Abstract: A microarray assembly for detection of a target molecule is disclosed. The microarray assemblies comprise an array chamber having a microarray located therein and features that facilitate liquid movement within the array chamber. Also disclosed are methods for making the microarray assembly using rollable films and methods for detecting microarray spots using an internal control fluorophore in the array spot.

Abstract: A microwell device is provided. The device includes a plate having a upper surface. The upper surface has first and second recesses formed therein. Each recess has an outer periphery. First and second portions of microwells are formed in upper surface of the plate. The first portion of microwells are spaced about the outer periphery of the first recess and the second portion of microwells spaced about the outer periphery of the first recess. A first barrier is about a first portions of the microwells for fluidicly isolating the first portion of the microwells and a second barrier about a second portions of microwells for fluidicly isolating the second portion of the microwells.

Abstract: The invention concerns an analyzer, typically for analyzing body fluids, which has one or several exchangeable cassettes (consumables) that contain operating liquids, operating materials and/or consumables and can be inserted into corresponding holders of the analyzer, wherein the analyzer has a system for exchanging ambient air which has a filter unit on the inlet side of the analyzer to filter the ambient air that needs to be exchanged. The filter unit is integrated into at least one of the exchangeable cassettes in order to minimize the amount of maintenance for the analyzer.

Abstract: Multiplex binding assay assemblies are disclosed. The assemblies include at least one assay bar that has a top side, a bottom side, and at least one well accessible from the top side of the assay bar, with each well including a side surface, a bottom surface, an open top end. Each well also includes at least one secondary container, with each secondary container including a capillary tube that (i) begins at a location within an interior volume of the well and (ii) ends at a location beneath the bottom side of the assay bar. The assemblies further include a guiding track, which includes a set of two rails, with each rail having its own separate groove. Such grooves are configured to run parallel to each other with a distance between such grooves, with a first groove configured to receive a protruding element (or an end) of a first side of the assay bar, and a second groove configured to receive a protruding element (or an end) of a second side of the assay bar.

Abstract: The invention relates to an analytical test element for analysis of a liquid sample. The analytical test element may contain a channel which is suitable for capillary transport of the liquid sample and which is provided with an inlet opening for the liquid sample and with an air outlet opening. At least one test field may be arranged in the channel, spaced apart from the inlet opening. The test element comprises a sample application site which is closed with a seal and which is designed in such a way that, when the seal is opened, the sample application site and the inlet opening of the channel are simultaneously open to the outside environment of the test element. The test element can then receive the liquid sample inside the channel via the sample application site and inlet opening, for analysis in the test field. The invention also relates to a test element magazine and to a system for analysis of liquid samples with at least one test element.

Abstract: Pressure equalizing device comprising a fluid container for attachment to a receptacle such as a vial to permit pressure equalization between the fluid container and the receptacle. The pressure equalizing device comprises a flow channel that is arranged to provide fluid communication into or out of the fluid container when the pressure equalizing device is attached to the receptacle. The pressure equalizing device also comprises a fluid inlet that contains a one-way valve that permits fluid to flow into the fluid container via said fluid inlet and that prevents fluid from flowing out of the fluid container via said fluid inlet and filter-receiving means that are arranged to permit fluid flowing into or out of the fluid container to be filtered when the filter-receiving means comprises a filter.

Abstract: The present invention provides new and useful features and mechanisms for the localization and transport of biopsy specimens. The invention having a specimen board, an absorbent material in operative engagement and in coplanar alignment with the specimen board, a compression sheet, radio opaque indicia located within the specimen board, and a flexible connection between the compression sheet and the specimen board, and an attachment device which provides for removable engagement of the specimen board and compression sheet. The apparatus further provides for a clear visualization window and operating instructions. The absorbent material is capable of adjustable movement between a first and second position, providing orthogonal positioning relative to the specimen board. As a result, the apparatus may be used to create three dimensional radiographic images allowing tissue analysis resulting in orthogonal views while maintaining original positional reference points.

Abstract: An apparatus for processing an analyte includes a first receptacle having a first aperture, the first aperture having a first configuration; and a second receptacle having a second aperture, the second aperture having a second configuration. The first configuration and the second configuration are complementary, such that the first and second apertures engage each other at a sealing surface, whereby analyte solution within the first receptacle passes into the second receptacle substantially without leaking at the engaged first and second apertures. A method for processing an analyte comprises engaging the first and second receptacles at the sealing surface; putting a first batch of analyte solution into the first receptacle, processing the analyte solution; transferring the processed analyte solution into the second receptacle, and disengaging the second receptacle from the first receptacle.

Abstract: Laboratory device design particularly for a multiplate format that includes a plate or tray having a plurality of wells, and a drain in fluid communication with each of the plurality of wells. The plate is a one-piece design having a honeycomb structure that brings high rigidity to the plate in order to accept very high centrifugal load. The design also maximizes the well volume and active filtration area while remaining in compliance with SBS format.

Abstract: This invention provides methods of retentate chromatography for resolving analytes in a sample. The methods involve adsorbing the analytes to a substrate under a plurality of different selectivity conditions, and detecting the analytes retained on the substrate by desorption spectrometry. The methods are useful in biology and medicine, including clinical diagnostics and drug discovery.

Abstract: The present invention relates to a method and apparatus for analyzing a blood or other biological fluid sample in a quiescent state, whereby particulate constituents of biological samples that contain sparse populations of interesting cellular species can be enumerated and inspected using an optical scanning instrument. Specifically, this invention relates to a method and apparatus for obtaining increased cellular or particulate concentrations within the use of said optical scanning method.

Abstract: An apparatus to lyophilize, store, transport, rehydrate, and process aqueous biological materials in a container which maintains sterility of its contents, allows container shrinkage after lyophilization, and optimally permits filtration or dialysis of the contents in situ, without the need for a second or series of additional containers. These benefits are met by a microporous container constructed of a membrane that is water vapor permeable, yet water impermeable.

Abstract: An integrated proteomics sample preparation device and method for in-gel digestion of proteins and for desalting and concentrating samples prior to further analysis such as by MALDI TOF and/or electro-spray ionization (ESI) mass spectrometry. The device and method of the present invention allow for digestion, desalting and concentration of sample prior to analysis. More specifically, the device in accordance with an embodiment of the present invention includes a plurality of wells in fluid communication with a an outlet or drainage opening containing a three dimensional structure comprising a plurality of sorptive particles entrapped in a porous polymer matrix so as to form a device capable of carrying out solid phase extraction. In a preferred embodiment, the wells are configured so as to prevent a sample carrier present in the wells from clogging the outlet when subjected to a driving force such as vacuum.

Abstract: A sample carrier generally comprises a sample node operative to carry a discrete sample and an identifier co-located with the sample node and operative to provide information associated with the sample. A sample carrier receiver may comprise a container having a first opening configured to receive the sample node and a second opening configured to receive a specimen. Embodiments of a sample carrier receiver may include one or more conduit systems configured and operative to distribute liquid specimen material to the second opening of the container.

Abstract: Disclosed are tools and techniques that can be used to rapidly and inexpensively obtain microorganisms from biological samples collected on swabs. The disclosed swab extraction systems and methods can speed diagnostic procedures and expedite therapeutic intervention, thereby improving patient outcomes.

Abstract: The invention relates to novel analysis slides or substrates with a closed configuration. The slides may be used for any application which normally utilizes a conventional microscope slide and can be used in conjunction with any type of equipment typically used to manipulate or evaluate a standard microscope slide. In particular, the invention provides closed slides for covalent immobilization of polypeptides and nucleic acids. Further provided are methods for carrying out biological assays using arrays of biomolecules immobilized on the slides of the invention. The arrays of the invention are comprised of a unique meandering or straight channel design as compared to the rectangular design of conventional arrays.

Abstract: A method for assembling a multiwell plate assembly, and a multiwell plate assembly prepared thereby, are provided. The method includes providing a lid for a multiwell plate body having at least one channel being formed therethrough; positioning the lid in proximity to a gasket member; applying sufficient negative pressure to the channel to draw the gasket member towards the lid; positioning the lid above a multiwell plate body, while continuing to apply negative pressure to the channel; emplacing the lid on the multiwell plate body; and, releasing the negative pressure from the channel. Advantageously, as will be recognized by those skilled in the art, various gasket members can be used in conjunction with the subject method, without altering the method. In this manner, gaskets can be selected based on their suitability for use with various biological and/or chemical samples which may be used in the bioassays.

Abstract: A sample carrier comprises a structural array and a plurality of sample nodes. Each of the plurality of sample nodes is removably attached to the structural array at a respective attachment point, and is operative to carry a discrete sample which may be biological, including proteins, polynucleotides, and DNA, or non-biological. Embodiments are disclosed wherein the sample carrier comprises a plurality of structural arrays, which may be supported in a predetermined spatial relationship relative to a respective sample container, such as a respective well of a multi-well plate. A system and method of transferring specimens to sample carriers include contacting the plurality of sample nodes to the specimen. Various alternatives are disclosed wherein the specimen is solid, gaseous, and liquid in form.

Abstract: The present invention relates to the field of diagnostics by means of microscopic sample analysis, and specifically relates to a method and apparatus for preparing thin microscopic samples of liquids, and in particular monolayers of red blood cells.

Abstract: A vial-based system and method for handling and processing specimens of particulate matter-containing liquid directly in the vial. A processing assembly, which includes a stirrer and a particulate matter separation chamber, is releasably coupled to the inside of the vial cover. The processing assembly remains with the cover when the vial is opened to insert a specimen therein. Application of a particular external force to the closed vial detaches the processing assembly from the cover so that it remains in the vial, for access by automated or manual laboratory equipment, when the cover is subsequently removed.

Abstract: A container assembly provides for the collection, transporting, and dispensing of a fluid specimen. The container assembly includes a cup-shaped container having an open end for collecting the fluid specimen. A lid is attachable to the container to close the open end thereof. The lid includes a receptacle for providing communication with the collected fluid specimen through the cover and for permitting extraction of a sample therefrom. A self-sealing closure member is supported by the lid in the receptacle and seals the receptacle preventing fluid leakage. The extraction device may be used to extract a sample of the fluid specimen. The extraction device is insertable into the receptacle to permit such extraction. Upon removal of the extraction device, the self-sealing closure reseals the container and prevents fluid leakage into the receptacle.

Abstract: The present invention relates to an improved microplate which is constructed of at least one frame part and at least one bottom part, where the bottom part has a maximum thickness of 500 &mgr;m.

Abstract: An apparatus is provided for simultaneous processing of multiple fluid samples. The apparatus comprises a multiple well plate for holding a plurality of sample reservoirs for simultaneous processing of multiple samples. The wells are configured in the plate in staggered rows. The well plate is dimensioned to be compatible with a vacuum manifold or positive pressure system either as a stand-alone unit or in conjunction with a separate fluid handling system. The apparatus may further comprise a sample collection plate having the same number of wells as the multiple well plate. The wells in the samples collection plate are arranged in the same staggered configuration as the wells in the well plate and are sized for holding sample collection vials. When the well plate and sample collection plate are assembled in a manifold, the vials in the sample collection plated are aligned directly beneath the sample exits of corresponding sample reservoirs in the well plate.

Abstract: The invention describes a process for preparing a microtiter-microarray device that includes a bottomless microtiter plate attached to the first side of one or more substrates with microarrays of materials attached thereto. The microtiter plate and the one or more substrates are attached through one or more gaskets. Preferably, the microtiter plate is attached to one face of the one or more gaskets by an irreversible water-tight seal, and the first side of the one or more substrates is attached to the opposite face of the one or more gaskets by a reversible, water-tight seal.

Abstract: A multiple well plate and method for media exchange, including a body defining a plurality of cell wells each connected via a channel to one of a plurality of aspiration holes, is provided. The cell wells contain a porous, hydrophilic frit which is suspended on a ledge above a reservoir of fluid media and supports a tissue sample. The properties of the frit wick the fluid media upwards to supply the tissue sample with nutrients for growth and proliferation. Old media is aspirated from the wells by a liquid handling device which inserts a pipette tip into the aspiration holes. The pipette tip applies a suction pressure which draws the media out of the cell well, through the channel, into the aspiration hole and out through the pipette tip. New media is dispersed through the pipette tip and directly into the cell well.

Abstract: A collection and testing cup for fluid characterization is disclosed. The cup has a lid assembly with a tamper evident closure; a cylinder that extends into the fluid in the collection cup, also with a tamper evident closure; a piston with a conduit and one-way valve through which a portion of the fluid can be forced into an isolation chamber separate from the main collection cup for testing. The lid assembly cylinder is configured with an aperture or passage near the bottom of the cylinder to allow a small portion of fluid to enter the lower portion of the cylinder from the collection cup chamber and a piston with a central conduit and valve initially positioned near the top of the cylinder adjacent to the lid.

Abstract: A sample carrier comprising a top wall, a base, and a support wall joining the top wall and the base. The top wall includes aligned, spaced-apart openings on at least one side of the support wall which are sized to receive sample tubes. Sleeves depending from the top wall and circumscribing each opening direct sample tubes into sample tube holding areas. The sample tube holding areas each include one or more retaining walls extending upward from the base opposite the support wall. Springs extending outward from the support wall bias sample tubes against the retaining walls. A drip shield comprising a cover plate, a pair of through-holes for accessing sample tubes in the sample carrier, and a depending fin which separates sample tubes on opposite sides of the support wall protects against cross-contamination between sample tubes held by the sample carrier.

Abstract: A test device adapted to test a concentration of an analyte in a fluid has a pickup area having a first volume for receiving the fluid. In fluid communication with the pickup area is a read area having a second volume, which is less than the first volume. Since the second volume is less than the first volume, fluid from the pickup area will flow into the read area only after the pickup area is full. The read area also contains a reagent that is adapted to indicate the concentration of the analyte in the fluid.

Abstract: Multi-layer microfluidic splitting devices are provided. A common fluid inlet fluidly communicates with a branching channel network that evenly divides a fluid flow to a plurality of outlets. Even splitting is provided by maintaining substantially equal fluidic impedance across all branch channels. Substantially equal fluidic impedance may be provided by maintaining a substantially equal flow path length between the common inlet and each of the outlets. The use of multiple device layers permits fabrication of such a device without geometrically complex channel structures, high feature density, and two-dimensional outlet arrays.

Abstract: A flow of liquids is carried out on a microscale utilizing surface effects to guide the liquid on flow paths to maintain laminar flow. No sidewall confining structure is required, minimizing resistance to flow and allowing laminar flow to be maintained at high flow rates. The guiding structure has flow guiding stripes formed on one or both of facing base and cover surfaces which are wettable by a selected liquid to direct the liquid from a source location to a destination location. The regions adjacent to the guiding stripes on the base and cover surfaces are non-wettable. The smooth interface between the gas and liquid along the flowing stream allows gas-liquid reactions to take place as a function of diffusion across the interface without mixing of the gas and liquid. Liquid-liquid flows may also be guided with such structures.

Abstract: An adapter plate transforms a vacuum manifold designed for standard multi-well plates that are commonly used in biochemical laboratories into one that can be used for columns such as chromatographic columns, filtration columns, and the like. The plate contains an array of male-female-type complementary connectors, each connector fitted with a removable plug that seals the connector off when not in use. The plate thus allows the manifold to be used for as few as one column or any number up to the total number of connectors in the plate.

Abstract: A method of screening protein crystal growth conditions with picogram to microgram amounts of protein in picoliter or nanoliter volumes is provided. A preferred method comprises a microarray with a plurality of micro-chambers in the microarray. A protein solution is placed into the micro-chambers by an automated dispensing mechanism. The protein crystal growth conditions of each of the micro-chambers is adjusted so that the protein crystal growth conditions in at least two of the micro-chambers differs. Crystallization of the protein solution in the micro-chambers is effected. Protein crystal growth in the micro-chambers is then observed.