Abstract: An automated testing system includes one or more laboratory devices that operate together to perform an assay. The testing system is designed such that a laboratory device may be seamlessly integrated with the remaining devices in a quick and effortless manner. Specifically, the laboratory device is securely mounted on a slidable cart with fluid and electrical connections established therebetween. The slidable cart is in turn adapted to releasably engage with a docking station that is fixedly mounted on the workspace floor, the docking station being provided with at least one fluid input connection, an input power connection and at least one communication signal connection that are relatively permanent in nature. In order to couple the cart to the docking station, the cart is rolled generally into position above the docking station using complementary alignment posts and tracks.

Abstract: For installing reagent bottles in a reagent disk, the operator needs to install them while confirming the orientation of each reagent bottle. However, the operator will groan under a psychological burden in working while confirming the orientation. If the operator installs a reagent cassette in wrong orientation, the result of measurement will be erroneous, possibly leading to a grave testing error particularly in a blood analyzer. An automatic analyzer comprises a recording medium for recording information on placement of a plurality of types of reagents contained in a single reagent container, a reagent container disk capable of carrying a plurality of the reagent containers, an information reader for reading information recorded on the recording medium, and a reagent dispense controller for controlling which of reagents is dispensed by a reagent dispenser based on the information read by medium information reader.

Abstract: A sample analyzer comprises a reaction tray, a sample/reagent tray, and a probe. The reaction tray performs a first number of stops and rotations during an operating cycle, wherein the first number is configured to cause each of the reaction vessels to stop once at a position for the test before any of the number of the reaction vessels stops at the position for a second time. The sample/reagent tray rotates one of a sample container and reagent containers to a sample/reagent retrieving position during an operating cycle. The probe dispenses test sample(s), first reagent, and second reagent during different periods in different stop periods during an operating cycle. A method for analyzing samples is also disclosed.

Abstract: A system 10 for storing and processing a plurality of biological or chemical samples at ultra-low temperatures is provided. The system 10 comprises a plurality of ultra-low temperature storage locations 30; an enclosed pathway 35 adjacent the storage locations 30; and a manipulator module 60 disposed within the pathway 35 for conveying vessels 33 along the pathway 35 between the storage locations 30 in the system 10. Each of the storage locations being accessed through an insulated access panel 36 on the side of the storage location 30, the panel 36 being configured to close the storage location 30 from the pathway 35.

Abstract: An analytical instrument for the immobilization of antigens to be detected in an immunoassay using mangetizable beads. The instrument includes a probe containing magnetizable particles and a plurality of magnetic devices for applying a magnetic field gradient to the particles in the probe reservoir. The probe is movable between the plurality of magnetic devices and at least one of the probe positions may be used to immobilize the magnetic particles in the fluid medium and at least another position may be used to resuspend the particles in a fluid medium.

Abstract: This invention relates to a device usable in an automatical apparatus for the determination of the rate of change of the physical state of a medium. This device has a series of cuvettes having two opposites shoulders which extend in the plane of the opening of the cuvette and a flexible film which is fixed on the shoulders. This film is provided with a series of oblong opening respectively arranged above the cuvette openings. An optical detection station is provided which has a light source generating a light beam which illuminates the upper face of the cuvette bowls and an optoeleclectronic detector placed below the bottom of the bowls.

Abstract: The present invention relates to device for quantitative and/or qualitative determination of the presence/absence of a substance in a body liquid comprising a rotatably arranged magazine containing a number of test electrodes intended to be brought into contact with a body liquid to be determined, an arm arranged to influence a test electrode to a relative movement relative to said magazine, whereby the arm comprises contact sheet metals arranged to releasably be fixed to said test electrode and arranged to return said test electrode to the magazine after a finished testing, as well as an arm contained in said device.

Abstract: This reaction vessel support is of the type comprising at least one supporting plate (46, 48) designed to take one or more reaction vessels, and mounted rotatably about an axis of rotation (R). In one aspect of the invention, the support comprises at least one control member (94, 96) comprising releasable means (100) of coupling to a movable actuating element (40) of an actuator (10), in such a way as to enable the control member (94, 96) to be moved by the actuator (10), with the control member (94, 96) and the supporting plate (46, 48) being connected together in such a way that a movement of the control member (94, 96) by the actuator (10) is able to bring about a rotation of the supporting plate (46, 84) about the axis of rotation (R) in at least one direction of rotation. Of particular application to supports for microassay plates comprising wells laid out in a matrix arrangement.

Abstract: A new method and system for transporting and sorting multiple reagent packs used in conjunction with an immunodiagnostic instrument is provided. The new system includes a multiplicity of reagent packs; a gantry movably mounted on a rack structure for carrying a gripper mechanism, wherein the gripper mechanism has gripping jaws for engagement with the reagent pack; a power assembly for actuating the respective movement of the gantry, the gripper mechanism and the gripping jaws; a storage nest having a multiplicity of compartments, each adapted for storing a one of the respective reagent packs; and a pipetting nest having a multiplicity of compartment, each adapted for retaining a respective one of the reagent packs for simultaneous pipetting. Methods of using the system and a novel reagent pack used in connection with the new system are also provided.

Abstract: An automated discrete fluid sample analyzer includes a sample preparation module. The sample preparation module includes a well configured to receive a sample deposited by a pipettor and a sample preparation device in fluid communication with the well. The fluid sample is transferred from the well to the sample preparation device, and the sample preparation device prepares the fluid sample. The pipettor then aspirates the prepared fluid sample. The prepared fluid sample may be transferred from the sample preparation device back to the well, and the pipettor aspirates the prepared fluid sample from the well. In one embodiment, the sample preparation device includes a receptacle having a catalyst disposed therein. The catalyst may include a noble metal catalyst, such as cadmium. In another embodiment, the sample preparation device includes an ultraviolet lamp configured to apply ultraviolet light to the fluid sample.

Abstract: In a microplate processing apparatus that removes lid (11) of microplate (10) conveyed by microplate conveying mechanism (3) to perform a dispensing process by dispensing head (8), and that attaches lid (11) after the dispensing process is completed, lid (11) removed by lid removing mechanism (6) at first position (P1) is conveyed to third position (P3) located downstream, by microplate conveying mechanism (3), to be held by lid attaching mechanism (9), and then lid (11) is attached to microplate (10) having been conveyed to third position (P3), after the dispensing process is completed, while microplate (10) with this lid (11) having been attached is being lifted to processing position (P4) above microplate conveying mechanism (3), by microplate stage (12).

Abstract: A biosample multiple autoanalyzer characterized by including: (1) a sample supply unit having a plurality of biosamples; (2) a first measuring unit fitted with a first optical measuring means capable of detachably holding, in a mutually independent fashion, a plurality of reaction cuvettes independent from each other; (3) a sample transport means capable of transporting the biosamples from the sample supply unit to the reaction cuvettes on the first measuring unit; (4) a second measuring unit fitted with a second optical measuring means capable of detachably holding, in a mutually independent fashion, a plurality of reaction cuvettes independent from each other; (5) a cuvette transfer means capable of transferring the reaction cuvettes on the first measuring unit to the second measuring unit; (6) a reagent supply unit having reagents for use in measuring by the first measuring unit and measuring by the second measuring unit; and (7) a reagent transport means capable of transporting reaction reagents, in a mut

Abstract: A sample processing system that may be configured to achieve automatic withdrawal of a substance at the end of appropriate processing sequences such as histochemical processing may involve a plurality of samples for which substances removed by moving a wicking cartridge that may have sequentially advanced absorbsant material on rolls that are advanced an appropriate amount based upon usage in sequences such as repeated elimination and reapplication of a fluidic substance perhaps through the action of capillary motion in order to refresh a microenvironment adjacent to a sample such as a biopsy or other such sample. Snap in wicking cassettes and perhaps antibody and other substances may be included to ease operator actions and to permit location specific substance applications perhaps by including single container multiple chamber multiple fluidic substance magazines, linearly disposed multiple substance source, and primary antibody cartridges.

Abstract: An apparatus for analyzing that performs a plurality of treatment operations includes a plurality of treatment units arranged in a vertical direction of the apparatus. The apparatus for analyzing also includes a conveying mechanism configured to convey a sample between the treatment units. The sample is delivered above or in the treatment units. A pipette chip is also delivered above or in the treatment units.

Abstract: Method and system providing calibration of light detected from biological samples with a correction factor including components for each of a plurality of spectrally distinguishable species and/or for each well and/or for each filter.

Abstract: An apparatus and method based on the apparatus is disclosed for automated single molecule or molecular assemblage detection via light irradiation and detection of transient FRET between a donor or acceptor bound to an immobilized single molecule or molecular assemblage and a corresponding acceptor or donor associated with, covalently bonded to, a reagent, where the donor or acceptor associated with the reagent is transiently in FRET proximity to the acceptor or donor associated with the immobilized molecule or molecular assemblage.

Abstract: The present invention is directed to an automatic chemical analytical apparatus for analyzing liquid samples. In order to provide a fully automatic transport of sample tubes containing samples to be analyzed, the apparatus includes a sample processing unit, a sample transport arrangement for transporting the sample racks from a rack supply unit to a rotatable sample rack carrier in the sample processing unit and vice versa, and a computer for controlling and coordinating the operation of the sample transport arrangement and an automatic pipetting unit. The sample processing unit includes the automatic pipetting unit and the rotatable sample rack carrier that accommodates a plurality of sample racks. Each sample rack, in turn, accommodates a plurality of sample tubes.

Abstract: The invention concerns the performing, in continuous flow, of a biological, chemical or biochemical protocol on substances to be analysed, comprising several steps which consists in: in causing a mobile analysis support (11) comprising means (12) for receiving substances to be analysed and reagents to move past; implementing the steps of the protocol on the substances as the mobile analysis support (11) moves past.

Abstract: An automated analyzer for performing multiple diagnostic assays simultaneously includes multiple stations, or modules, in which discrete aspects of the assay are performed on fluid samples contained in reaction receptacles. The analyzer includes stations for automatically preparing a specimen sample, incubating the sample at prescribed temperatures for prescribed periods, preforming an analyte isolation procedure, and ascertaining the presence of a target analyte. An automated receptacle transporting system moves the reaction receptacles from one station to the next.

Abstract: An analyzing device for analyzing chemical and/or biological samples comprises a plurality of base parts, e. g. object holders, in a receiving device. The base parts are closed by a lid which is configured such that each base part and the lid form a test chamber for receiving the sample. Further, a conveying means for moving the sample in the test chamber is provided. The pumps of the conveying means are connected via channels with the test chamber and are controlled such that a portion of the sample liquid is alternately drawn off the test chamber and supplied back thereto by the pumps.

Abstract: An automatic biochemical analyzing method is described, in which a row of reaction containers is cyclically arrayed such that an operating cycle is formed that is defined between dispensing the preceding sample and the sequent sample. In each cycle, the reaction containers are transferred so as to motivate at least one reaction container to pass across an optical detecting channel and cause the reaction containers to make an intermediate pause when no sample is dispensed. When the reaction containers pause, the sample is dispensed to a reaction container at a sample dispensing position. When the reaction containers are at the intermediate pause, the first reagent is dispensed to a reaction container at a first reagent dispensing position. In each reaction container, the operation cycle when the sample is dispensed follows the operation cycle when the first reagent is dispensed. An automatic biochemical analyzing apparatus is also disclosed.

Abstract: A container with a rotatable lid for reading and handling diagnostic reagents in tape form comprising a body portion, a lid portion, a continuous tape, a reagent-sensing device, and a storage device. The body portion includes an inner and outer surface. The lid portion is attached to the body portion and is adapted to rotate from a closed position to an open position. The continuous tape includes a diagnostic reagent. The reagent-sensing device is attached to either the body portion or the lid portion and adapted to read the diagnostic reagent. The storage device is attached to the body portion that is adapted to hold and dispense an unused portion of the continuous tape. During the rotation of the lid portion, the continuous tape is advanced from the first storage device and is extended over the reagent-sensing device.

Abstract: A method for dynamically determining the volume of a liquid dispensed by a metering system, the metering system including a metering pump, a pump motor, a sensor, and a conduit interconnecting the pump and a metering probe. The method includes the steps of aspirating a quantity of fluid into the metering probe using the metering pump, moving the probe relative to a reaction vessel, and dispensing the fluid. The dispensing step includes the steps of identifying an onset point associated with a parameter which can be measured by the metering system, identifying an end point associated with the measurable parameter, and timing the pump motor during the period between the onset point and the end point in order to determine fluid volume. The sensor, such as a pressure transducer or capacitance change sensor, disposed in relation to the conduit can detect changes in the parameter and identify the onset and end points.

Abstract: A plurality of analyzer units for serum, a plurality of analyzer units for blood plasma and a plurality of analyzer units for urine are arranged along a main transfer line for transferring a sample rack from a rack providing portion to a rack storage portion. A reagent bottle for inspecting liver function is contained in each reagent delivery mechanism of two analyzer units among the plurality of analyzer units for serum. When the reagent for inspecting liver function in one of the two analyzer units is to be short, analysis for the liver function analysis item to samples can be continued by transferring a sample rack from the rack providing portion to the other analyzer unit.

Abstract: A method and apparatus for preparing biological cell samples for intracellular analysis. The invention is based upon the recognition that many of the steps of the conventional methods for such sample preparation can be eliminated, leading to a process that readily lends itself to automation and the advantages associated therewith. The method of the invention comprises the steps of (a) cell-fixation, (b) permeabilization and (c) staining (or labeling) of intracellular molecules of interest by probes that are readily detectable by flow cytometric techniques, all without any intervening cell-washing (and re-suspension) steps. Rather, the single cell-washing step is effected after these three steps have been carried out. Preferably, the washing step is carried out by passing the fixed, permeabilized and stained cell sample through a semi-permeable membrane that serves to filter out (by transmission) interferants to waste while retaining the cells of interest.

Abstract: A vessel arrangement having a base and multiple vessels suited for simultaneously conducting a plurality of isolated experimental reactions or treatments at atmospheric process conditions or elevated temperatures and pressure condition has been developed. A component of a first material is introduced into one independent vessel through an opening in its top of the first vessel and another component of a second material is introduced into a different independent vessel through its top. Both vessels are removably located about a base at different first locations. Transformation of the components in the vessels then occurs to produce different materials therein. After completion of the experiments a displacement medium simultaneously urges the vessels from their respective locations about the base for discard or reuse after any necessary cleaning. Typically at least one property of the materials from the vessels is determined either within the vessel or after recovery of the materials.

Abstract: An automatic clinical analyzer in which the number of cuvette ports available for reaction vessels on a reaction carousel are 50% in a configuration using a single reagent storage areas; in a second configuration an additional reagent storage areas is employed and additional ones of the cuvette ports on reaction carousel are utilized, thereby significantly increasing throughput.

Abstract: Microfluidic devices for manipulating relatively dense materials, such as colloidal rod particles, are provided. Microfluidic devices for separating a denser first material from a less-dense second material are provided. Methods of manipulating a relatively dense first material, for example, colloidal rod particles, and separating the first material from a less-dense second material, are provided. Methods of marking samples or sample components with relatively dense materials, are also provided.

Abstract: In a method for sampling a continuous liquid flow, the liquid flow is supplied to a surface along an input flow path. The liquid flow is sampled by forming a sample droplet from a portion of the liquid flow. The sample droplet is moved along an analysis flow path to a processing area of the surface, where the sample droplet is processed. Discrete sample droplets are formed and moved using an electrowetting technique. A binary mixing apparatus and method are also provided. The apparatus comprises an array of electrodes, an electronic controller communicating with the electrodes, a sample droplet supply area communicating with the array, and an additive droplet supply area communicating with the array. The electronic controller alternately energizes and de-energizes selected electrodes to carry out droplet-to-droplet binary mixing operations to obtain one or more droplets having a target mixing ratio.

Abstract: The invention provides improved systems, devices, and methods for analyzing a large number of sample compounds contained in standard multi-well microtiter plates or other array structures. The multi-well plates travel along a conveyor system to a test station having a microfluidic device. At the test station, each plate is removed from the conveyor and the wells of the multi-well plate are sequentially aligned with an input port of the microfluidic device. After at least a portion of each sample has been input into the microfluidic channel system, the plate is returned to the conveyor system. Pre and/or post testing stations may be disposed along the conveyor system, and the use of an X-Y-Z robotic arm and novel plate support bracket allows each of the samples in the wells to be input into the microfluidic network through a probe affixed to a microfluidic chip.

Abstract: A blood sample sensing apparatus includes a moving device which moves a sample container containing a blood sample to a sensing position, a turning mechanism which is connected to the moving device and tilts the sample container such that a bottom of the sample container is directed upward when the sample container is located in the sensing position, and an optical sensor which is located in the sensing position and determines whether the blood sample in the sample container is coagulated.

Abstract: An incubator includes an incubator ring assembly having at least two concentric rings supported for rotation about a common axle defining an axis of rotation. Each concentric ring includes a plurality of circumferentially defined load positions, each load position being sized for accommodating a test sample. At least one test station is arranged in relation to the plurality of load positions to selectively test a test sample, the test samples being are sequentially shuttled into and out of load positions of at least one of the concentric rings to increase the overall throughput of the analyzer.

Abstract: Samples and dry chemical analysis elements necessary for analyses of the samples are loaded on a circular sampler tray. Each of the samples having been loaded on the sampler tray is sucked through a spotting nozzle and spotted onto one of the dry chemical analysis elements. A temperature of each of the dry chemical analysis elements having been spotted with the samples is kept at a constant temperature in an incubator. The sampler tray is provided with a circular rotating disk. Sample vessels, each of which accommodates one of the samples, the dry chemical analysis elements of kinds corresponding to types of the analyses of the samples, nozzle tips, each of which is to be fitted to the spotting nozzle, diluent liquid vessels accommodating a diluent liquid, and mixing cups for dilution are supported on the rotating disk.

Abstract: The present invention provides an optical assay apparatus that includes a light source module and an optical sensor. The light source module produces light having a range of propagation angles. The sensor includes a light adjusting portion and an assay sensing portion. The light adjusting portion receives the light produced by the light source module and provides light having a propagation angle that is substantially constant to the assay sensing portion. In one embodiment, the sensor may be coupled with the light source module by an interrogation module which includes a window in which a waveguide is integrated. In another embodiment, the sensor and interrogation module are mounted in an automated assay platform that provides two-dimensional or three-dimensional movement of the sensor so that it can be sequentially immersed in solutions required to perform a particular assay protocol.

Abstract: The present invention provides an improved apparatus and method for loading tips onto a pipettor. A means for applying removal force on the pipette tip box is provided so as to ensure that the box is dislodged from the pipette tips after the pipette tips have been forced onto the dispense head mandrels. In the preferred embodiment, the shuck arms are modified to incorporate springs such that when the engagement force is removed from the pipette tip box, the shuck arms are forced by the springs against the pipette tip box thereby displacing the pipette tip box from the pipette tips.

Abstract: A device for centrifugation and robotic manipulation of specimen samples, including incubating eggs, and uses thereof are provided. The device may advantageously be used for the incubation of avian, reptilian or any type of vertebrate eggs. The apparatus comprises a mechanism for holding samples individually, rotating them individually, rotating them on a centrifuge collectively, injecting them individually with a fixative or other chemical reagent, and maintaining them at controlled temperature, relative humidity and atmospheric composition. The device is applicable to experiments involving entities other than eggs, such as invertebrate specimens, plants, microorganisms and molecular systems.

Abstract: Methods of fixing and processing tissue and samples on a membrane by using ultrasound radiation as a part of the method are presented. Ultrasound of a frequency in the range of 0.1-50 MHz is used and the sample or tissue receives 0.1-200 W/cm2 of ultrasound intensity. The use of ultrasound allows much shorter times in the methods. Also presented are apparati comprising transducers of one or of multiple heads for producing the ultrasound radiation and further comprising a central processing unit and optionally comprising one or more sensors. Sensors can include those to measure and monitor ultrasound and temperature. This monitoring system allows one to achieve accurate and optimum tissue fixation and processing without overfixation and tissue damage. The system also allows the performance of antigen-antibody reactions or nucleic acid hybridizations to be completed in a very short time while being highly specific and with a very low or no background.

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.

Abstract: A method for appropriately managing the quality and distribution of a probe carrier. Probe carriers manufactured by a probe carrier manufacturing apparatus having ejecting portions for ejecting probe solutions, each containing a probe, which can be specifically coupled with a target substance, for applying the probe solution on a carrier, and a plurality of probe tanks storing mutually different probe solutions for supplying ejecting portions. Each probe tank is labeled with the bar-code. The labeled bar-code is read by the bar-code reader. On the basis of the read bar-code, the probe solution stored in the probe tank is identified. On the other hand, the probe tank is mounted on the ejecting portion.

Abstract: A specimen centrifuge system includes a centrifuge unit including a plurality of specimen centrifuges which are stacked in a plurality of layers in a vertical direction, a rack conveyor which is provided along a horizontal conveyance line, and a rack elevator which is provided along a vertical conveyance line. The rack elevator has a robot arm device which moves the specimen-container rack from the rack conveyor to the rack elevator and from the rack elevator to the rack conveyor and moves the specimen-container rack from the rack elevator to one of the specimen centrifuges and from one of the specimen centrifuges to the rack elevator.

Abstract: An apparatus for synthesizing polymer chains includes a controller, a plurality of precision fit vials circularly arranged in multiple banks on a cartridge, a drain corresponding to each bank of vials, a chamber bowl, a plurality of valves for delivering reagents to selective vials, and a waste tube system for purging material from the vials. A purging operation can be selectively performed on one or more of the banks of vials. The multiple banks of valves provide an additional number of reagent choices while operating in a serial mode and faster reagent distribution while operating in a parallel mode. The plurality of vials are stored in the cartridge and are divided among individual banks wherein each bank of vials has a corresponding drain. There is at least one waste tube system for expelling the reagent solution from vials within a particular bank of vials when the waste tube system is coupled to the corresponding drain.

Abstract: According to the present invention, there is provided an automatic chemical analyzer which is capable of conducting investigation of the influence of contamination regardless of the knowledge or technical skill of the user, and can prevent the occurrence of errors of determination by letting the user know that a problem has arisen in the function of inhibiting the generation of contamination. The combination of items which has been judged to involve contamination is extracted (step S7-1), and it is decided whether or not the result of judgement is the same as those of the previous judgements (step S7-2). In the step S7-2, if the results disagree, it is judged that trouble arises in the mechanism for preventing the generation of contamination, i.e., cleaning mechanism in this case, and an alarm of “trouble in cleaning mechanism” is given on the alarm display of a CRT.

Abstract: A system for a clinical lab that is capable of automatically processing, including sorting, of multiple specimen containers. The system comprises a central controller, a workstation, one or more analyzers, and an automated centrifuge. The workstation has automatic detectors for detecting the presence of a holder holding specimen containers. The workstation has a bar code reader for reading bar codes on the containers. The system has a transport subsystem, preferably a workstation robotic arm and an analyzer robotic arm for transporting the specimen containers, moving them to and from the workstation, to and from the analyzers, and to and from the centrifuge. The centrifuge is loaded with buckets containing specimen containers. The workstation can be provided with a balance system for balancing the weight of the buckets used. The workstation can also have a decapper for automatically removing caps from the specimen containers.

Abstract: The invention relates to a device and a method for carrying out in an optimized and automated manner immunological marking techniques for thin-sectioned tissue (2b). A support plate (1) which can be automatically moved by means of a computer-controlled conveying device (20) and on which several thin sections of tissue (2b) are placed on small metal screens (2) is immersed like a die into a liquid that is composed of a washing or marking solution (6) and is placed in several recesses (5) within an object support (4). The object support can also be automatically moved.

Abstract: A specimen centrifuge apparatus includes a specimen container carry-in system and a specimen container carry-out system. The specimen container carry-in system has a specimen container carry-in conveyor for loading pre-processed specimen containers into specimen centrifuge units stacked one on another in a centrifuge device, a carry-in elevator, a carry-in transfer arm, and a loading arm. The specimen container carry-out system has a specimen container carry-out conveyor for unloading the processed specimen containers from the specimen centrifuges, a carry-out elevator, a carry-out transfer arm, and an unloading arm.

Abstract: A chemical solution distribution system and method that includes or employs a plurality of liquid handlers where each of the liquid handlers includes a movable table that engages a sample multiwell plate and can align pipettes of the station with different subsets of wells of the multiwell plate where the number of wells of the multiwell plate is a multiple of the number of pipettes of the head of the pipette station. The system further includes and employs four different pumps to enable the system and method to supply four different solutions to wash stations of each of the four liquid handlers.

Abstract: The present invention relates mainly to reaction vessels, to sets of such vessels for automatic immunological assay apparatuses, to automatic immunological assay apparatuses making use of such sets of vessels, and to a method implementing sets of such vessels. According to the present invention, photometric detection is implemented of the luminescence of a reaction mixture found in a reaction vessel, the apparatus and/or the vessel guaranteeing light-tightness so as to prevent entry of external light falsifying the measurement. Advantageously, sets of vessels in accordance with the present invention are made out of a material that is opaque. The present invention is particularly applicable to detecting the presence of a chemical or a biological substance in a sample. The present invention applies mainly to medical analysis and research.

Abstract: A method for determining a threat substance encountered by a time-of-flight mass spectrometer (TOF-MS) using a pre-computed threat library is described. The method comprising the steps of acquiring a spectrum of a test substance, wherein the acquired spectrum is an average of individual spectra acquired from a plurality of laser shots on the analyte; identifying mass/charge (m/z) values corresponding to each of a plurality of spectral peaks of the acquired spectrum; assigning a corresponding ranking code to the acquired spectrum based on the plurality of its spectral peaks and troughs, wherein a peak presence is indicated by a numeral 1, while peak absence is indicated by a numeral 0, relative to each of a set of substances in a threat library; comparing the assigned rankings of the acquired spectrum over all threat substances stored in the threat library; and identifying the threat substance as that which produced the highest ranking.

Abstract: A system and method for nondestructive automated headspace analysis. The system includes a container conveyor that conveys a plurality of generally optically transparent sealed test containers through a pre-inspection region, an inspection region and a post-inspection region of the container conveyor, and that conveys at least one sealed reference container, through the inspection region. Also included is a zone including a laser emitter and a sensor located in the inspection region and arranged such that the laser source emits a laser beam such that it intersects with a container movement path. The conveyor alternatingly conveys test containers and reference containers through the zone.

Abstract: The system for analyzing multiple samples includes a plurality of portable of sample supports each for accommodating a plurality of samples thereon, and an identification mechanism for identifying each sample location on each of the plurality of sample supports. The mass spectrometer is provided for analyzing each of the plurality of samples when positioned within a sample receiving chamber, and a laser source strikes each sample with a laser pulse to desorb and ionize sample molecules. The support transport mechanism provided provides for automatically inputting and outputting each of the sample supports from the sample receiving chamber of the mass spectrometer. A vacuum lock chamber receives the sample supports and maintains at least one of the sample supports within a controlled environment while samples on another of the plurality of sample supports are being struck with laser pulses.