Abstract: Stepped portions of a flow channel are reduced by completely fixing the channel that extends to the measuring unit, and reducing connections in the channel, thereby to suppress a disturbance in the flow of the liquid suctioned into the measuring unit. A means is provided so that the reaction solution and reagent suctioned will move towards the channel through which the liquids are suctioned.

Abstract: A system for conducting the identification and quantification of micro-organisms, e.g., bacteria in urine samples which includes: 1) several disposable cartridges for holding four disposable components including a centrifuge tube, a pipette tip having a 1 ml volume, a second pipette tip having a 0.5 ml volume, and an optical cup or cuvette; 2) a sample processor for receiving the disposable cartridges and processing the urine samples including transferring the processed urine sample to the optical cups; and 3) an optical analyzer for receiving the disposable cartridges and configured to analyze the type and quantity of micro-organisms in the urine sample. The disposable cartridges with their components including the optical cups or cuvettes are used in the sample processor, and the optical cups or cuvettes containing the processed urine samples are used in the optical analyzer for identifying and quantifying the type of micro-organism existing in the processed urine samples.

Abstract: An SOx gas sensor includes a first solid electrolyte member composing a part of a wall of a gas reduction chamber and provided with a first gas introducing hole for introducing sample gas into the gas reduction chamber, an oxidation part for oxidizing noise gas other than the SOx gas in the sample gas, and a reduction mechanism for reducing the SOx gas in the sample gas, in the gas reduction chamber; a communication unit provided with a second gas introducing hole for introducing the sample gas into a gas measurement chamber from the gas reduction chamber; and a second solid electrolyte member composing a part of a wall of the gas measurement chamber and provided with an oxidation mechanism for oxidizing the SOx gas, and a measurement mechanism for measuring the concentration of the SOx gas, in the gas measurement chamber.

Abstract: A total nitrogen measurement apparatus comprising an ultraviolet lamp comprising: a light emission section and a holding section for holding the light emission section, the holding section being formed of a material not including iron; a reaction vessel having a space where the light emission section is to be inserted and a sample water is to be contained around the light emission section for converting nitrogen compounds in the sample water contained in the reaction vessel into nitrate ions by oxidative decomposition using ultraviolet rays from the light emission section; and a measurement section configured to perform absorbance measurement on the sample water including the nitrate ions.

Abstract: A sample analyzer transports a first rack and a second rack, the first rack including a first number of supporters for supporting containers that contain biological samples of subjects, and the second rack including a second number of supporters for supporting containers that contain standard samples. The sample analyzer determines whether a transport object is the first rack or the second rack. When it has been determined that the transport object is the second rack, the sample analyzer performs a transporting operation according to the second rack and measure the standard samples in the containers supported by the second rack in a predetermined order, and prepares a calibration curve used for analyzing a measurement result of a biological sample, based on a plurality of measurement results of the standard samples.

Abstract: An apparatus for applying a free-flowing substance including a single piece pipetting tube is manufactured from plastic. The pipetting tube has an exit orifice-leading to the environment at one end and is closed at the other end. An application device proximal the exit orifice can be wetted with the free-flowing substance.

Abstract: A sampling device for a specimen container having a closure sealing the interior of the specimen container from the environment includes a needle, a body coupled to the needle and defining a chamber in fluid communication with the needle, the body further comprising a port forming an opening in the body, the port in fluid communication with the chamber. A multitude of the sampling devices may be stored in a cassette. The sampling devices may include a second chamber for separation and concentration of a microbial agent present in a sample. In this configuration second chamber is connected to the first chamber via a valve or the like.

Abstract: A color-appearing ink composition includes a surfactant blend of at least two non-ionic surfactants having hydrophilic-lipophilic balance values greater than 10, or a non-ionic surfactant having a hydrophilic-lipophilic balance value greater than 10 and a charged surfactant. The composition includes one or more water-insoluble leuco dyes, a developer and a desensitizer. The composition may be applied to a substrate to form a sensor.

Abstract: A system and apparatuses or devices capable of automatically performing processes of cell treatment preparatory to flow cytometry and similar cytological studies in a fully automated and streamlined manner are provided. The system and apparatuses or devices are adapted for preparation and (pre)processing of cell samples, e.g., blood and/or bone marrow samples.

Abstract: A biochip well is disclosed, including a vessel containing a well therewithin, the vessel forming at least base and side walls of the well and defining at least one aperture giving access to the well, and further including retaining means for holding a biochip at a predetermined position within the well, the well including a laterally offset region into which the biochip does not protrude when held at the predetermined position by the retaining means. Also disclosed are sealed well assemblies and apparatus and methods for opening sealed wells.

Abstract: A process for realizing a device (1) for collecting and transferring samples for molecular biology, the device including at least: a support body (2) having at least a first portion (2a), and a plurality of fibers (6) attached and arranged on the first portion (2a) of the support body (2) by flocking, such as to define a flocked collecting portion (3) destined to collect, on the said collecting portion, (3) a quantity of the sample for molecular biology, the process including at least a step of pre-treating the plurality of fibers (6) with a surfactant, the step of pre-treating the plurality of fibers (6) with a surfactant being performed after application of the fibers on the support body (2) by flocking and/or before application of the fibers (6) on the body (2) by flocking and/or wherein the surfactant is added to the fiber (6) during production of the fiber (6).

Abstract: An automatic analyzer of the present invention includes: a cap opening and closing mechanism including a plurality of types of support bodies, each being adaptable to a specific type of cap; an information control mechanism for sample containers; a cap opening and closing mechanism that performs uncapping and capping operations based on a sample container identifying process; and an uncapping/capping monitoring mechanism that determines an uncapping or capping operation. The cap opening and closing mechanism is thus configured so as to be capable of performing the uncapping and capping processes for different types of caps. This provides a cap opening and closing mechanism that enables the single cap opening and closing mechanism to perform the uncapping process and the capping process for different types of caps on a transfer path of sample containers in the automatic analyzer.

Abstract: An automatic analyzer comprises selection means for selecting whether a preparatory operation, specified from a plurality of analysis preparation processes of the automatic analyzer, should be executed in an initial process at the powering on of the analyzer or after the start of the actual analysis (i.e., in parallel with the sample analysis operation). For example, the automatic analyzer is equipped with means which allows the analyzer to execute a “system liquid replacement operation”, a “sample nozzle pressure sensor checking operation”, a “reaction vessel discarding operation” and a “pre-cleaning liquid replacement operation” which among various operations that are executed in the preparation process in conventional immunological analyzing apparatus in processes other than the preparation process.

Abstract: Apparatuses for analyzing total carbon and chemical oxygen demand in a sample are disclosed. Also disclosed is a method for analyzing carbon and chemical oxygen demand.

Abstract: Provided is a liquid handling device for use in a liquid handling system including a plurality of the liquid handling devices assembled in side-by-side relationship at a center-to-center spacing of X. The device includes a barrel, plunger, motive device and electronics assembled together in an envelope having a front portion including at least the barrel and plunger, and a rear portion including at least a portion of the electronics. The rear portion has a thickness greater than X but no greater than 2X, and the front portion has a thickness no greater than X and is laterally offset relative to a center plane of the envelope, whereby the liquid handling device can be assembled with another reversely oriented liquid handling device at a center-to-center spacing of X and a total combined width no greater than 2X.

Abstract: This invention provides a sample processing system in which only one sample container is rested in one holder, the system being contemplated to prevent a mix-up of samples from occurring. A barcode labeler module 13 includes an identifier-reading device R1 that reads an identifier of a holder holding a primary-sample container, a printer 13B that prints a label based on information from a control PC unit 21 as well as on the identifier of the primary-sample container holder that has been read by the identifier-reading device R1, and affixes the label to a secondary-sample container, and a second identifier-reading device R2 that reads an identifier of the holder having the secondary-sample container mounted therein.

Abstract: The invention describes simple and reliable cartridge constructions for carrying out analytical procedures in a closed system, especially for carrying out bioaffinity analyses. The cartridge exploits a measuring component, or a test strip (1 in FIG. 1) and its cover (2 in FIG. 1) as well as the motion between these two components to achieve liquid flow and events which are necessary for the analysis.

Abstract: The invention provides an integrated sequential sample preparation system using a sequential centrifuge for preparing samples for analysis. Methods of more efficiently preparing discrete samples sequentially for subsequent analysis are also provided. The apparatus and methods for sequentially preparing discrete samples provide improved operating efficiencies over conventional preparation processes that use batch centrifugation systems. Such advantages include reducing dwell time, increasing system throughput, reducing sample preparation system footprint, and improving precision of the analytical process. The integrated sequential preparation system with the integrated sequential centrifuge further provides the capability of handling critical or STAT samples without compromising the operating efficiencies achieved by preparing discrete samples in a sequential manner.

Abstract: An automated sample tube decanting system having one or more decanting grippers, a decant waste receptacle, a transporter, and means for rotating the decanting gripper. Each decanting gripper has a respective holder configured to selectively mate with a respective interface on a tube strip. The one or more decanting grippers are rotatable between a first position in which the tube strip is upright and a second position in which the tube strip is inverted. The transporter is configured to move the one or more decanting grippers in a lateral direction from a starting location to a location above the decant waste receptacle.

Abstract: An automatic analyzer includes: first reagent storing means for storing a plurality of the reagent containers; second reagent storing means for storing a replacement reagent container in addition to the first reagent storing means; transfer means for transferring the reagent container from the second reagent storing means to the first reagent means; and a storing portion for storing the reagent container discharged from the second reagent storing means. The automatic analyzer includes control means for exercising control such that the information write means writes reagent information on the information recording medium immediately before the reagent container is transferred from the second reagent storing means to the first reagent storing means or immediately before the reagent container is discharged from the second reagent storing means to the storing portion.