The invention consists of methods and compositions for detecting the presence or absence of a DNA aberration by analyzing fluorescence emission characteristics in sperm cells or sperm nuclei, which generally consists of entraining sperm cells or sperm nuclei stained with a DNA selective dye in sheath fluid; exposing the entrained sperm cells or sperm nuclei to electromagnetic radiation; determining a forward fluorescence characteristic and a side fluorescence characteristic of individual events associated with the exposed sperm cells or sperm nuclei; and gating the individual events based on the forward fluorescence characteristic and the side fluorescence characteristic with a criterion.

The object of the present invention is to provide

(1) a cell sorter, (2) a flow cytometer capable of detecting sideward scattered light, (3) a method for accurately measuring cell concentration, (4) a method for multicolor staining analysis without a fluorescence correction, and the like, which satisfy requirements that carry-over and cross contamination of samples do not occur.

The object can be solved by an apparatus for separating particles comprising: a flow cell wherein a flow path is formed in a flat substrate, an illumination unit configured to illuminate the particles in a sample liquid flowing through the flow path, a detection unit configured to detect particles of interest by detecting scattered light or fluorescence from the particle when the particle is illuminated, and identifying the particle based on its signal intensity, a constant-pressure pump which applies a pressure pulse to the particles in the sample liquid flowing through the flow path in the flow cell, and an electromagnetic valve connected thereto, and
a control unit configured to control the movement of the electromagnetic valve based on the signal from the detection unit.

There is provided a connecting member to be attached to a substrate that includes at least a sample introduction section to introduce a sample, a sheath liquid introduction section to introduce a sheath liquid, and a jetting section to jet droplets, the connecting member including at least: a sample introduction linking section to be linked to the sample introduction section; a sheath liquid introduction linking section to be linked to the sheath liquid introduction section; and a charging electrode section that provides charges to at least part of the droplets. The sample introduction linking section and the sheath liquid introduction linking section are positioned so as to be linked to corresponding positions of the substrate.

An apparatus for microfluidic flow cytometry analysis of a particulate containing fluid An apparatus for microfluidic flow cytometry analysis of a particulate containing fluid comprises a hydrodynamic focussing apparatus for providing a focused stream of particulate containing fluid; and a microfluidic chip. The chip has a plurality of layers and comprises a microfluidic channel that extends through the chip substantially orthogonal to a plane of the layers of the chip, and is in fluid communication with the hydrodynamic focusing apparatus for receipt of a focused steam of particulate containing fluid. The chip also comprises a detection zone comprising at least one pair of electrodes in electrical communication with the microfluidic channel. At least one pair of electrodes comprise an excitation electrode coupled to an AC signal source and a detection electrode configured to detect AC impedance changes in the microfluidic channel between the electrodes resulting from particles passing between the electrodes in the microfluidic channel. Methods of sorting mammalian sperm cells according to sex is also described.

Disclosed herein include systems, devices, methods, and spillover editor for displaying and editing spillover values. A view of a spillover editor can comprise a triangular grid of rows and columns, representing flourophores, each comprising at least one display area and two spillover values. After receiving an adjusted spillover value, an adjusted view of the spillover editor can comprise adjusted plots determined using the adjusted spillover value.

A single disposable cartridge for performing a process on a particle, such as particle sorting, encapsulates all fluid contact surfaces in the cartridge for use with microfluidic particle processing technology. The cartridge interfaces with an operating system for effecting particle processing. The encapsulation of the fluid contact surfaces insures, improves or promotes operator isolation and/or product isolation. The cartridge may employ any suitable technique for processing particles.

The invention provides a carrier and a method for obtaining, removing, or detecting extracellular membrane vesicle or virus present in a sample. In particular, the invention provides (a) a carrier (a Tim carrier) on which a protein (a Tim protein), selected from a T-cell immunoglobulin and mucin domain-containing molecule-4 (a Tim-4) protein, a Tim-3 protein, and a Tim-1 protein, is bound; (b) a method for obtaining the extracellular membrane vesicle or the virus in the sample; (c) a method for removing the extracellular membrane vesicle or the virus in the sample; (d) a method for detecting the extracellular membrane vesicle or the virus in the sample; (e) a kit for capturing the extracellular membrane vesicle or the virus, comprising the Tim carrier; and f) a kit for capturing the extracellular membrane vesicle or the virus, comprising a reagent containing the Tim protein and a reagent containing the carrier.

A cell capture system including an array, an inlet manifold, and an outlet manifold. The array includes a plurality of parallel pores, each pore including a chamber and a pore channel, an inlet channel fluidly connected to the chambers of the pores; an outlet channel fluidly connected to the pore channels of the pores. The inlet manifold is fluidly connected to the inlet channel, and the outlet channel is fluidly connected to the outlet channel. A cell removal tool is also disclosed, wherein the cell removal tool is configured to remove a captured cell from a pore chamber.

Systems and methods are provided herein for facilitating the scheduling and controlling the presentation of media content at one or more Venues (e.g., bars, restaurants). The scheduling and presentation is coordinated by a distributed system including a scheduling management server and a local subsystem at the Venue. The system is also configured to receive information from remote devices including electronic media guides as well as user devices enabling venue managers or the public to interact with the system. The system is configured to maintain a content presentation schedule and coordinate presentation at a Venue based on parameters obtained from remote devices including: the requirements of the Venue, requests from Patrons, programming available for presentation and the availability of resources at the venue (e.g., televisions). Moreover, the exemplary system is configured to implement/execute the schedule in view of the specific technological systems and requirements of the Venue's particular media presentation systems.

Embodiments herein include a scanning apparatus for detecting target particles present within a ferrofluid, where the scanning apparatus can be used in a microfluidic system. The methods and structures described herein also include, for example, a scanning device comprising an optical system, a first magnet disposed on a first side of the optical system, where the first magnet can be non-rotatable, a second magnet disposed on a second side of the optical system, opposite the first magnet, where the second magnet can be rotatable, and a lever arm coupled to the second magnet, where the lever is capable of rotating the second magnet.