Patent application number | Description | Published |
20090042200 | CELLOMICS SYSTEM - In labeling a cell, and separating and collecting the cell according to a degree of the labeling using a cell separator, effects on the cell is minimized and the use of the collected cell is facilitated, thereby, when labeling a cell, the cell is labeled in the state where interaction of each cell is retained. In the labeling, a specific labeling material present on a surface of a target cell is taken in the cell via a transporter, and the cell is dispersed one by one to separate the same with a cell separator. Immediately after the separation, the cell is put in a solution not containing the specific labeling substance to remove the specific labeling substance taken in the cell. This series of steps is continuously conducted with a cell separation chip. | 02-12-2009 |
20090042739 | CELLOMICS SYSTEM - In labeling a cell, and separating and collecting the cell according to a degree of the labeling using a cell separator, effects on the cell is minimized and the use of the collected cell is facilitated, thereby, when labeling a cell, the cell is labeled in the state where interaction of each cell is retained. In the labeling, a specific labeling material present on a surface of a target cell is taken in the cell via a transporter, and the cell is dispersed one by one to separate the same with a cell separator. Immediately after the separation, the cell is put in a solution not containing the specific labeling substance to remove the specific labeling substance taken in the cell. This series of steps is continuously conducted with a cell separation chip. | 02-12-2009 |
20090325215 | CELLOMICS SYSTEM - In labeling a cell, and separating and collecting the cell according to a degree of the labeling using a cell separator, effects on the cell is minimized and the use of the collected cell is facilitated, thereby, when labeling a cell, the cell is labeled in the state where interaction of each cell is retained. In the labeling, a specific labeling material present on a surface of a target cell is taken in the cell via a transporter, and the cell is dispersed one by one to separate the same with a cell separator. Immediately after the separation, the cell is put in a solution not containing the specific labeling substance to remove the specific labeling substance taken in the cell. This series of steps is continuously conducted with a cell separation chip. | 12-31-2009 |
20100016568 | CELLOMICS SYSTEM - In labeling a cell, and separating and collecting the cell according to a degree of the labeling using a cell separator, effects on the cell is minimized and the use of the collected cell is facilitated, thereby, when labeling a cell, the cell is labeled in the state where interaction of each cell is retained. In the labeling, a specific labeling material present on a surface of a target cell is taken in the cell via a transporter, and the cell is dispersed one by one to separate the same with a cell separator. Immediately after the separation, the cell is put in a solution not containing the specific labeling substance to remove the specific labeling substance taken in the cell. This series of steps is continuously conducted with a cell separation chip. | 01-21-2010 |
20100016569 | CELLOMICS SYSTEM - In labeling a cell, and separating and collecting the cell according to a degree of the labeling using a cell separator, effects on the cell is minimized and the use of the collected cell is facilitated, thereby, when labeling a cell, the cell is labeled in the state where interaction of each cell is retained. In the labeling, a specific labeling material present on a surface of a target cell is taken in the cell via a transporter, and the cell is dispersed one by one to separate the same with a cell separator. Immediately after the separation, the cell is put in a solution not containing the specific labeling substance to remove the specific labeling substance taken in the cell. This series of steps is continuously conducted with a cell separation chip. | 01-21-2010 |
20100018862 | CELLOMICS SYSTEM - In labeling a cell, and separating and collecting the cell according to a degree of the labeling using a cell separator, effects on the cell is minimized and the use of the collected cell is facilitated, thereby, when labeling a cell, the cell is labeled in the state where interaction of each cell is retained. In the labeling, a specific labeling material present on a surface of a target cell is taken in the cell via a transporter, and the cell is dispersed one by one to separate the same with a cell separator. Immediately after the separation, the cell is put in a solution not containing the specific labeling substance to remove the specific labeling substance taken in the cell. This series of steps is continuously conducted with a cell separation chip. | 01-28-2010 |
20100021933 | CELLOMICS SYSTEMS - In labeling a cell, and separating and collecting the cell according to a degree of the labeling using a cell separator, effects on the cell is minimized and the use of the collected cell is facilitated, thereby, when labeling a cell, the cell is labeled in the state where interaction of each cell is retained. In the labeling, a specific labeling material present on a surface of a target cell is taken in the cell via a transporter, and the cell is dispersed one by one to separate the same with a cell separator. Immediately after the separation, the cell is put in a solution not containing the specific labeling substance to remove the specific labeling substance taken in the cell. This series of steps is continuously conducted with a cell separation chip. | 01-28-2010 |
20100178682 | FLOW CYTOMETER HAVING CELL-SORTING FUNCTION AND METHOD OF SEPARATING LIVING CELLS - A liquid sample flow containing living cells is irradiated with measurement laser light and the photo data of at least either scattering light or fluorescence that is generated by each of the living cells in the liquid sample flow due to the irradiation with the measurement laser light is acquired. Based on the photo data thus acquired, it is determined whether each of the cells assignable to the respective photo data is an unnecessary living cell or a target living cell. Based on the determination results, a pulse voltage is then applied exclusively to the living cells having been determined as unnecessary living cells so that the unnecessary living cells are damaged and killed. | 07-15-2010 |
20110212522 | MICRO-CHAMBER PROCESSING APPARATUS FOR CELL CULTURE AND METHOD - This invention relates to a method and apparatus for process cell cultures. The apparatus comprises a micro-chamber comprising no more than one absorption layer and at least one gel layer, in this order, laminated on a transparent base plate having no conspicuous absorbency in visible and infrared regions, and at least one light source, said absorption layer having absorbency in visible and infrared regions, and said gel-like material being a substance which has a gel dissolution temperature of 100 degree C. or less, solates when heated and is in a gel state at room temperature and has absorbency for a specific wave length of visible and infrared regions, and said light source having a monochromatic light in said specific wave length, wherein said light source is disposed such that it irradiates on said absorption layer and/or said gel layer, with the exception that when no absorption layer is provided, at least two layers each composed of a gel-like material are laminated on said transparent base plate. | 09-01-2011 |
20120077262 | LIQUID REFLUX HIGH-SPEED GENE AMPLIFICATION DEVICE - The present invention provides a liquid reflux reaction control device comprising:
| 03-29-2012 |
20120088295 | DEVICE FOR CONCENTRATING AND SEPARATING CELLS - Provided is a device for concentrating and separating cells, which has a function for continuously concentrating cells; a function for then continuously arranging the concentrated cells in predetermined regions of a flow path; a function for simultaneously identifying shape and fluorescent emission in one-cell units on the basis of cell concentration and purification images, which serve to continuously separate and purify cells that have different properties in that they are either attracted to or repelled by an induction electrophoresis force of a predetermined frequency; and a function for identifying cells on the basis of this shape and fluorescent emission information and thereby separating and purifying the cells. | 04-12-2012 |
20120283119 | POTENTIOMETRIC DNA MICROARRAY, PROCESS FOR PRODUCING THE SAME AND METHOD OF ANALYZING NUCLEIC ACID - A DNA microarray system whereby measurement can be performed at a low running cost, a low price and yet a high accuracy. A nucleic acid probe ( | 11-08-2012 |
20130230881 | METHOD AND APPARATUS FOR TESTING CARDIOTOXICITY AND EVALUATING CARDIOMYOCYTES - In the present invention, a cardiomyocyte cluster is disposed on a transparent substrate, and the quality of the cardiomyocytes is evaluated from the response of the cells to a forced pulsation stimulus applied to the cardiomyocytes. The cardiomyocyte cluster is disposed on the transparent substrate, and is exposed to the flow of a liquid containing an agent in a manner so that the agent acts on the cells, which configure a network. The extent of cardiac toxicity resulting from the agent is evaluated from measuring the fluctuations obtained from a comparison of adjacent cardiomyocytes of the network. | 09-05-2013 |
20130252848 | CELLOMICS SYSTEM - In labeling a cell, and separating and collecting the cell according to a degree of the labeling using a cell separator, effects on the cell is minimized and the use of the collected cell is facilitated, thereby, when labeling a cell, the cell is labeled in the state where interaction of each cell is retained. In the labeling, a specific labeling material present on a surface of a target cell is taken in the cell via a transporter, and the cell is dispersed one by one to separate the same with a cell separator. Immediately after the separation, the cell is put in a solution not containing the specific labeling substance to remove the specific labeling substance taken in the cell. This series of steps is continuously conducted with a cell separation chip. | 09-26-2013 |
20130314526 | CELL ANALYSIS DEVICE - Provided is a cell concentration/purification device having a function of successively locating cells in a specific area of a microchannel, and a function of sequentially capturing cell images by use of light from a plurality of monochromatic light sources on an image basis, and performing comparative analysis of the cell images to recognize individual cells based on information on the shape of the cells and an absorption spectral distribution of the cells or inside of the cells, thereby selectively separating/purifying the cells. | 11-28-2013 |
20140248690 | LIQUID REFLUX HIGH-SPEED GENE AMPLIFICATION DEVICE - One embodiment provides a liquid reflux reaction control device comprising:
| 09-04-2014 |
20140349332 | METHOD AND DEVICE FOR EXAMINING MYOCARDIAL TOXICITY AND EVALUATING CARDIOMYOCYTE - A method wherein a mass of cardiomyocytes is disposed on a transparent substrate and the quality of the cardiomyocytes is evaluated from the response of the cardiomyocytes to a forced pulsation stimulus that is applied to the pulsating cardiomyocytes. The mass of cardiomyocytes, which is disposed on the transparent substrate, is exposed to the flow of a drug-containing liquid in such a manner as to allow the drug to act on cells configuring a network. The level of cardiotoxicity caused by the drug is evaluated by measuring the fluctuations obtained from a comparison of adjacent pulsating cardiomyocytes of the network. | 11-27-2014 |
20140370492 | LIQUID REFLUX HIGH-SPEED GENE AMPLIFICATION DEVICE - The present invention provides a liquid reflux reaction control device including an additional mechanism that allows more stable temperature control, a pre-treatment mechanism that performs pre-treatment including a pre-PCR reaction reverse transcription reaction process that allows RNA detection, a melting curve analysis function, chip technology optimal for holding liquid droplets and optical measurement and the optical measurement function for PCR, and a temperature gradient control mechanism using a quantitative infrared light irradiation/absorption control technique. | 12-18-2014 |
20150079598 | HIGH SPEED GENE AMPLIFICATION DETECTION DEVICE - The present invention provides a high-speed gene amplification device including an additional mechanism that allows more stable temperature control, a pre-treatment mechanism that performs pre-treatment including a pre-PCR reaction reverse transcription reaction process that allows RNA detection, a melting curve analysis function, chip technology optimal for holding liquid droplets and performing optical measurements and an optical measurement function for a PCR reaction. | 03-19-2015 |