Abstract: 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.

Abstract: Provided is a device and a method for examining myocardial toxicity, which can be realized in vitro in an equivalent manner as those conventionally carried out in vivo. A cell population as a pulsating pacemaker is arranged on a transparent substrate. Myocardial pulsating cells are arranged while being spaced apart appropriately. Fibroblast cells are arranged with/connected to the myocardial pulsating cells to form a cell network. Each of the myocardial pulsating cells and fibroblast cells forming the network is arranged on a transparent electrode provided on the transparent substrate. The cells forming the network are exposed to a flow of a solution containing a drug and QT delay due to the drug is evaluated.

Abstract: One embodiment provides a liquid reflux reaction control device comprising: a reaction vessel having one or a plurality of wells configured to accommodate a sample; a heat exchange vessel provided in contact with the reaction vessel so as to conduct heat to the reaction vessel, and comprising an inlet and an outlet respectively for introducing and draining a liquid of a predetermined temperature; a plurality of liquid reservoir tanks provided with a temperature-controllable heat source for maintaining liquids of predetermined temperatures; a tubular flow channel that connects the inlet and the outlet of the heat exchange vessel with the liquid reservoir tanks; a pump disposed on the tubular flow channel, and configured to circulate the liquid between the heat exchange vessel and the liquid reservoir tank; and a switching valve disposed on the tubular flow channel, and configured to control the flow of the circulating liquid.

Abstract: A cell separation apparatus comprises a means for moving a cell within a cell separating space by applying an electrical voltage to cells in the cell separating space using gel electrodes, and channels for separating and discharging the cell, which thus does not damage a cell sample and prevents the exhaustion of an electrode due to its electrolysis.

Abstract: 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.

Abstract: 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.

Abstract: 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.

Abstract: 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.

Abstract: Provided is a cell concentration and purification device, having: a function of continuously concentrating cells; a function of then subsequently disposing the cells continuously in a specific region of a channel; a function of simultaneously recognizing, based on an image, the shape and fluorescence emission of each single cell; and a function of recognizing the cells and then separating and purifying the same based on the data relating to the shape and fluorescence emission thereof.

Abstract: A DNA inspecting apparatus including driving means for relatively changing positions of the multi-spot lights and a position of the DNA chip so as to detect the fluorescent lights in such a manner that a desired area on the DNA chip is irradiated with the multi-spot lights, and a control system for determining and inspecting DNA information about the to-be-inspected DNA chip from fluorescent light intensities and fluorescent light positions of the desired area on the DNA chip, the fluorescent light intensities and the fluorescent light positions being detected by the driving means and the fluorescent light detecting means.

Abstract: A cell sorting device using an inexpensive chip capable of being exchanged for each sample. The chip includes: a first flow path allowing buffer fluid containing cells to flow down; second and third flow paths which put the first flow path therebetween and allow buffer fluid not containing cells to flow down; a fourth flow path which allows the buffer fluid as a single flow path formed by joining the buffer fluids in the other three flow paths; a cell detecting region for detecting cells flowing with the buffer fluid down the fourth flow path; and a cell sorting region for sorting the cells according to a type of the cells detected. The first to fourth flow paths are cascaded, are supplied with the buffer fluid from reservoirs with the same fluid level, and have substantially the same width or cross-section area.

Abstract: 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 (3) is immobilized on the surface of a gate insulator of an electric field effect transistor and then hybridized with a target gene on the surface of the gate insulator. A change in the surface electric charge density thus arising is detected by using the electric effect.

Abstract: This invention relates to a method and apparatus for processing 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, the absorption layer having absorbency in visible and infrared regions, and the 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 the light source having a monochromatic light in the specific wave length, wherein the light source is disposed such that it irradiates on the absorption layer and/or the 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 the transparent base plate.

Abstract: The present invention provides an apparatus for evaluating a drug effect enabling on-chip evaluation of the effect of a drug while the drug is acting on hERG-expressing cells. The present invention also provides a myocardial toxicity test apparatus and method therefor enabling in vitro myocardial toxicity testing that has previously been performed in vivo. A pulsating cell population and hERG-expressing cells (target model cells) are suitably isolated and arranged on a transparent substrate so that the two form gap junctions. The hERG-expressing cells are arranged on transparent electrodes provided on the transparent substrate. The hERG-expressing cells are exposed to a flow of a liquid containing a drug such that the drug acts thereon. The difference between the normal pulsation of hERG-expressing cells and the pulsation when a drug is acting thereon is captured via electric signals obtained from electrodes, and the properties of the change in potential are evaluated.

Abstract: 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.

Abstract: The present invention provides a liquid reflux reaction control device comprising: a reaction vessel having one or a plurality of wells configured to accommodate a sample; a heat exchange vessel provided in contact with the reaction vessel so as to conduct heat to the reaction vessel, and comprising an inlet and an outlet respectively for introducing and draining a liquid of a predetermined temperature; a plurality of liquid reservoir tanks provided with a temperature-controllable heat source for maintaining liquids of predetermined temperatures; a tubular flow channel that connects the inlet and the outlet of the heat exchange vessel with the liquid reservoir tanks; a pump disposed on the tubular flow channel, and configured to circulate the liquid between the heat exchange vessel and the liquid reservoir tank; and a switching valve disposed on the tubular flow channel, and configured to control the flow of the circulating liquid, which controls the temperature of the reaction vessel to keep a desired tem

Abstract: [Problem] To provide a device and a method for examining myocardial toxicity, which can be realized in vitro in an equivalent manner as those conventionally carried out in vivo. [Means for Solving the Problem] A cell population as a pulsating pacemaker is arranged on a transparent substrate, and then myocardial pulsating cells are arranged while being spaced apart appropriately. An appropriate number of fibroblast cells are arranged with/connected to the myocardial pulsating cells to form a cell network. Each of the myocardial pulsating cells and fibroblast cells forming the network is arranged on a transparent electrode provided on the transparent substrate. This cell network can be optically observed. The cells forming the network are exposed to a flow of a solution containing a drug.

Abstract: 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.

Abstract: 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. The absorption layer has absorbency in visible and infrared regions, and the gel-like material is 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. The light source is monochromatic light in the specific wave length. The light source is disposed such that it irradiates on the absorption layer and/or 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 the transparent base plate.

Abstract: A conventional appliance monitoring apparatus handles only the amount of gas used and security information for the case of a gas cutoff and can not address social needs for a desire to obtain information about influence (e.g., an amount of CO2 emission) of use of the gas combustion appliance on a terrestrial environment. A CO2 emission calculation unit 4 calculates an amount of CO2 emission based on a gas appliance used by a client output from an appliance determination unit 2, a gas flow signal thereof, and CO2 emission data pertaining to the gas appliance stored in a CO2 emission data storage unit 3. Thus, it is possible to determine the amount of CO2 emission produced by using the gas appliance by the client.