Abstract: An instrument for conducting nucleic acid amplification reactions in a disposable test device. The test device includes a first reaction chamber containing a first nucleic acid amplification reagent (e.g., primers and nucleotides) and a second reaction chamber either containing, or in fluid communication, with a second nucleic acid amplification reagent (e.g., an amplification enzyme such as RT). The instrument includes a support structure receiving the test device. A temperature control system maintains the first reaction chamber at a first elevated temperature but simultaneously maintains the second nucleic acid amplification reagent at a second temperature lower than the first temperature so as to preserve the second nucleic acid amplification reagent. An actuator operates on a fluid conduit in the test device to place the first and second reaction chambers in fluid communication with each other after a reaction has occurred in the first reaction chamber at the first temperature.

Abstract: A particle agglutination-evaluating container for immunological analysis, based on an agglutinate formed in an agglutination reaction between an antibody- or antigen-containing sample and agglutination particles, includes a transparent container body having a bottom face including a sloping bottom face and a raised bottom face extended in a horizontal direction at the top of the sloping bottom face to form an obtuse angle with the sloping bottom face, and a fluidal separation layer containing insoluble particles which are filled in the container body and where the agglutination particles are separated according to the agglutination degree, wherein agglutination is evaluated by observation from the bottom of the container body, where the agglutination reaction is judged positive when the agglutination particles are observed through the raised bottom face, negative when observed at the bottom end of the sloping bottom face, and weakly positive when observed in the middle of the sloping bottom face.

Abstract: The present invention is directed to a biochip assembly comprising a semi-permeable membrane and an assay method using said biochip assembly for carrying out cell based assays. Ideally, such a method involves measuring the migration of cells in a channel under the influence of an analyte wherein said cells are separated from said analyte by a semi-permeable membrane and said analyte and/or said cells are subjected to controlled flow conditions.

Abstract: The present invention provides a system and method for detecting antigens captured on an antibody array. The method comprises the following steps of providing the antibody array having at least two antibodies, contacting the antibody array with a sample containing at least one antigen that may be captured by the antibodies disposed on the antibody array, and detecting the at least one antigen captured by the antibody array with a detecting agent that specifically binds to the antigen-bound antibodies on the antibody array, thereby the at least one antigen captured by the antibody array can be detected independent of the structures of the antigens. In a preferred embodiment, Clq is used as the detecting agent to detect antigen-bound antibodies.

Abstract: Multiwell plates commonly used for immunoassay are increased in capacity and adapted for ease and speed of testing by forming a plurality of solid posts in each well of a plate. The posts and plate material and the dimensions of the posts are chosen to allow the immobilization of ligand patterns on an exterior wall of a post in a well and to permit a collimated beam of light directed to the post in a direction to achieve total internal reflection from a wall to generate an evanescent field in the plane of the ligands immobilized on the exterior wall of the post. The reflected light carries an image of localized intensity variations due to binding events between the ligand patterns and analytes in a sample introduced into a well. A cover plate seals the wells and provides for through holes for introducing sample material to the wells.

Abstract: A bio sample processing apparatus and method using vacuum chambers in which a bio sample is injected into a first vacuum chamber connected with one end of a bio processor and, after processing, is ejected into a second vacuum chamber connected with the other end of the bio processor. The vacuum chambers and bio processor are connected with each other to form an environment with a pressure lower than atmospheric pressure, and the bio sample moves toward the second vacuum chamber due to the pressure difference created by the injection of the bio sample into the first vacuum chamber.

Abstract: The invention relates to a method for producing polymers, in particular synthetic nucleic acid double strands of optional sequence, comprising the steps: (a) providing a support having a surface area which contains a plurality of individual reaction areas, (b) location-resolved synthesizing nucleic acid fragments each having different base sequences in several of the individual reaction areas, and (c) detaching the nucleic acid fragments from individual reaction areas.

Abstract: A sample processing cartridge may include a plurality of segments arranged in an array at least two rows long and two columns wide. Each segment may be defined by at least one wall of the sample cartridge, fluidly isolated from adjacent segments at least in part by at least one breakable seal or by at least one permanent seal, so expandable as to receive a volume of fluid expelled from another segment, and so compressible as to contain substantially no fluid when so compressed. At least two adjacent segments of at least one row of the array may be aligned along a longitudinal axis of the row and have substantially the same height along a latitudinal axis of the row. At least two adjacent segments in at least one row may be separated by a permanent seal to form at least two tracks. At least one segment, or at least two adjacent segments separated by a breakable seal, may be in fluid communication with the at least two tracks. At least one segment may contain at least one reagent.

Abstract: A method and device for analysis of reaction media containing one or more cells. This method and device can be used to perform an automated high-throughput analysis.

Abstract: An apparatus and method for capturing a target substance in a sample. The method includes the steps of preparing particles capable of capturing the target substance in a dispersed state in a fluid, aggregating the particles, and allowing the particles to capture the target substance in the sample by bringing the sample into contact with the particles aggregated.

Abstract: An integral magnet and heater device comprising a heating element with integral permanent magnet for use in a sample preparation or analysis apparatus. Also disclosed is a sheath adapted to cover a reusable processing component, such as a heater or sonicator, of an apparatus during use. Other associated aspects of the system are described and claimed.

Abstract: Screening assays and methods of performing such assays are provided. In certain examples, the assays and methods may be designed to determine whether or not two or more species can associate with each other. In some examples, the assays and methods may be used to determine if a known antigen binds to an unknown monoclonal antibody.

Abstract: A biosensor includes a substrate member with a pattern of active areas of receptive material and a pattern of blocking material layers. The receptive material and blocking material are attached to the substrate member with a photo-reactive crosslinking agent activated in a masking process. The receptive material is specific for an analyte of interest.

Abstract: Cover of a hybridization chamber with a peripheral frame with filling and ventilation holes extending from the upper face to the lower face of the frame, a peripheral shoulder outside the filling and ventilation holes on the lower face of the frame, a cover wall arranged within the frame, flush with its lower face and downwardly offset relative to its upper face and which substantially consists of at least one resilient plastics material.

Abstract: An apparatus and method for analyzing biological cells and other particles using an external laser cavity. Microfluidic channels contain and transport biological cells to be analyzed. A laser diode provides light for cell analysis. An external cavity is provided between one surface of the laser diode and a mirror opposite thereto. A microlens set focuses the light on only one cell as it passes through the external cavity. The presence of the cell in the external cavity gives a weak feedback toward the laser diode. The emission frequency and the output power of the laser are both functions of the length of the external cavity. Therefore, the variation of cavity length can be deduced from these parameters, where the variation is caused by changing the refractive index or size of the cell in the cavity.

Abstract: Improved methods for the separation, isolation, enrichment, or detection of target molecules, such as nucleic acids and proteins, within dilute or heterogeneous samples, such as bodily fluids, excreta or tissue samples, are disclosed. The methods include repetitively and rapidly passing a sample across at least one region of a conduit in which at least one region includes a binding partner specific for the target molecule. In certain methods, at least one other region includes binding partners specific for non-target molecules. The sample may be passed over the binding partner in the same direction if the conduit is a loop or in an antiparallel direction (i.e., back and forth over the binding partner). In an embodiment, the sample is electrophoresed through or over an electrophoretic medium, in which at least one region includes a binding partner for the target molecule. The invention also provides apparatus and sample preparation systems adapted for use in the methods.

Abstract: A microtitration plate has a frame (2) made of a first stiff plastic and having a plate (4) with multiplicity of holes (2?), and a multiplicity of vessels (3) made of a second plastic suited for the PCR and/or exhibiting permeability to oxygen, which are fixedly connected to the plate (4) by directly molding them to the holes (6), which have a receiving portion (9, 10, 11) protruding from an underside (8) of the plate (4), and which are accessible from an upper surface (7) of the plate through apertures (15).

Abstract: The present invention concerns a method and an apparatus for automatic staining of at least one tissue sample accommodated on a slide by applying reagents. The system may include at least one slide provided in a slide rack, a fluid containment element, a slide holder, a vertical slide positioner to pivot the slides to a vertical position, and a slide immerser element to immerse the vertical slide into a fluid containment element or even a dip tank. By pivoting the slides from a horizontal to a vertical position, an automated method and apparatus for carrying out a pretreatment in an automated staining apparatus may be provided. The pivoting of slides may ensure an appropriate orientation of the slides for both the pretreatment and the staining processes.

Abstract: Methods for forming cell arrays of multiple cell samples arranged substantially in a monolayer on a single substrate particularly suited for diagnostic analysis are disclosed. The cell arrays are formed with a high-speed dispensing apparatus capable of dispensing small volumes in precise, complex patterns. Also disclosed are substrates upon which cell arrays may be formed, and methods for conducting diagnostic analyses on the formed cell arrays.

Abstract: A secure clamping system for sealing and storing multiple vessels such as commercially available vial arrays, multi-well plates, and deep well blocks, as typically used in the chemical, pharmaceutical, or biological fields including top and bottom plates, with or without drainage or injection ports, secured to the array or well by a C-shaped clamping member that may be fixed or adjustable, or by top and bottom clamping plates having opposite side height adjustable bracket members with cooperating locking members, or by top and bottom clamping plates having eccentrically cammed grasping arms, all for retaining the plates in a secure, leak-proof fit over the top and bottom of the array, well or block.

Abstract: The present invention relates to a gel processing and transfer device, useful for the processing and transferring un-damaged and intact gel with minimal handling, said device comprising at least 4 separable components namely: a base plate for holding the gels with facility to drain out solution; a retaining rim with attached side-walls, said side walls are fastened to the base plate by a fastening means; at least one “O” ring fixed to the retaining rim to give leakproof arrangement with the base plate; and a lid to cover the assembly.

Abstract: Microfluidic devices having active features such as valves, peristaltic pumps, and mixing portions are fabricated to have a thin elastomeric membrane over the active features. The active features are activated by a tactile actuator external to the membrane, for example, a commercial Braille display. The display may be computer controlled, for example by simple text editor software, to activate individual Braille protrusions or a plurality of protrusions to actuate the active portions of the microfluidic device. Integral devices can incorporate the tactile actuators in a single device, but still external to the membrane.

Abstract: The invention makes it possible to measure binding of a biochemical substance with a high throughput and with high sensitivity using a small cell capable of being filled with a small amount of chemical solution. A space between a first substrate and a second substrate such that probes are immobilized on their mutually facing planes is used as a cell that houses a specimen solution. Light is irradiated from a first substrate side, and reflected light is subjected to spectroscopy. Binding of the target with the probe is detected by a wavelength shift in the reflection spectrum.

Abstract: The invention provides methods and devices for detecting the presence of one or more target analytes in a sample employing a channel having affixed therein one or more binding partners for each target analyte. Assays are carried out by transporting the sample through the channel to each successive binding partner so that target analyte present in said sample binds to the corresponding binding partner. The sample is then transported beyond the binding partner(s), followed by detection of any target analyte bound to each binding partner. In one embodiment, binding efficiency is increased by the use of segmented transport, wherein a first bolus or bubble of a fluid that is immiscible with the sample precedes the sample during transport and a second bolus or bubble of a fluid that is immiscible with the sample follows the sample. Many configurations are possible for the device of the invention.

Abstract: A device and a process for testing a sample liquid in which especially the ELISA process can be carried out very easily, rapidly and with high precision. To do this, a sample liquid and a dilution liquid are each supplied to several metering chambers of different volumes, so that the sample liquid can be diluted into assigned reaction chambers in one dilution step in different dilution ratios. Different liquids can be supplied in succession to the reaction chambers by means of a common receiving chamber. The liquids are transferred from the reaction chambers into the assigned test chambers to stop the detection reaction.

Abstract: Provided is a hybridization system for hybridizing a biochip including: a chamber device including at least a hybridization chamber including a support for a biochip and a first cover having a sample inlet; an agitation device including: two air channels connected to ends of the hybridization chamber; two valves disposed in the air channels; an integrated air channel to which the two air channels are connected; and an air pump disposed in the integrated air channel; and a washing and drying device including: a flow channel connected to one of the two air channels through a branched valve; a flow pump disposed in the flow channel; and a buffer inlet disposed opposite the flow channel.

Abstract: The present invention features a microfluidic device for detecting Escherichia coli. The device comprises (a) a base slide having a first inlet and a second inlet, both of which connect at a vertex, where the first inlet is for accepting beads conjugated with anti-E. coli and the second inlet is for accepting a sample, wherein at the vertex the beads conjugated with anti-E. coli and the sample combine to form a combined mixture; (b) a portable spectrometer and a light source; and (c) a first fiber optic cable for directing an incident light into the combined mixture and a second fiber optic cable for detection of light scattering from the combined mixture, where the fiber optic cables are arranged in a proximity fiber arrangement, with the second fiber positioned above the base slide so as to detect forward light scattering at about a 45° angle.

Abstract: The present invention relates to the field of immunology and hyperproliferative diseases. More specifically, the present invention relates to a method of detecting and monitoring therapeutic antibody:antigen complex, soluble antigen and soluble therapeutic antibody, wherein a patient has undergone at least one course of immunotherapy. Yet further, levels of therapeutic antibody:antigen complexes, soluble antigens or soluble therapeutic antibodies may be measured and used to stage or monitor a hyperproliferative disease.

Abstract: A disposable device is provided for culturing and/or packaging and transporting ready-to-use viable cells cultured on membranes, gels or micro porous substrata. The device includes a housing base defining an interior for culturing cells. The membrane to be used for culturing the cells is placed inside the housing base and fixed with a ring. The base is closed by a lid, which is designed to protect the underlying cells during transport as well as minimize the volume of media used during culture, as well as transport. Media leakage is prevented by the silicon gasket as well as the snaps provided in the device.

Abstract: An apparatus and methods for detecting at least one analyte of interest either produced or consumed by a plurality of cell. In one embodiment of the present invention, the method includes the steps of providing a housing defining a chamber, placing a plurality of cells in the chamber, and simultaneously detecting at least two analytes of interest either produced or consumed by the plurality of cells in the chamber.

Abstract: The present invention provides a thermal cycling device including: a heat exchanger body (3) having a longitudinal axis and longitudinally divided to provide at least two segments which are able to be heated to different temperatures so that said body has peripheral surfaces of different temperatures; a conduit (2) extending about said body so as to be in thermal contact with said peripheral surfaces; a first delivery device to deliver a first fluid to said conduit to cause said fluid to pass therealong and therefore change in temperature as the fluid passes said segments; and a second delivery device to deliver a second fluid to said conduit so as to flow with said first liquid and therefore also change in temperature. The fluid then leaves the device by conduit (4).

Abstract: A method of removing a target from a biological sample which involves placing a transfer surface in contact with the biological sample, and then focally altering the transfer surface to allow selective separation of the target from the biological sample. In disclosed embodiments, the target is a cell or cellular component of a tissue section and the transfer surface is a film that can be focally altered to adhere the target to the transfer surface. Subsequent separation of the film from the tissue section selectively removes the adhered target from the tissue section. The transfer surface is activated from within the target to adhere the target to the transfer surface, for example by heating the target to adhere it to a thermoplastic transfer surface. Such in situ activation can be achieved by exposing the biological sample to an immunoreagent that specifically binds to the target (or a component of the target).

Abstract: The present invention is directed to methods for conducting multiplexed assays. The methods are particularly well suited for measuring a plurality of analytes that may be present in very different abundances. The invention also relates to systems, devices, equipment, kits and reagents for use in such methods.

Abstract: The present invention relates to a method for determining an analyte in a sample. According to the method of the present invention, a probe is transferred from a stamp member onto an analyte that is bound to a support member. The present invention is particularly suitable for microarrays.

Abstract: A tag (1) for a laboratory sample cassette has a first layer (3). A chip (8) is mounted on a surface (7) of the first layer (3), and an antenna (6) is printed on the surface of the first layer (3). The antenna (6) is arranged to establish communication between the chip (8) and an electric or electronic read/write device. A second layer (4) is positioned and bonded against the surface (7) and has a hole (9) which passes through the second layer (4). The hole (9) contains the chip (8) and a third layer (5) covers the hole (9) from the opposite side to the first layer (3), the third layer (5) being bonded to the second layer (4). Thus, the antenna (6) and chip (8) are sealed within the tag (1). A plurality of perforations (10) are provided which pass through all the layers (3,4,5) of the tag (1) from one side of the tag (1) to an opposite side thereof to enable liquid to pass through the tag (1).

Abstract: A biosensor includes a substrate with a layer of receptive material disposed thereon overlying a layer containing a photo-reactive agent. The receptive material is specific for an analyte of interest. A pattern of active and inactive areas of the receptive material are defined in the receptive material layer by a masking process wherein the photo-reactive agent is activated in the exposed regions of the mask.

Abstract: The present invention provides methods for quantitation of glycated protein in a biological sample using a solid support matrix by making a first bound protein measurement total bound protein under conditions where both glycated and non-glycated protein bind to the support in making a second bound protein measurement under conditions where glycated protein is bound to the support and non-glycated protein is not substantially bound. Diagnostic devices and kits comprising the methods of the present invention are also provided.

Abstract: The invention relates to a filtration unit, comprising a membrane filter that can be disposed on a filter support of a bottom part and an attachment that can be placed on the bottom part, wherein the membrane filter has a reinforcing edge, and wherein the membrane filter can be clamped to a clamping part of a cover of a culture medium unit for removal purposes and introduced into the culture media unit. The invention further relates to a method for the microbiological analysis of liquid samples following a filtration process, wherein after removing an attachment a membrane filter is lifted off a filter support for pouring in the liquid sample and set down on a surface of a culture medium disposed in the bottom part of a culture medium unit, and the bottom part is covered by a cover. The cover is placed on the membrane resting on the filter support such that a clamping part present on the filter support clamps to a reinforcing edge of the membrane.

Abstract: An apparatus and method for tagging a specimen slide are described. The apparatus comprises a receiving region for receiving at least one cassette magazine, a reading unit for reading the machine-readable coded information of a cassette identifier of a cassette, and a tagging unit for generating a machine-readable coded information for tagging the specimen slide with a specimen slide identifier that depends on the cassette identifier. Data are transferred from the microtome to the apparatus via the data transfer path as soon as the cassette is inserted into the microtome, and only then can the machine-readable coded information for tagging the specimen slide be applied onto the specimen slide by the tagging unit.

Abstract: The systems of the invention include test cells with a first sorbent material defining a first flow path for a solution, a second sorbent material defining a second flow path distinct from the first flow path for a sample, and a test line or test site with immobilized antigens or antibodies or other ligand binding molecules such as aptamers, nucleic acids, etc. located at the junction of the first and second sorbent materials. The first and second sorbent strips touch each other at the test site location.

Abstract: The present invention provides a bar-code driven, completely automated, microplate-based analyzer system for performing chemical, biochemical or biological assays. The analyzer is a modular, bench-top instrument that compactly integrates subsystems for sample dispensing, liquid handling, microplate transport, thermal incubation, vortexing, solid phase separation and optical reading. An internal processor is included for automating the instrument, and a user interface to facilitate communication with the operator via a touch-sensitive liquid-crystal display (LCD), and communicating with a remote network via multiple protocols. The analyzer includes firmware resident within the processing system and the user interface allows the operator to select pre-defined assay batch protocols and the user interface is configured in such as way so as to restrict an operator from programming the firmware.

Abstract: The present invention relates to the field of molecular diagnostics, and in particular to diagnostics based on a liquid crystal assay format. In particular, the present invention provided improved substrates and methods of using liquid crystal assays for quantitating the amount of an analyte in a sample. The present invention also provides materials and methods for detecting non-specific binding of an analyte to a substrate by using a liquid crystal assasy format.

Abstract: A well plate assembly includes a well plate with a base wall, a peripheral wall extending up from the base wall and spaced inwardly from the outer periphery of the base wall. A well array is formed on the base wall at locations inwardly from the peripheral wall. A lid is mounted on the peripheral wall of the well plate. The lid and the peripheral wall have areas that are indented from the outer periphery of the base wall to facilitate manipulation by robotic stacking equipment. The well plate and the lid further include substantially registered robotic gripper plates aligned with the outer periphery of the base wall to facilitate manipulation of the assembled well plate and lid by robotic grippers.

Abstract: Methods and apparatus (FIG. 4a) are disclosed for selective and very sensitive detection of certain hydrolyzable compounds, especially urea, in water by hydrolyzing said hydrolyzable compounds in a sample of the water to one or more carbon dioxide group compounds and determining the difference in the carbon dioxide content of the water and the hydrolyzed sample using conductivity measurements or other carbon dioxide detector outputs.

Abstract: A system for the rapid characterization of analytes in saliva. In one embodiment, a system for detecting analytes includes a light source, a sensor array, and a detector. The sensor array is formed from a supporting member, in which a plurality of cavities may be formed. A series of chemically sensitive particles, in one embodiment, are positioned within the cavities. The particles may produce a signal when a receptor, coupled to the particle, interacts with the cardiovascular risk factor analyte and the particle-analyte complex is visualized using a visualization reagent. Using pattern recognition techniques, the analytes within a multi-analyte fluid may be characterized. In an embodiment, each cavity of the plurality of cavities is designed to capture and contain a specific size particle. Flexible projections may be positioned over each of the cavities to provide retention of the particles in the cavities.

Abstract: The present invention concerns a method and an apparatus for automatic staining of at least one tissue sample accommodated on a slide by applying reagents. The system may include at least one slide provided in a slide rack, a fluid containment element, a slide holder, a vertical slide positioner to pivot the slides to a vertical position, and a slide immerser element to immerse the vertical slide into a fluid containment element or even a dip tank. By pivoting the slides from a horizontal to a vertical position, an automated method and apparatus for carrying out a pretreatment in an automated staining apparatus may be provided. The pivoting of slides may ensure an appropriate orientation of the slides for both the pretreatment and the staining processes.

Abstract: Methods and devices are disclosed for microarray analysis. In one embodiment a method is disclosed for processing a non-standard size slide having an array of chemical compounds attached to a surface of the slide. A sample is exposed to the surface of the non-standard size slide wherein components in the sample bind to the chemical compounds on the surface of the slide. The sample and the slide are incubated under conditions for carrying out the binding reactions, and the surface of the non-standard size slide is examined for the results of the binding reactions. Prior to the exposing step or the incubating step or the examining step, the non-standard size slide is placed into a slide holder comprising a slide-holding section a slide-holding section adapted to dispose the non-standard size slide to a processing instrument in a manner similar to that for a standard size slide. The non-standard size slide may also include an identifier such as a bar code.

Abstract: Methods are disclosed for determining minute quantities of an analyte in a medium suspected of containing the analyte. One method comprises treating a medium suspected of containing an analyte under conditions such that the analyte, if present, causes a substrate having an oxidant cleavable linker and a photosensitizer to come into close proximity. The photosensitizer generates singlet oxygen which oxidatively cleaves the linker to form a product which can be detected in a sandwich detection assay such as LOCI. The amount of product detected is related to the amount of analyte in the medium. Compositions, kits, and compounds are also disclosed.

Abstract: Conjugates that include polymers that are reversibly self-associative in response to a stimulus and methods for using the conjugates.

Abstract: A flow cell device is incorporated in the sensor unit for surface plasmon resonance (SPR) assay. A box shaped flow cell body has a lower surface, and is disposed in contact of the lower surface with a sensing surface for detecting reaction of sample. Two flow channels are formed in the flow cell body, for flow of the sample. Each of the flow channels include a fluid passageway, formed in the lower surface, for flow of the sample in contact with the sensing surface. Two end cavities are formed in an upper surface of the flow cell body and open therein, to extend from ends of the fluid passageway. The flow channels are arranged adjacent to one another, disposed to extend in a direction of the flow. Fluid passageways of the flow channels are overlapped partially on one another in a flow cell longitudinal direction of the flow cell body.