorting based upon cellular properties by the selective ejection of cells from a carrier fluid. The cells can be ejected with adjustable velocity and trajectory. The ejected cells can be directed to form an array, wherein each site of the array can contain a single cell. Additionally provided is a method of forming arrays of single live cells more efficiently, rapidly, flexibly, and economically than by other cell array approaches. This method permits efficient, continuous, and simultaneous sorting of cells based upon the quantitative or semiquantitative measurement of cellular properties, and also permits non-binary or severally-branched decision-making. An integrated system, which includes a processor, and methods are also provided for the detection, selection, and ejection of selected particles or circumscribed volumes, such as live cells, from a continuous stream of fluid-suspended particles or other circumscribed volumes flowing in channels.

Prostate-specific membrane antigen (PSMA) targeting compounds are described. Uses of the compounds for imaging, therapy, cell sorting, and tumor mapping are also described.

Provided herein are improved cell sorter systems and methods. Such systems and methods provide a self-stabilizing sorter jet to automate calibration, and address the issue of drift in cell sorting systems. The systems and methods presented make it possible to determine and set the charge delay interval automatically with circuitry in the cell sorter. These circuits can set, monitor, and adjust the time delay continuously, allowing for a completely automatic, autonomous, turn-key, self-stabilizing sorter jet.

The invention includes Rh(D) binding proteins, including antibodies, and DNA encoding such proteins. Methods of generating such proteins and DNAs are also included.

Sperm in semen are sorted by fluorescence-activated cell sorting into gender-enriched populations enriched in X-chromosome or Y-chromosome bearing sperm by use of a fluorescent quantitative DNA-binding vital stain.

Provided here are cell detection systems, fluidic devices, structures and techniques related to particle and cell sorting and detection in fluid, for example sorting specific subpopulations of cell types. A method for verification of sorting of particles includes receiving a first detection signal that is associated with optical characteristics of a particle in a first channel. A sorting channel of a plurality of second channels is determined based on the first detection signal, thereby determining the sorting of the particle into the sorting channel based on the optical characteristics of the particle. A sorting signal for sorting the particle from the first channel into the sorting channel is transmitted. A second detection signal is received that is associated with the presence of the particle in the sorting channel. The sorting of the particle from the first channel into the sorting channel is verified based on the second detection signal.

The invention discloses a flow cytometry based on a microfluidic chip, relating to a flow cytometry for biomedical inspection. The structure of the flow cytometry is as follows: a cell sample introduction unit (10), a laser induce fluorescence (LIF) inspection unit (30) and an optical signal inspection and processing unit (50) are respectively connected with a cell sorting chip unit (20); the cell sorting chip unit (20) is connected with lateral and front scattered light inspection units (40); and the LIF inspection unit (30) and the lateral and the front scattered light inspection units (40) are respectively connected with the optical signal inspection and processing unit (50). Compared with the commercial flow cytometry, the flow cytometry has the following advantages and beneficial effects of high integration degree, convenient operation, small volume, high pass, sensitivity and speed, miniaturization, customization and multiple sorting force, and is suitable for individual flow cytometric analysis.

A microfluidic system and method for sorting cell clusters, and for the continuous and automated encapsulation of the clusters, once sorted, in capsules of sizes suitable for those of these sorted clusters is provided. The microfluidic system comprises a substrate in which a microchannel array comprising a cell sorting unit is etched and around which a protective cover is bonded, and the sorting unit comprises deflection means capable of separating, during the flow thereof, relatively noncohesive cell clusters, each of size ranging from 20 μm to 500 μm and of 20 to 10 000 cells approximately, such as islets of Langerhans, at least two sorting microchannels arranged in parallel at the outlet of said unit being respectively designed so as to transport as many categories of sorted clusters continuously to a unit for encapsulation of the latter, also formed in said array.

The invention provides improved methods for producing induced pluripotent stem cells (iPSC) from adult fibroblasts. The methods include contacting adult fibroblasts with a reprogramming composition suitable for reprogramming the adult fibroblasts to iPSC, under conditions effective for the reprogramming composition to penetrate the adult fibroblasts, followed by culturing the contacted fibroblasts for a time period sufficient for the cells to be reprogrammed. The cultured cells are then sorted to select cells based upon their expression of the cell membrane surface markers CD13NEG SSEA4POS Tra-1-60POS. iPSC colonies are then identified from the sorted cells.