Abstract: An apparatus and method of loading reagent in a specimen handling device is disclosed, where the apparatus includes a deck with a plurality of positions defined thereon and each of the positions visually marked by a distinct one of a first set of icons. Each of a plurality of trays is removably securable to a selected one of the positions on the deck and includes the distinct one of the first set of icons visually marking the selected one of the positions. Reagent receptacles on each of the plurality of trays are visually marked by a distinct one of a second set of icons, and a kit is provided with a plurality of containers with selected reagents therein, each of the containers being visually marked by the distinct one of the second set of icons visually marking the receptacle into which that reagent is to be poured. The fluids including specimen samples and reagents are moved between tubes during processing without directly passing over tubes which the reagents could contaminate.

Abstract: The invention provides a device including a chamber wherein the chamber including a rigid enclosure; a rigid lid for the enclosure; a gasket between the lid and the enclosure to allow for an airtight seal between the enclosure and the gasket upon closure of a latch connecting the enclosure and the lid; a port for airtight attachment of a syringe, and a port for airtight insertion of a gas sensor. The device can further include a gas sensor and one or more syringes for attachment to the device by a three-way stopcocks. The device is appropriately sized for use with the subject of interest. The invention also provides methods for use of the device.

Abstract: An assay apparatus comprising: i) an assay cartridge (52, 53) comprising at least one well (57-62) and a pipette (50) positionable in at least one said well; ii) a holder arranged to receive said cartridge; iii) drive means operable to position said pipette in selected wells of said cartridge; iv) a gas pressure applicator couplable to said pipette whereby to cause liquid flow through said membrane; and v) a radiation detector operable to detect radiation from a well of said cartridge or from said pipette.

Abstract: The invention concerns a device for synthesis of radiopharmaceutical products based on chemical reagents contained in bottles, said device comprising several reaction compartments, transfer means between said bottles and said reaction compartments as well as mechanical means acting on said transfer means and enabling to monitor and control mechanically the transfer of chemical reagents. The invention is characterized in that it comprises: a fixed module including at least the mechanical means; a removable and disposable module, essentially in the shape of a support, whereon are arranged the transfer means between said bottles and said reaction compartments, said removable and disposable module not including any mechanical means; and means for securing said removable and disposable module to said fixed module.

Abstract: Improved systems and methods for tissue processing are described here. The chemical process and the construction of the apparatus are simplified by using only two different solutions in two separate reaction modules. They are compatible with processing of tissue specimens for genetic analysis, histology, in situ antibody binding and hybridization, archival preservation of morphology and nucleic acids, and combinations thereof.

Abstract: The technology described herein generally relates to systems for extracting polynucleotides from multiple samples, particularly from biological samples, and additionally to systems that subsequently amplify and detect the extracted polynucleotides. The technology more particularly relates to microfluidic systems that carry out PCR on multiple samples of nucleotides of interest within microfluidic channels, and detect those nucleotides. The technology still more particularly relates to automated devices for carrying out pipetting operations, particularly on samples in parallel, consistent with sample preparation and delivery of PCR-ready nucleotide extracts to a cartridge wherein PCR is run.

Abstract: The invention relates to using heterobimetallic coordination polymers and their uses as chemodosimeters for sensing materials for the screening of specific biogenic amines.

Abstract: An analytical chip and analyzer are disclosed. The analytical chip comprises a substrate and reaction cells that are formed in the substrate for receiving a sample collected from a living body. A reagent storage portion is used to store reagents to be supplied to the reaction cells. Flow paths are provided to connect the reaction cells to the reagent storage portions, thereby allowing the reagents stored in the reagent storage portions to flow into the reaction cells.

Abstract: Improved systems and methods are provided for monitoring compliance with an order for a patient specimen. Broadly, an inventive system incorporates a machine readable wireless identification and sensor technology to provide feedback to a caregiver regarding compliance with a specimen order. In particular, a system for monitoring compliance with an order for a specimen is provided which includes a specimen container having an attached machine readable wireless tag. The tag contains specimen container characteristic information. The tagged container aids in indicating to a user whether the correct specimen container type has been chosen. Further, a system is provided which includes a sensor useful in indicating whether a sufficient quantity of specimen has been obtained in order to perform the requested laboratory test as part of the patient's care.

Abstract: Provided are a droplet emitting apparatus and a method of emitting droplets using the same. The apparatus includes a solution tank for containing a solution; a nozzle including an opening through which at least a droplet of the solution is emitted; and a voltage generator including a piezoelectric material for generating a voltage by instantaneous pressure application, wherein the voltage generated by the pressure to the piezoelectric material is applied to the solution in order for the at least a droplet of the solution to be emitted through the nozzle.

Abstract: Carriers or holders for holding microfluidic devices are provided. Some of the carriers that are provided include a hydration control device and/or a source of controlled fluid pressure to facilitate use of the carrier in conducting various types of analyses.

Abstract: A reagent cabinet for an automated processing apparatus. The reagent cabinet has a housing, and a drawer slidably mounted in the housing. The drawer has a lower deck adapted to receive a fluid reservoir, and an upper deck located above the lower deck and adapted to receive a fluid supply container. A supply connection hose is provided to selectively connect the fluid supply container to the fluid reservoir. A reservoir connection hose is provided to selectively connect to the fluid reservoir and to convey fluid from the fluid reservoir to a downstream location outside the cabinet. A pump is mounted on the drawer. The pump is adapted to convey fluid through either the supply connection hose or the reservoir connection hose.

Abstract: This invention is in the field of medical devices. Specifically, the present invention provides portable medical devices that allow real-time detection of analytes from a biological fluid. The methods and devices are particularly useful for providing point-of-care testing for a variety of medical applications.

Abstract: The present invention provides an apparatus for discharging packing material from a sample column which is capable of removing the packing material such as activated carbon from the sample column for analysis having a tube shape smoothly and more certainly, and can be suitably used in the case where the packing material thus removed is supplied to an analyzer, etc.

Abstract: A tissue infiltration apparatus (1) for specimens present in cassettes (5) comprises at least two liquid containers (7, 11, 13, 15) and a transport apparatus (6). Multiple cassettes (5) are receivable in a transport basket (4). The transport apparatus (6) is configured in such a way that at least two transport baskets (4) are transportable in the tissue infiltration apparatus (1). A transport basket (4) is deliverable to, and/or movable away from, a liquid container (7, 11, 13, 15) with the transport apparatus (6). An execution sequence (21) in which the transport baskets (4) pass through the liquid containers (7, 11, 13, 15) is definable. To enable accelerated or preferred processing of a transport basket (4) with the tissue infiltration apparatus (1), at least one means (8) is provided with which the order of two transport baskets (4) is definably modifiable.

Abstract: The present invention relates to a method of processing analyte using a portable incubator apparatus. The incubator apparatus 10 has a plurality of cavities 20 each configured to receive analyte to be incubated. The method comprises: receiving analyte in each of the plurality of cavities; incubating the analyte in the plurality of cavities, the incubator apparatus being operable to control temperatures of analyte contained in the plurality of cavities independently of each other; and moving the incubator apparatus from a first location to a second location while the analyte is being incubated, the incubator apparatus being configured to maintain desired incubation conditions independently of a supply of electrical power and apparatus external to the incubator apparatus as the incubator apparatus is being moved.

Abstract: To shorten the time required for an oscillation frequency to stabilize in a sensing device sensing a substance to be sensed by using the fact that a natural frequency of a piezoelectric resonator changes when the substance to be sensed is adsorbed by an adsorption layer formed on the piezoelectric resonator. A sensing device includes: an oscillator circuit 4 oscillating a quartz-crystal resonator 12; and an intense excitation circuit that is formed by the oscillator circuit 4 including a series circuit of a resistor 52 and a third transistor 53 of PNP type and that intensely excites the quartz-crystal resonator 12 connected to the oscillator circuit 4 for a period of time preset by a one-shot circuit 22 by supplying the quartz-crystal resonator 12 with high power equal to or more than twice regular power supplied at the time of the measurement of the substance to be sensed, to stabilize the oscillation of the quartz-crystal resonator 12.

Abstract: A single disposable cartridge for performing a process on a particle, such as particle sorting, encapsulates all fluid contact surfaces in the cartridge for use with microfluidic particle processing technology. The cartridge interfaces with an operating system for effecting particle processing. The encapsulation of the fluid contact surfaces insures, improves or promotes operator isolation and/or product isolation. The cartridge may employ any suitable technique for processing particles.

Abstract: The purpose of the present invention is to propose a reliable, economically viable autoclave that also allows rapid heat treatment of food or pharmaceutical products in industrial quantities. To this end, the subject of the invention is a system for shaking items, inside a device under pressure, comprising a chamber (100) equipped with a heating means (110) and with a pressurizing means (115), and a storage basket (200) for the items (P) coupled to a translational shaking means (300, 310-320-330-340), wherein the basket (200) is slidably mounted on a chassis (400) exhibiting a platform (410) supported by support columns (420) passing through the chamber (100) in a fluidtight and decoupled manner and intended to be secured to an immovable support (600).

Abstract: A liquid dispenser for a microfluidic assay system is described. The dispenser includes at least one transfer pin for transferring a microfluidic sample of liquid to a target receptacle. A pin tip at one end of the transfer pin is structured to cooperate with an opening in the target receptacle. The tip uses a high voltage potential to transfer the sample from the pin to the receptacle.

Abstract: A blood glucose meter having a compact housing, a display unit disposed on the housing, the display unit including a display light source to illuminate the display unit, an input unit disposed on the housing, the input unit configured to provide input functions for the blood glucose meter, and a power source provided within the housing for providing power to the blood glucose meter, where the housing includes a port integrated on said housing configured to receive a blood glucose test strip, and corresponding methods of measuring blood glucose meter is provided.

Abstract: The present invention relates to a wicking inhibitor for fluidic and microfluidic devices that reduces wicking by providing a structure that interrupts the flow of a working fluid through a fluidic channel interface having corner angles greater than ninety degrees.

Abstract: A method and device for separating from samples magnetic particles that contain capture compounds on their surfaces. The device includes a sheath including a magnet and including orienting pin adapted to concentrate or direct a magnetic field of the magnet; and a magnetizable plate with lid holes for receiving a vessel lid of a vessel, the magnetizable plate configured to receive the sheath and position the orienting pin over the vessel lid. In one method, magnetic beads with attached molecules are collected in the lids of the reaction vessel by the magnetic separator device provided herein and the separated magnetic particles, which carry the molecules of interest through affinity-based attachment chemistry and are held in the lid by the magnet of the device, are released into a new vessel containing a solution by removal of the separator device without the need for pipettes or liquid handling devices.

Abstract: A microfluidics system comprising a channel having an inlet (32) and an outlet (38); a first membrane (31) positioned between the inlet (32) and outlet (38) and comprising an aperture having a radius within the range 0.1 to 50 ?m, the inlet (32) and the outlet (38) being in hydraulic communication with one another, such that a fluid can move along the channel from the inlet to the outlet.

Abstract: An apparatus and method for picking up, transporting and depositing microscopic samples. Such an apparatus includes at least one interchangeable adhesive body and a gripping tool for picking up, transporting and depositing the adhesive body, the adhesive body having at least one outwardly curved surface which is at least partially adhesive with respect to the sample. In this method, a gripping tool picks up an adhesive body having an at least partially outwardly curved surface which is at least partially adhesive with respect to the sample. The gripping tool then guides the adhesive body to above the sample. The at least partially curved surface of the adhesive body is then brought into contact with the sample, the sample adheres to the surface of the adhesive body when this is being removed from the sample location, and is finally deposited at the depositing location.

Abstract: The present invention discloses a rotating mechanism for rotationally driving a solid-solid direct-heating reaction disc, comprising a fixed hollow shaft, a rotating sleeve assembly and a signal commutator, wherein the fixed hollow shaft is fixed, the rotating sleeve assembly rotatably surrounds the fixed hollow shaft, the reaction disc is supported by the rotating sleeve assembly so as to rotate along with the rotating sleeve assembly, and the signal commutator has a stationary end fixed to the fixed hollow shaft and a moving end co-rotating with the rotating sleeve assembly. By the rotating mechanism, the signal commutator is hold, and signal input and output between the moving end and the stationary end can be achieved.

Abstract: An analytical test element is provided having a surface comprising a chemical detection layer on which a spreading net is disposed, the spreading net being configured to provide for the planar distribution of a liquid sample on the detection layer. The spreading net generally comprises a filament structure coated with a metallic layer that is oxidized at least on one or more surface portions thereof facing the detection layer.

Abstract: Biological fluid samples are deposited by methods that produce a uniform layer of the sample over a reagent-containing surface. In one embodiment, a nozzle having multiple openings is used to deposit a sample over the reagent-containing surface simultaneously. In an alternative embodiment, single droplets of the sample are deposited in a pattern on the surface, preferably in a sequence of parallel lines. The reaction between the biological sample and the reagents is read from a spectrographic image of the reagent-containing surface obtained by optical methods.

Abstract: A measurement system is provided which comprises an analysis device with at least one of a measurement function and a sample collection function, and also at least one magazine configured to receive at least one consumer element therein. The magazine comprises a magazine housing having a pair of openings. The magazine is designed as an exchangeable magazine that can be selectively operatively connected to the analysis device. The analysis device further comprises a closure mechanism having at least one sealing element which is designed to convey at least one consumer element from one of the openings. The sealing element is further configured to sealingly close the openings of the magazine when the sealing element is disposed therein.

Abstract: The fluidic system with an unclogging feature of the preferred embodiment includes a flow channel, a sheath pump to pump sheath fluid from a sheath container into an interrogation zone, and a waste pump to pump waste fluid from the interrogation zone into a waste container. The sheath pump and/or the waste pump draw sample fluid from a sample container into the interrogation zone. The fluidic system also includes a controller to adjust the flow rate of the sample fluid from the sample container into the interrogation zone. The pump and controller cooperate to propagate a pulsation through the flow channel from the pump if the flow channel is clogged. The fluidic system is preferably incorporated into a flow cytometer with a flow cell that includes the interrogation zone.

Abstract: The invention relates to a specimen carrier for the study of cell growth, comprising a substrate with a reservoir with a bottom, wherein the reservoir is filled up to a predetermined height of the side wall, which is smaller than the complete height of the reservoir, with a carrier material for cell growth and the side wall of the reservoir is formed such that a predetermined contact angle of the carrier material can be adjusted with respect to the side wall.

Abstract: A method and apparatus for conducting specific binding assays are claimed. This invention relates to an initial non-receptor ligand interaction with nanoparticles or other solid phases followed by specific detection methods used for detecting biological, chemical or environmental entities. This invention employs an on-device ligand attachment to nanoparticles or other solid phase followed by the specific capture in discrete zones on the device. The ligand-bound complexes assemble on the ligand specific capture zone leading to a visible diagnostic result, if colored solid phases are employed.

Abstract: A support device for a cytocentrifuge sample container includes a support body including spaced edge fingers and a clip hinged to the support body. The clip has a latch for each spaced edge finger of the support body and edge members each including lugs engaging slotted ledges in the sample container.

Abstract: A vascular access device for communicating with the vascular system of a patient may include a status indicator. The status indicator may detect and signal that a period of time has elapsed in relation to the use of the vascular access device.

Abstract: A health monitoring and diagnostic device (LIFESTREAM cholesterol meter) configured as a self-contained testing and diagnostic unit in a clam-shell type case. One side of the case includes a spring-loaded finger stick and a compartment for carrying one or more packages of disposable items including a test strip, a needle for the finger stick, and an alcohol swipe. The other half of the case includes a test strip reader, a key pad, and a liquid crystal display. The meter reads a test strip carrying a droplet of blood and receives additional diagnostic information from the patient, such as age, gender, weight, and family history of heart disease. Within minutes, the meter displays test results, including total cholesterol levels. The meter also displays additional diagnostic results, such as the patient's “cardiac age,” recommended weight loss, and a cardiac risk assessment. The meter also works in connection with a network-based comprehensive health analysis and reporting system.

Abstract: The present invention provides a method of detecting or diagnosing a neurodegenerative disease or condition in a subject. Further aspects of the invention provide a method of monitoring a subject over a period of time to detect the development or progress of a neurodegenerative disease or condition. Methods of treating, detecting or diagnosing a neurodegenerative disease or condition in a subject are also provided.

Abstract: Manifold and probe assembly for use a bioprocessing vessel. The manifold has a chamber which communicates with the interior of the vessel and a plurality of ports which communicate with the chamber. Elongated sensing probes are threadedly connected to the ports with end portions of the probes extending into the chamber. Gaskets having generally annular bodies with conically inclined beveled faces are mounted on the end portions of the probes, with the beveled faces engaging conically inclined surfaces of seats in the ports and the gaskets being axially compressed and radially expanded into sealing engagement with the probes. The seating surfaces have inner and outer sections with different angles of inclination which produce greater radial expansion and tighter sealing with the probes.

Abstract: A device for positioning a component thereof along x- and y-axes of the device is provided. The device includes first and second motors, a carriage containing the component to be positioned, a lead screw to position the carriage along a first axis of the device, and a keyed shaft to position component to be positioned along a second axis of the device. The first motor drives the lead screw and the second motor drives the flatted shaft. In some embodiments described herein, the flatted shaft turns a first pulley, which is connected to a second pulley by a belt. The component to be positioned is attached to the belt and moves along a second axis of the device as the belt moves.

Abstract: An instrument for performing highly accurate PCR employing an assembly, a heated cover, and an internal computer, is provided. The assembly is made up of a sample block, a number of Peltier thermal electric devices, and a heat sink, clamped together. A control algorithm manipulates the current supplied to thermoelectric coolers such that the dynamic thermal performance of a block can be controlled so that pre-defined thermal profiles of sample temperature can be executed. The sample temperature is calculated instead of measured using a design specific model and equations. The control software includes calibration diagnostics which permit variation in the performance of thermoelectric coolers from instrument to instrument to be compensated for such that all instruments perform identically. The block/heat sink assembly can be changed to another of the same or different design.

Abstract: By the conventional technique for dispensing more than one reagents accurately, the system is complicated and thus a compact and inexpensive system is difficult to realize. In the present invention, the pressurized dispensing system utilizing a capillary is realized, and in addition, in order to reduce the leakage of reagents different from the reagent dispensed, by forming air layers at the tips of the capillaries after dispensing, a compact, simple, inexpensive analysis apparatus is realized.

Abstract: An apparatus for analyzing biologic fluid is provided that includes first and second planar members, and at least three separators. At least one of the first planar member and second planar member is transparent. The separators are disposed between the planar members, and each individually has a height. The separators collectively having a mean height, and separate the planar members to form a chamber having a height extending between the planar members. At least one of the first planar member, second planar member, or separators is sufficiently deformable when the first planar member and second planar member are drawn toward each other by capillary force from a biologic fluid quiescently residing within the chamber to cause the mean chamber height to be substantially equal to the mean height of the separators.

Abstract: The invention relates to compositions comprising a hydrogel matrix, where the matrix comprises poly(ethylene glycol) dimethyacrylate (PEGDMA), an acrylate, such as methacrylic acid (MAA) and methyl methacrylate (MMA), as well as 2-hydroxy-2 methyl propiophenone (HMPP).

Abstract: A reaction tank for causing a reaction for analyzing a specimen in a humidity-applied atmosphere in a storage vessel, includes a humidifying unit that includes a water reservoir reserving water and a humidifier releasing moisture of the water reservoir to an inside of the storage vessel, the humidifying unit humidifying the inside of the storage vessel, and a humidity detector that detects humidity inside the storage vessel. An operation of the humidifier of the humidifying unit is turned ON when the humidity inside the storage vessel becomes lower than a predetermined suitable humidity whereas the operation of the humidifier of the humidifying unit is turned OFF when the humidity inside the storage vessel exceeds the predetermined suitable humidity.

Abstract: A slide processing apparatus is disclosed. The apparatus comprise a liquid transporter for transporting a staining liquid reserved in a first liquid container and a washing liquid reserved in a second liquid container; a first instruction receiver for receiving a first instruction that instructs to initiate preparation of a slide stained with the staining liquid; a second instruction receiver for receiving a second instruction that instructs to initiate washing of a housing element which accommodates therein a slide to be stained; and a controller. When receiving the first instruction, the controller performs staining of the slide accommodated in the housing element by causing the liquid transporter to transport the staining liquid into the housing element. When receiving the second instruction, the controller performs washing of the housing element by causing the liquid transport to transport the washing liquid into the housing element.

Abstract: An apparatus for treating slides has a base with a cavity, and a heater is located on a surface of the cavity. A tank, which supports a slide rack with the slides submerged in a slide treatment solution, is placed in the cavity with a tank surface immediately adjacent the heater. A temperature sensor is mounted in the base and is operable to provide a feedback signal representing a temperature of the liquid in the tank. A cover is removably hinged on the base to cover the tank. A control system is connected to the heater and the temperature sensor and has a user input/output that is operable to select a set temperature of the liquid and a cycle time.

Abstract: The invention features devices and methods for the deterministic separation of particles. Exemplary methods include the enrichment of a sample in a desired particle or the alteration of a desired particle in the device. The devices and methods are advantageously employed to enrich for rare cells, e.g., fetal cells, present in a sample, e.g., maternal blood and rare cell components, e.g., fetal cell nuclei. The invention further provides a method for preferentially lysing cells of interest in a sample, e.g., to extract clinical information from a cellular component, e.g., a nucleus, of the cells of interest. In general, the method employs differential lysis between the cells of interest and other cells (e.g., other nucleated cells) in the sample.

Abstract: Pressure fluctuations are sampled at fixed time intervals and subjected to arithmetic processing, using as a trigger the event (or a sign temporally close to that event) of the reverse motor rotation for the backlash correction, thereby discriminating normal suction from suction of sample liquid with undesirable air bubbles.

Abstract: A positive displacement pump (1) is equipped with a pump cylinder (2), a pump piston (7), a cylinder space (9), a pressure sensor (10), and a pressure channel (12). A main portion (13) of the pressure channel (12) extends parallel to a longitudinal axis (3) of the pump cylinder (2), for providing fluidic connection between the cylinder space (9) and the pressure sensor (10). In the improved alternative positive displacement pump (1), the main portion (13) of the pressure channel (12) is located inside of the pump cylinder (2) or pump piston (7) and extends, at least in a foremost position of the pump piston (7), from a cylinder bottom (5) beyond or to an opening (11,11?) in the cylinder wall (4) or pump piston (7).

Abstract: By the conventional technique for dispensing more than one reagents accurately, the system is complicated and thus a compact and inexpensive system is difficult to realize. In the present invention, the pressurized dispensing system utilizing a capillary is realized, and in addition, in order to reduce the leakage of reagents different from the reagent dispensed, by forming air layers at the tips of the capillaries after dispensing, a compact, simple, inexpensive analysis apparatus is realized.

Abstract: A device for manipulating at least one specimen slide. The device includes a first sensor unit operable to sense a first rotation of a first component of the device about at least one first axis of a three-dimensional coordinate system. A second sensor unit is operable to sense a second rotation of a second component of the device about the at least one first axis of the coordinate system, the coordinate system being independent of a position of the first component and of a position of the second component. A positioning unit is operable to position the second component relative to the first component.