Patent application number | Description | Published |
20110102792 | ANALYZER AND PARTICLE IMAGING METHOD - An analyzer comprises: a sample stream forming section for forming a sample stream including particles; a light source; an optical fiber bundle formed by a plurality of optical fibers, into which light from the light source enters, and which emits light onto the sample stream; and an imaging device for imaging a particle in the irradiated sample stream. | 05-05-2011 |
20110104744 | CELL ANALYZING APPARATUS AND CELL ANALYZING METHOD - A cell analyzing apparatus, comprising: a parameter obtaining section for obtaining a characteristic parameter from a cell in a measurement sample; an imaging section for capturing an image of the cell in the measurement sample; an analyzing section for counting a cell in which the characteristic parameter meets a predetermined requirement among the cells in the measurement sample as a counting target and generating output data based on a counting result; a display section for displaying an image of the cell meeting the predetermined requirement and the output data; and an input section for receiving an instruction to specify the image displayed on the display section, wherein the analyzing section excludes a cell relevant to the specified image from the counting target and regenerates the output data is disclosed. A cell analyzing method is also disclosed. | 05-05-2011 |
20110127444 | PARTICLE ANALYZING APPARATUS AND PARTICLE IMAGING METHOD - A particle analyzing apparatus, comprising: a flow cell which forms a specimen flow including particles; first and second light sources; an irradiation optical system which applies lights emitted from the first and second light sources so that the lights are applied to the specimen flow; a detector which detects forward scattered light, the forward scattered light being emitted from the first light and scattered by the particle in the specimen flow, and generates a signal according to the detected scattered light; a light blocking member disposed between the flow cell and the detector; a controller which obtains characteristic parameters of the particle based on the signal from the detector; and an imaging device which captures an image of the particle in the specimen flow using the light from the second light source is disclosed. Particle imaging method is also disclosed. | 06-02-2011 |
20130316444 | APPARATUS FOR ANALYZING PARTICLES IN URINE AND METHOD THEREOF - An apparatus, intended for use in analyzing particles in urine is disclosed, that comprising: a sample distribution section for distributing urine samples to a first aliquot and a second aliquot; a first specimen preparing section for preparing a first specimen for measuring urinary particles, containing at least erythrocytes, by mixing a first stain reagent and the first aliquot; a second specimen preparing section for preparing a second specimen for measuring bacteria by mixing a second stain reagent and the second aliquot; and an optical detecting section comprising a light source for irradiating a light to a specimen being supplied, a scattered light receiving element for detecting scattered light emitted from the specimen, and a fluorescence receiving element for detecting fluorescence emitted from the specimen. A method intended for use in analyzing particles in urine is also disclosed. | 11-28-2013 |
20150060647 | URINE SAMPLE ANALYZING METHOD AND SAMPLE ANALYZER - Disclosed is a urine sample analyzing method comprising: flowing a measurement specimen prepared by mixing a urine sample and reagent through a flow cell; irradiating epithelial cells in the measurement specimen flowing through the flow cell with linearly polarized light and thereby producing scattered light; detecting a change of polarization condition of the scattered light produced by each of the epithelial cells; and classifying the epithelial cells into at least two types based on the change of polarization condition. | 03-05-2015 |
20150064742 | SAMPLE ANALYZING METHOD AND SAMPLE ANALYZER - Disclosed is a sample analyzing method comprising: flowing a measurement specimen prepared by mixing a sample and reagent through a flow cell; irradiating particles in the measurement specimen flowing through the flow cell with linearly polarized light and thereby producing scattered light; detecting a change of polarization condition of the scattered light produced by the particles; and discriminating erythrocytes from crystals in the measurement specimen based on the change of polarization condition. | 03-05-2015 |
20150118706 | URINE SAMPLE ANALYZER AND URINE SAMPLE ANALYZING METHOD - Disclosed is a urine sample analyzer for analyzing particles contained in a urine sample and outputting analytical results. The analyzer includes a flow cell that accepts a measurement specimen, the measurement specimen comprising a urine sample mixed with a reagent, a light irradiation unit positioned to irradiate the flowing measurement specimen with light, a light detector that detects light from individual particles in the flowing measurement specimen, and a data processor that receives signal from the light detector, processes the signal to obtain parameter information corresponding to a length of a cell cluster, and classifies fungi in the measurement specimen into groups by using the parameter information. | 04-30-2015 |
20150247802 | SAMPLE ANALYZER AND SAMPLE ANALYZING METHOD - Disclosed is a sample analyzer which comprises: a sample preparing section configured to prepare a measurement sample by mixing a sample and a nucleic acid staining reagent; an optical detector configured to irradiate light on cells contained in the measurement sample, receive fluorescent light given off by the irradiated cells, and output fluorescent light signals; a signal processing section which obtains fluorescent light intensity and fluorescence pulse area of the cells from the fluorescent light signals output by the optical detector; and an information processing section configured to detect white blood cells contained in the measurement sample based on the fluorescence pulse area, and detect bacteria contained in the measurement sample based on the fluorescent light intensity. | 09-03-2015 |