Abstract: A blood testing apparatus includes a loader configured to receive a test medium, the test medium including a test object to be tested; a controller configured to perform control to operate the loader to receive the test medium in response to receiving an input of a trigger signal indicating a test start in an emergency mode; a display configured to display a user interface screen indicating the emergency mode; and an analyzer configured to automatically start analysis of the test object under the control of the controller when the test medium is received.

Abstract: A tube rack transfer device for transferring racks is presented. A first rail extends in a first horizontal direction and a second rail extends in a second horizontal direction orthogonal to the first direction. The second rail moves along the first rail and comprising a transfer head movable along the second rail. The transfer head comprises a control pin to be coupled with one of: an input pusher, translatable in the second direction, for transferring a rack from a carrier to a sampling area of an analyzer; an output pusher for transferring a rack from the sampling area to a carrier; a rack for transferring the rack between different carriers and/or between different positions of the same carrier. An in-vitro diagnostic instrument comprises an analyzer for carrying out tests on biological samples, a sample unit for inputting/outputting racks, a sampling area for withdrawing samples from tubes, and a transfer device.

Abstract: An automatic device for inoculating a sample on a substrate with a dilution mechanism formed by a head that holds a stylus in cooperation with a first dilution tank and a second dilution tank to dilute an original sample in at least one sub-sample and for inoculating the sub-sample on a substrate.

Abstract: Disclosed herein are methods of producing a test element for studying a body fluid sample. In the methods, a detection layer is covered with a polymeric spreading layer and applied to a support. The spreading layer can be produced by being sprayed onto the detection layer such that the spreading layer has a thickness of at most about 20 ?m. Also disclosed are test elements produced by the methods, as well as tape cassettes incorporating such test elements.

Abstract: A method is described for adjusting the brightness of at least one LED according to a changing supply voltage provided to the at least one LED includes acquiring a parameter which indicates the changing supply voltage; and providing, on the basis of the acquired parameter, a control voltage of the at least one LED for adjusting an LED current such that the at least one LED has a predefined relative brightness change over the predefined voltage range. A control unit and an LED lamp which implement the method described here are also discloses. Furthermore, an LED lighting apparatus and a medical diagnostic device having the LED lamp disclosed here are described.

Abstract: An automatic analyzer achieves both restraining unnecessary usage of a consumable supply and reducing burdens on an operator in a re-execution processing in a case where pipe functions are suspended/stopped, and is capable of completely efficiently performing an analysis preparation processing or an analysis terminating processing.

Abstract: A diluted cleaning solution is contacted with the inner wall surface of an immunity measuring cell every time an immunity measurement treatment of a specimen is performed. Therefore, a diluting liquid is injected in advance, then a cleaning solution is injected, whereby a diluted cleaning solution is produced in the immunity measuring cell. As a result, the inner wall surface of the immunity measuring cell is maintained in a preferable state and the interval of the routine cleanings can be prolonged.

Abstract: The invention relates generally to the field of automated collection and deposition of fluid, semi-solid, and solid samples of biological or chemical materials. More specifically, the invention relates to the field of microarrayers, which are devices for autonomously depositing minute droplets of biological or chemical fluid samples in ordered arrays onto substrates. The invention also relates to tissue arrayers, which are devices for the collection and deposition of solid and semi-solid tissue samples in ordered arrays. Other aspects of the invention relate to fluidics robots, which are devices for the autonomous collection, dispensing and processing of biological or chemical fluid samples. The invention improves the throughput of microarrayers, tissue arrayers, and fluidics robots by providing methods and apparatuses to precisely and repeatably load supplies into the machines.

Abstract: In a low temperature hydrogen peroxide gas plasma sterilizer, the accurate control of concentration of the hydrogen peroxide sterilant is an important factor in determining reliability and sterilization efficacy of the sterilization process. The present application describes sterilizers, and sterilization methods, which use a novel injector-concentrator arrangement which allows accurate concentration of the sterilant performed concurrently with the sterilization process. This process enables the device to sterilize wide range of sensitive equipment within a shorter sterilization cycle.

Abstract: The invention relates inter alia to an automated stainer for staining, in particular for hemalum-eosin (HE) staining, of a histological sample, the automated stainer exposing the sample to the action of at least one stain using at least one staining parameter. The automated stainer is notable for the fact that the automated stainer comprises an input means with which a staining parameter is definable, in particular is inputtable or is selectable from a plurality of possible staining parameters; and that a control apparatus is present which, upon application of the defined staining parameter, ascertains the prospectively expectable outcome of an action and displays it to the user with a display apparatus, before the automated stainer actually stains the sample.

Abstract: A specimen processing system comprising: a specimen measuring section for measuring specimens accommodated in specimen containers; a transport section for transporting specimen containers to the specimen measuring section; a specimen container collect section for collecting specimen containers; an obtainer for obtaining shape information on specimen containers or state information on specimens accommodated in specimen containers; a supply judger configured for determining whether specimen containers are to be supplied to the specimen measuring section on the basis of the result obtained by the obtainer; and a delivery section for delivering specimen containers, which are determined to be supplied to the specimen measuring section by the supply judger, toward the transport section, and delivering specimen containers, which are determined not to be supplied to the specimen measuring section by the supply judger, toward the specimen container collect section, is disclosed.

Abstract: A sample processing apparatus for performing a process including a plurality of steps on a sample, the sample processing apparatus sequentially processing a plurality of samples, is disclosed. The apparatus comprises a plurality of units corresponding to the respective steps in the process; a transfer section which transfers a sample to the units according to a flow of the steps; and a controller. Specifically, when an operation was not performed successfully, the controller interrupts the process for a sample that had not reached the location where the unsuccessful operation was performed while continuing the process for a sample that had already passed the location, retries the operation that was not performed successfully, and resumes the interrupted process when the retried operation has been performed successfully.

Abstract: A sample processing apparatus comprising: a plurality of testing units arranged along a transport path and each configured to perform at least one type of test; a plurality of transport units configured to collectively constitute the transport path and collectively function to deliver samples to the plurality of testing units for testing; and at least one processor of a computer system and at least one memory that stores programs executable by the at least one processor to: (a) determine a type of test required to be performed on a sample; (b) if a trouble of a transport unit is reported, determine whether there is an available testing unit performable of the required type of test to which the sample is deliverable; (c) if there is the available testing unit, instruct to transport the sample to the available testing unit.

Abstract: The invention relates to a measurement system MS1 provided with a plurality of loading units 10 into which a measurement tool 4 supporting a reagent is loaded. The measurement system MS1 includes reading means 2 for reading information on an analyte provider that includes identification information, and guidance means 11 for guiding the measurement tool 4 to which an analyte derived from the analyte provider has been or is to be applied, to a loading unit that is selected from the plurality of loading units 10 and individually associated with the analyte provider based on the identification information that has been read by the reading means 2. With such configuration, the measurement results obtained from the analyte derived from the analyte provider can be easily associated with the information on the analyte provider that includes the identification information.

Abstract: Provided is an automatic analyzer that includes a suction nozzle, a detection container, and a detector. The suction nozzle suctions a sample and a solution used for the detection of the sample. The suctioned sample and the solution are supplied to the detection container. The detector detects a signal from the sample. In addition, a vessel for the sample and a container for the solution are disposed below the detection container.

Abstract: A generation device and the like for generating long-life antibody chips which can be produced and held in stock is a generation device and the like for generating an antibody chip by binding antibody to a cup, including an antibody solution holder that holds antibody solution having antibody, a buffer solution holder that holds buffer solution, and an injector that injects solution into the cup. The injector has an inlet out of which solution is injected. The injector injects the buffer solution held by the buffer solution holder. The injector injects the antibody solution held by the antibody solution holder with the inlet in the buffer solution in the cup.

Abstract: A sample analyzing system comprising: a first sample analyzer including a first measurement unit for measuring a sample and a first control unit for controlling the first measurement unit; and a second sample analyzer including a second measurement unit for measuring the sample and a second control unit for controlling the second measurement unit; wherein the first control unit is configured to transmit an activation signal for activating the second sample analyzer when a predetermined condition is met for the first sample analyzer; and the second control unit is configured to activate the second sample analyzer when the activation signal is received.

Abstract: There is provided a comprehensive accuracy management method attained by including the steps of: displaying operation event information in time series in an accuracy management result chart or a calibration result chart on the same screen; accumulating a characteristic daily measurement value fluctuation pattern on the basis of a kind of an operation event; displaying the latest fluctuation pattern of measurement results and the daily measurement value fluctuation pattern in superposition with each other to warn of fluctuations which differ from the daily measurement value fluctuation pattern; and estimating and reporting the cause of the fluctuations.

Abstract: Disclosed is a sample analyzer including a transporting part configured to transport a sample rack holding one or more samples, a measuring part configured to perform a measurement on the sample of the transported sample rack and a controller. The controller is programmed to perform an analysis of a predetermined item that requires at least first and second measurement results derived respectively from first and second samples obtained from the same subject and preprocessed in different ways, and if a measurement of the predetermined item is requested and a set of first and second samples obtained from the same subject and preprocessed in different ways are transported to the measuring part, the controller controls the measuring part to perform measurements on both of the first and second samples to derive the first and second measurement results and processes them to generate an analysis result of the predetermined item.

Abstract: Analyte monitoring devices, systems, and methods are provided that relate to: enabling different application features on a data processing device for analyte monitoring devices with different analyte monitoring features; programming analyte monitoring devices in advance; personalizing an analyte monitoring device; graphically representing a remaining insulin level in a user body; and graphically representing analyte measurement related data for on-demand readings; protecting access to feature of an analyte monitoring device.

Abstract: A reagent preparing device capable of supplying a mixed solution, including a first liquid and a second liquid, to a measurement section for measuring a specimen using the mixed solution as a reagent, the reagent preparing device comprising: a first mixed solution container for accommodating the mixed solution; a second mixed solution container for accommodating the mixed solution; and a controller for controlling supply of the first liquid and the second liquid to supply the first liquid and the second liquid to the first mixed solution container, and to supply the first liquid and the second liquid to the second mixed solution container, is disclosed. A specimen processing system, and a reagent preparing method are also disclosed.

Abstract: An analyzing system that enables further expansion of analysis items and automation of analysis. In the analyzing system for performing an analysis using container 1 and an analyzing apparatus, container 1 is a dedicated container previously containing a reagent for a specific analysis item or an expansion container to which a user can freely set an analysis item.

Abstract: There is provided a method of cleaning a dispensing assembly for small liquid droplets less than 50 ?l and even as low as 10 nl. A purging step with pressurized gas followed by a cleaning step using a suitable cleaning liquid is carried out a number of times.

Abstract: Pipette tips of different sizes may be coupled to a pipettor without needing to modify the pipettor. The same pipettor may thus be utilized to exchange different pipette tips, which may be done in an automated manner. Pipette tips may be coupled to adaptors that include proximal ends for interfacing with the pipettor and distal ends for interfacing with pipette tips. The proximal ends may all have the same geometry, matched with the same pipettor. The distal ends may have different geometries matched with different pipette tips. A pipettor may be part of a liquid handling apparatus and movable in an automated manner to different deck positions. The pipettor may include a locking mechanism for locking adaptors to the pipettor or locking pipette tips directly to the pipettors, and an ejection mechanism for ejecting pipette tips from corresponding adaptors.

Abstract: A configuration of detecting light from the front face of a light source is the best for confirming the variation of a light quantity, but when a plurality of light sources are present, as many detectors for checking a light quantity as the light sources are necessary and the apparatus configuration becomes complex. In the present invention, a detector for checking a light source light quantity is installed in a reaction container transfer mechanism used commonly for a plurality of detection sections, and the light quantities of light sources are checked with the detector.

Abstract: A multi-channel system and methods for sorting particles according to one or more characteristics of the particles. The system includes multiple flow cytometry units, each unit can have a nozzle for producing a fluid stream containing a desired population of particles in a mixture of particles. Each of the units may be operable to sort said desired population of particles by interrogating the fluid stream with a beam of electromagnetic radiation and classifying particles based on one or more characteristics of the particles. The system also includes a common fluid delivery system for delivering sheath fluid to each flow cytometer unit for producing respective fluid streams.

Abstract: An apparatus for measuring a volume of fluid includes at least one emitter configured to project a signal toward a predetermined position of a sample container, at least one receiver configured to receive the signal after the signal interacts with the sample container and a fluid transfer device in communication with the receiver and sample container. A change in the signal received by the receiver indicates when the fluid has dropped below the predetermined position. The apparatus determines a volume of fluid that the fluid transfer device has removed from the sample container when the receiver detects that the fluid has dropped below the predetermined position.

Abstract: Provided in part are processes for manufacturing pipette tip trays that improve quality assessment of the pipette tips therein.

Abstract: A cartridge for dispensing fluid is presented. The cartridge comprises a valve. The valve comprises a pumping chamber for pumping the fluid. The valve positions a pumping chamber conduit. The pumping chamber conduit is connected to the pumping chamber. The cartridge further comprises a plunger for changing the volume of the pumping chamber. The cartridge further comprises a reservoir conduit for connecting the reservoir with the valve. The valve positions the pumping chamber conduit to connect with the reservoir conduit. The cartridge further comprises an outlet conduit for dispensing the fluid. The valve further rotates the pumping chamber conduit to connect with the outlet conduit.

Abstract: An automation system for an in vitro diagnostics environment includes a plurality of intelligent carriers that include onboard processing and navigation capabilities. The intelligent carriers can include one or more image sensors to observe the relative motion of the track as the carrier traverses it. The carriers can also observe position marks on the track surface to provide absolute position information, which can include additional data, such as routing instructions. Synchronization marks may be provided to correct errors in the observed trajectory.

Abstract: A sample is cleaned up for spectroscopic analysis by receiving a slide substrate having the sample thereon, fixing the sample to a substrate surface of the slide substrate by applying heat to the slide substrate for a predetermined heating time and incubating the sample on the slide substrate for a predetermined incubation time after fixing the sample to the slide substrate. The sample is further cleaned by washing the sample on the slide substrate after the sample has been incubated and drying the sample by applying heat to the slide substrate for a predetermined drying time, wherein the sample on the slide substrate after drying has retained particles of interest and interferant particles are removed from the substrate. A substrate is also provided for sample collection, which is culturable and Raman silent.

Abstract: The present disclosure provides methods for carrying out Romanowsky-type stains, specifically Wright-Giemsa and May-Grünwald stains, quickly and efficiently. The methods greatly reduce the overall amount of time required to complete a Wright-Giemsa stain or a May-Grünwald stain of sufficient quality on a biological sample. The subject methods can be applied to both manual and automated staining procedures.

Abstract: A specimen analyzing method and a specimen analyzing apparatus capable of measuring interference substances before analyzing a specimen. The method comprises a step for sucking the specimen stored in a specimen container (150) and sampling it in a first container (153), a step for optically measuring the specimen in the first container, a step for sampling the specimen in a second container (154) and preparing a specimen for measurement by mixing the specimen with a reagent in the second container, and a step for analyzing the specimen for measurement according to the results of the optical measurement of the specimen.

Abstract: The invention relates to an access control device for a laboratory instrument serving for the instrument-controlled treatment of a laboratory sample and this laboratory instrument, and also to a method for controlling the access to functions of the laboratory instrument by means of the access control device, wherein the access control device comprises: a first interface apparatus and a second interface apparatus; and a control apparatus wherein the control apparatus is configured: a) to establish one or more first data connections to one or more user interface apparatuses via the first interface apparatus; b) to establish a second data connection to the laboratory instrument via the second interface apparatus; and c) to control authorizations and/or access permissions for user access to functions of the laboratory instrument via the first and second data connections.

Abstract: A device (600) for performing at least part of an analytical process comprises a communicator (605) to facilitate communication with the device, and a data handler (610) to handle data of the analytical process and/or the device. In an embodiment, the device (600) is a consumable device and/or a microfluidic device. A method for performing at least part of an analytical process using a device comprises the steps of: (a) introducing a sample into the device; (b) handling data associated with the test using a data handler of the device; and (c) facilitating communications about the test using a communicator of the device. In another embodiment, the method is performed using a consumable device and/or a microfluidic device.

Abstract: A system for performing one or more microfluidic processes includes an integrated fluidic device comprising a plurality of well regions and a plurality of control valves and a workflow manager. The system also includes a transfer robot adapted to transfer the integrated fluidic device between a plurality of stations in response to a series of instructions from the workflow manager and a first station comprising a dispensing robot adapted to dispense at least one of a plurality of sample solutions and at least one of a plurality of reagents into the integrated fluidic device. The system further includes a second station comprising a fluidic controller unit and a third station comprising an inspection station.

Abstract: Methods and systems can implement queues for an automation system that services a plurality of modules connected to one another by a transport mechanism, a processor can determining a desired queue for a module. An IVD analyzer can include an automation system, a plurality of stations configured to interact with objects transported by the automation system, and one or more processors that maintain a plurality of queues for at least a subset of the plurality of stations in memory and assign a plurality of the objects to each of the plurality of queues. Objects assigned to each of the plurality of queues need not be located physically proximate to a station associated with each of the plurality of queues.

Abstract: In a coloration analysis device that analyzes a coloration state in a coloration region of a dry analysis element in which a coloration region is formed which reacts with a test substance in a specimen solution and is colored, the effects of irradiation intensity unevenness of measuring light or light-receiving position sensitivity unevenness of a light-receiving optical system are eliminated, and it is possible to perform accurate analysis. A coloration region of the dry analysis element 12 and reference measurement plates 110 and 111 are irradiated with measuring light by a photometric head 96, reflected light from a measurement object is two-dimensionally detected as an image, and correction processing is performed for each pixel of an image of the coloration region, using corresponding pixel information of images of a black reference measurement plate 110 and a white reference measurement plate 111.

Abstract: When a STAT sample which needs to be centrifuged is inputted in the system, a measure to quickly realize centrifugation of the STAT sample is necessary. In view of the foregoing problem, the invention provides a specimen processing and conveying system in which a centrifuge module incorporated, the centrifuge module being capable of discriminating the operation status of the system at the time point when a STAT sample is inputted and the attribute of the inputted sample and starting centrifugation operation on the basis of the input interval of samples or the arrival interval at the device carrying out centrifugation, and thus capable of starting centrifugation operation quickly when a single or a group of plural samples of urgency is inputted.

Abstract: An automated smear making apparatus used to prepare and smear samples on glass slides. In one embodiment, there is provided a smearing subsystem that generally includes a smear cartridge having: an input reel; at least one roll bar; a take-up reel; and a smearing tape. The smearing tape is initially wound within the input reel and coupled to the take-up reel such that the smearing tape can be drawn from the input reel and into the take-up reel. The smearing tape may include a plurality of perforations formed therein. The smearing tape may then be wrapped around the roll bar such that each of the plurality of perforations forms a blade that extends from the smearing tape to expose a smear surface as the smearing tape is drawn into the take-up reel. Alternatively, the smearing tape may be bent such that an edge of the smearing tape forms a smear surface between two roll bars. A slide transport surface is also provided to move a slide across the smear surface.

Abstract: The present invention provides a device for detecting the presence of an analyte in a liquid sample. The device has an opening for introducing the liquid sample into a first chamber for collecting the liquid sample, and a second chamber connected to the first chamber by a passageway and containing a test element. The device also has a third chamber connected to the second chamber by a channel and containing a movable member having first and second positions. The third chamber is divided by the movable member into first and second zones, and the first zone has a vent hole. The movable member is in contact with at least one wall of the third chamber to prevent gas communication between the first and second zones.

Abstract: Methods, systems, and apparatus are provided for automated isolation of selected analytes, to which magnetically-responsive solid supports are bound, from other components of a sample. An apparatus for performing an automated magnetic separation procedure includes a mechanism for effecting linear movement of a magnet between operative and non-operative positions with respect to a receptacle device. A receptacle holding station within which a receptacle device may be temporarily stored prior to moving the receptacle to the apparatus for performing magnetic separation includes magnets for applying a magnetic field to the receptacle device held therein, thereby drawing at least a proton of the magnetically-responsive solid supports out of suspension before the receptacle device is moved to the magnetic separation station. An automated receptacle transport mechanism moves the receptacle devices between the apparatus for performing magnetic separation and the receptacle holding station.

Abstract: The invention relates to a laboratory instrument for the instrument-controlled handling of a partial problem in a treatment process which contains treatments of at least one laboratory sample. The invention moreover relates to a system containing a plurality of such laboratory instruments, wherein the system serves for the instrument-controlled handling of a problem containing a plurality of these partial problems in the treatment process of at least one laboratory sample. And the invention relates to a method for the instrument-controlled handling of a partial problem in a treatment process which contains treatments of at least one laboratory sample.

Abstract: A method including automatically displaying information obtained from a first identifier associated with a slide and a second identifier associated with a reagent cartridge. The method further including generating a staining log based on the information obtained from the first identifier and the second identifier. A further method includes displaying a location of a slide within a sample processing system and information obtained from a first identifier associated with the slide in a first table and displaying a location of a reagent cartridge within a sample processing system and information obtained from a second identifier associated with the reagent cartridge in a second table. The first table is then aligned with the second table.

Abstract: An automated machine for handling and embedding tissue samples contained on microtome sectionable supports. The machine includes an input member configured to hold a plurality of the microtome sectionable supports prior to a tissue embedding operation. An output member is configured to hold a plurality of the microtome sectionable supports after the tissue embedding operation. A cooling unit is configured to hold at least one of the microtome sectionable supports during the tissue embedding operation. A motorized carrier assembly is mounted for movement and configured to hold at least one of the microtome sectionable supports. The carrier assembly moves the support from the input member to the cooling unit and, finally, to the output member. A dispensing device dispenses an embedding material onto the microtome sectionable support and at least one tissue sample carried by the microtome sectionable support during the embedding operation.

Abstract: The present invention relates to a glass plate (2) for use in a device (1) for stretching sample sections having a sectioning knife, the glass plate (2) being arranged at the back (3) of the sectioning knife in such a way that a defined gap (4) for reception of the sectioned sample is formed between the back (3) of the sectioning knife and the plate (2), the glass plate (2) possessing, at least on one of its longitudinal sides (21, 22), edges (211, 212; 221, 222) ground and polished to optical flatness.

Abstract: An automatic analyzer and an automatic analyzing system to identify samples and reagents used in the analyzer and members used in measurement of at least two objects in common: system reagents or buffer solution; sensor parts; probes; nozzles; chips; dispensing cups; tubes; ISE electrodes; detectors; deionized water; and waste, and to unify management of identification information thereof and a measurement result.

Abstract: Detection of miniscule amounts of nucleic acid is accomplished via binding of target nucleic acid to probe material, composed of nucleic acid, which is bound to a sensor configured to sense mass. The sensor is prepared by immobilizing a probe material to a surface of the sensor, wherein the probe material is known to bind to the target nucleic acid. The prepared sensor is exposed to the target nucleic acid. The target nucleic acid binds to the probe material. The mass accumulated on the sensor reflects the amount of target nucleic acid bound to the probe material.

Abstract: A tissue processing system includes a plurality of processing stations. Each processing station includes a plurality of tissue receiving areas that are each configured to accommodate a tissue sample as well as physically isolate that tissue sample from other tissue samples at other receiving areas of the same processing station. Each processing station is configured to separately and individually process the tissue sample at each receiving area to either reduce or eliminate any potential for cross-contamination between the tissue samples undergoing processing at the same processing station. For each receiving area of each processing station, the system is configured to immerse a tissue sample at a particular receiving area in processing fluid for a pre-determined time according to a pre-defined protocol that is based upon parameters of that tissue sample.

Abstract: The present invention provides a system and method for the simultaneous detection of multiple analytes in a sample. The detection system includes a housing that holds a reagent carousel rotatably coupled thereto. Further included in the housing is an incubator carousel rotatably coupled thereto. The housing also includes magnetic material that is associated with the incubation carousel for assisting in separation beads from reagent and wash solution. A robot, associated with the housing is configured to manipulate at least either the reagent carousel or the incubator carousel and transfer materials therebetween. Reaction vessels hold samples and reaction vessels handlers move the reaction vessels. Sample analysis is determined by at least one laser based detector.