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: Provided herein are apparatuses and methods for fragmenting nucleic acids or disrupting cells. For example, some embodiments provide a disposable microfluidic device designed to position a sample to be in direct contact with a high frequency vibrating element that emits an ultrasonic frequency into the sample such that the vibrational energy transduced into the sample results in fragmenting nucleic acids or disrupting cells.

Abstract: The invention relates to continuous flow systems, in particular thermocyclers for the automated and continuous cycling of fluid between a plurality of temperature zones in the amplification of nucleic acids. The invention also relates to an improved sample port for introducing a volume of a liquid sample into a continuous flow system.

Abstract: Methods of manufacturing cards, strips and multiwell plates for use in diagnostic assays are described. The methods employ the use of synthetic constructs of the generic structure F-S-L (where F is an antigen for a reactive antibody, S is a spacer covalently linking F to L, and L is a lipid) as “ink” in inkjet printers. The cards, strips and multiwell plates provide a number of advantages including efficiency of manufacture and improved accuracy in determining and recording assay results.

Abstract: Provided is a microfluidic device and microfluidic system with the device. The microfluidic device includes a substrate; a channel formed in the substrate and in which a fluid can move; a valve controlling flow of a fluid flowing along the channel and including a phase transition material which can be melted by energy such as electromagnetic wave energy; and a lens disposed on the substrate and adjusting an irradiating region of the valve, onto which the energy is applied.

Abstract: A sample dispensing apparatus and method for dispensing a sample such as blood and urine collected for inspection from one vessel to another are provided wherein the remaining quantity of a primary sample can be reduced without disturbing the primary sample. When clogging by a separating agent is detected during suction of a sample such as blood and urine collected for inspection, the sample dispensing apparatus performs raising of an aliquot head such that an opening at the free end of a nozzle tip does not come out of the sample liquid surface to dissolve clogging; sucking of the sample under the residual pressure; and additionally sucking of a fixed quantity of the sample to reduce the remaining quantity of the sample.

Abstract: Provided is a microfluidic device that can automatically perform various types of biological blood analysis. In the microfluidic device, a specimen is centrifugally separated and the centrifugally separated specimen is diluted into various dilution ratios. Also, at least two reagents that are required for one reaction and that need to be separately stored are stored in separate chambers, and they are mixed when a reaction is needed. Thus, various conventional blood analyzing reagents can be used as they are or after being minimally processed in the microfluidic device.

Abstract: A leak detection system for a flowing electrolyte battery comprising a containment member associated with at least one of a stack of a flowing electrolyte battery and an electrolyte reservoir of a flowing electrolyte battery and a sensing member for sensing a fluid leak within the containment member.

Abstract: A mobile intra-operative microscopic diagnosis laboratory capable of analyzing fresh tissue specimens and providing intra-operative consultation within 20 minutes is described. The mobile laboratory is preferably a van and contains a cryostat for freezing the fresh tissue specimens and a means for cutting the specimens. In addition, it also contains the means for reading the slides to make microscopic diagnosis and a means for handling for fresh tissue and a means for indicating various locations in the specimen, preferably by inking them. It preferably contains a stainer for staining the samples and an intercom for communicating the microscopic diagnosis back to the operating room.

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 cylinder wall (4) comprises a piston sleeve (14) that is located on the inner side of the cylinder wall (4) and that extends over essentially the entire length of the pump cylinder (2) to the cylinder bottom (5).

Abstract: The present invention provides novel methods for controlling/manipulating materials flowing in a fluidic device. In particular, the methods of the invention create and utilize differences between dispersion rates and/or average velocity of materials in order to manipulate the materials.

Abstract: A cuvette supplying device is disclosed. The cuvette supplying device comprises: a cuvette storage for storing cuvettes; a carrier, provided inside the cuvette storage, for carrying the cuvettes in the cuvette storage outside the cuvette storage; a conveyor for conveying the cuvettes existing at the bottom of the cuvette storage towards the carrier; and an arranging section for arranging the cuvettes carried outside the cuvette storage by the carrier at a predetermined position. The specimen analyzer comprising the cuvette supplying device is also disclosed.

Abstract: A method for obtaining the contents of a fluid-holding vessel having a cap secured to an open end thereof. The method includes penetrating a surface of the cap with a fluid transfer device and forming one or more air passageways between the penetrated surface of the cap and the fluid transfer device to allow air to be vented from the vessel. At least a portion of the contents of the vessel is then drawn into the fluid transfer device before the fluid transfer device is removed from the vessel.

Abstract: A system and method for automated processing of nucleic acids and other samples includes a disposable container comprising a tray and a flexible barrier. The barrier is configured to seal with a top edge of the tray, providing a closed, aseptic work area within the sealed tray. A pipette head and/or other sample manipulation device can be attached to the inside of the barrier, and the barrier can include an interface for a robotic arm or other device. When the barrier is sealed over the tray, the barrier separates the contents of the tray from the robot or other manipulation device. The barrier can be flexible, and allow the robotic arm to move the pipette head throughout the work area of the tray. All samples, reagents, pipette tips and other tools or devices for processing nucleic acid samples may remain within the closed compartment provided by the container during processing.

Abstract: A fluid-ejection device includes a handheld and/or mountable enclosure, a removable tip having a fluid-ejection mechanism, a first fitting extending from the enclosure and receptive to placement of the removable tip thereon, and a controller situated within the enclosure to cause the removable tip to eject the fluid. The fluid-ejection device may also include tip-extension assembly having an electrical cable connecting to the controller and having a second fitting receptive to placement of the removable tip thereon. The electrical cable permits the removable tip to be located substantially independently of the enclosure. The fluid-ejection device may further include tubings fluidically couplable with the removable tip through at least one of the first and second fittings to provide fluid to the removable tip and to regulate backpressure of the fluid within the removable tip.

Abstract: A liquid container with an upper opening and a tube-shaped withdrawal chimney is disclosed. The withdrawal chimney extends into the container through the upper opening which has a liquid-permeable zone in the form of a finely-porous flow resistance element in its lower end region such that liquid exchange can take place between the withdrawal chimney and the container inner space which surrounds it via the flow resistance element. A venting groove formed by a radial recess of the casing wall of the withdrawal chimney in its upper region may be provided to ensure adequate venting of the space above the liquid level.

Abstract: A cap including a penetrable material adapted to be pierced by a fluid transfer device and an absorbent material positioned above the penetrable material. The absorbent material permits passage of the fluid transfer device and absorbs fluid material present on an outer surface of the fluid transfer device as it is being removed from the cap. The cap is useful for accessing the contents of an associated fluid-holding vessel multiple times.

Abstract: An agitating device for agitating a blood sample in a sample container is disclosed. The agitating device includes a base comprising a horizontally-supported shaft, a container holder including a first hand and a second hand, the first hand having a first hole at one end and a first hold portion at other end, the second hand having a second hole at one end and a second hold portion at other end, the first and second holes through which the shaft is inserted, the first and second hands being rotatable relative to the shaft and the first and second hold portions faced each other, and an agitation drive unit including a contact member for contacting the container holder and a drive source for reciprocating the contact member contacting the container holder between a lower position and an upper position.

Abstract: A molecule is separated from a liquid sample containing said molecule and at least one additional molecule having a larger hydrodynamic diameter than the hydrodynamic diameter of the molecule to be separated, by means of a separation device comprising a substrate, at least one circulation channel arranged in said substrate, and at least one nanotube associated with said molecule to be separated and formed on a free surface of the substrate. Separation is achieved by means of the internal channel of a nanotube, such as a carbon nanotube, presenting an effective diameter chosen in predetermined and controlled manner. The effective diameter of the internal channel is chosen such as to be larger than the hydrodynamic diameter of the molecule to be separated and smaller than the hydrodynamic diameter of the additional molecules of larger hydrodynamic diameters.

Abstract: An ergonomically designed pipette tip that can be securely mounted to a barrel of a pipetter yet is designed to substantially reduce the axial force necessary to install and eject the pipette tip from the pipetter thus reducing the injuries resulting in repetitive stress injury to the thumb and hand. The new ergonomic pipette tip incorporates a separate sealing member constructed from an elastomer that is coupled to the more rigid and chemically inert elongated tubular member that becomes the receptacle for transferring the fluid sample aspirated by the pipetter. The new elastomeric sealing member allows for greater sealing capability or squeeze between the pipetter barrel and the new pipette tip while lowering the coefficient of friction between the mating parts, thus decreasing the axial ejection forces require to overcome the breakaway friction between the new ergonomic pipette tip and the pipetter.

Abstract: An observation apparatus can observe the temporal fluctuations of the two-dimensional distribution of oxygen concentration in the bottom sludge and also in the bottom water on the seabed at an observation site. The observation apparatus includes a pressure-resistant container main body section that has a pressure-resistant window and is hermetically sealed by a pressure-resistant container closure section, a sensor foil that contains an oxygen quenching material and is arranged at the pressure-resistant window, an excitation light source that is arranged at the pressure-resistant container main body section to irradiate the sensor foil and an image pickup apparatus that shoots the sensor foil.

Abstract: A method for applying reactive films containing solids to microporous membranes is provided wherein the membrane is firstly moistened and the reactive film containing solids is applied to the membrane while it is still moist. Membranes produced in this manner can contain reactive films having a high proportion of film openers and can be used advantageously in diagnostic elements for detecting constituents and, in particular, large hydrophobic analytes in body fluids.

Abstract: A disposable cassette, preferably for use in analysis technology, has at least one first part in which channel structures are cut out in the surface and a second part covering the first part in a sealing manner, with engagement regions for actuator elements being provided at pre-determined points. The first part and/or the second part are constructed of a rigid material and have a flexible material region associated therewith, with the rigid material and the flexible material region being manufactured in one piece using two-component injection molding technology.

Abstract: The present invention includes a harvesting and irrigation device, a method and a kit for the collection of viable fat cells and/or adipose tissue with decreased handing and improved yield and viability.

Abstract: The invention relates to a cartridge for processing a sample and methods for aligning a cartridge. The cartridge includes a processing device for processing a sample, a body having a surface and bounded by at least one edge, and a plurality of positioning members defined by the surface for aligning the processing device relative to a conduit defined by the body between a cartridge input and a cartridge output.

Abstract: A fluid handling module is configured for removable engagement with a reusable main fluid handling instrument. The module includes a module housing and a first fluid passageway extending from the module housing. The first fluid passageway has a patient end remote from the housing. The first fluid passageway is configured to provide fluid communication with a bodily fluid in a patient. A fluid component separator is in fluid communication with the first fluid passageway. The fluid component separator is configured to separate at least one component from a portion of the bodily fluid drawn from the patient. A spectroscopic sample cell is configured to hold at least a portion of the first component.

Abstract: A nanopore device capable of single molecule detection is described. The nanopores are formed in thin, rigid membranes and modified by a sputtered metal that forms an overhang during application. The overhang causes the pore to be narrower in a certain region, allowing passage of only a single molecule through the pore at a time, or binding to a biomolecule on the pore to be detected by a change in ionic current flow through the nanopore. Embodiments include a silicon nitride membrane formed on a silicon substrate and having a nanopore drilled with a focused ion beam system, followed by gold sputtering onto the membrane. Devices are formed with one or more nanopores and chambers having electrodes on either side of the nanopore.

Abstract: A self-contained sampling probe characterized by a drive module and a syringe module removably coupled coaxially to the drive module to allow for different syringe modules to be interchangeably coupled to the drive module. The coupling is effected by quick connect and disconnect devices, and the syringe module may carry an identifier. The probe is engageable by a gripper or insertable in an interface device, both of which provide for communication of the probe with other system components. The probe has a dimension that is 8 mm or less in at least one projection coincident with an aspirate/dispense axis of the probe.

Abstract: The present invention can solve such a problem that a conventional tissue piece treating apparatus has difficulty of reduction in size and restriction on installation and stopping subsequent treatment operations when the amount of chemical supplied to a processing chamber is insufficient.

Abstract: An apparatus (10) for handling specimen slides (32, 78, 80) has at least one coverslipping module (14) for coverslipping thin sections arranged on specimen slides (32, 78, 80). The apparatus (10) further encompasses a drying unit (16, 70, 90) for extracting solvent from the mounting medium applied onto the specimen slides (32, 78, 80). The drying unit (16, 70, 90) has an air delivery unit (40) for delivering an air flow to the specimen slides (32, 78, 80).

Abstract: The present invention concerns a stirrer system for animal cell culture consisting of a combination of at least one radially-conveying stirrer element and at least one axially-conveying stirrer element, wherein at least three stirrer elements must be present and the uppermost stirrer element is an axially-conveying stirrer element. The stirrer elements are arranged at a certain distance above one another on a stirrer shaft. A particular embodiment is a multiple stirrer system consisting of two disk stirrers as radially-conveying stirrer elements and an inclined-blade stirrer as an axially-conveying stirrer element wherein the inclined-blade stirrer is arranged above the disk stirrer on the stirrer shaft. The stirrer system according to the invention achieves among others a gentler and better intermixing in the culture of shear-sensitive mammalian cells in cell cultures.

Abstract: A specimen processing system has a robot equipped with a base, torso part and two arms, and a plurality of devices arranged within the range of movement of the arms of the robot for performing the process made up of predetermined steps on the specimen, including a laboratory dish, a laboratory dish stand, a spatula, a spatula stand, a test tube, a test tube stand, a pipette, a pipette stand, a tip, a tip stand, an incubator, a centrifuge, a stirrer, and a heating/cooling device.

Abstract: An apparatus (10, 60, 70, 100, 110, 120) for handling specimen slides (21) encompasses a coverslipping module (14) for coverslipping thin sections arranged on the specimen slides (21), the coverslipping module (14) applying first a mounting medium and then a coverslipping means onto the specimen slides (21). The apparatus (10, 60, 70, 100, 110, 120) further has an output unit (18) for outputting the specimen slides (21), which unit encompasses a drying unit (32) for at least partial extraction of at least one solvent from the applied mounting medium of the specimen slides (21) arranged in the output unit (18).

Abstract: A method and apparatus is disclosed wherein the flow resistance of a droplet disposed on a nanostructured or microstructured surface is controlled. A closed-cell feature is used in a way such that, when the pressure of at least a first fluid within one or more of the cells of said surface is decreased to or below a desired level, a droplet disposed on that surface is caused to at least partially penetrate the surface. In another illustrative embodiment, the pressure within one or more of the cells is increased to or above a desired level in a way such that the droplet of liquid is returned at least partially to its original, unpenetrated position. In yet another embodiment, a closed-cell structure feature pattern is used to prevent penetration of the nanostructured or microstructured surface, even when the pressure of the fluid disposed on the surface is relatively high.

Abstract: A vial and particles for distributing reagent bound particles in a fluid, a kit, and methods for distributing particles in a fluid.

Abstract: A rack for holding samples and various reagents, wherein the rack may be used for loading the samples and reagents prior to using the reagents. The rack accepts complementary reagent holders, each of which contain a set of reagents for carrying out a predetermined processing operation, such as preparing biological samples for amplifying and detecting polynucleotides extracted from the samples.

Abstract: The present invention provides a test strip for measuring a concentration of an analyte of interest in a biological fluid, wherein the test strip may be encoded with information that can be read by a test meter into which the test strip is inserted. In one embodiment, a first test strip comprises: a first measurement electrode connectable to a test meter; a first trace loop with a first associated resistance, where the first trace loop is connectable to the test meter; and a second trace loop with a second associated resistance, where the second trace loop is connectable to the test meter. The test meter is adapted to: receive the first test strip; connect to the first measurement electrode, the first trace loop, and the second trace loop; and obtain a first resistance ratio by comparing the first and second associated resistances.

Abstract: Disclosed herein is a microchip that allows a sample to be introduced into a region easily and accurately, and which makes it possible to obtain high analysis accuracy. The microchip includes an airtight region into which a solution is externally introduced; and positioning means for positioning a channel for injecting the solution into the region by penetrating a substrate layer forming the region with respect to a puncture part of the region.

Abstract: A proboscis for use with a diagnostic instrument includes an elongated main body having a proximal end and an opposite distal end, and a lumen extending between the proximal and distal ends. The distal end includes an orifice which is in fluid communication with the lumen. A fluid splash guard is affixed to the main body at the distal end, and provides protection for the orifice and lumen from being clogged with a sample fluid.

Abstract: To obtain a stable pressure to inject polymer into a capillary array in order to shorten the injection time and raise the processing capacity of the apparatus. Disclosed herein is an electrophoresis apparatus comprising one or more capillaries to be filled with an electrophoretic medium and a pump mechanism which can be connected to the capillaries for filling the capillaries with an electrophoretic medium. The pump mechanism comprises a plunger; a slider which is bonded to the plunger and moves together with the plunger; a spring which gives force to the slider; a cover which limits the range of displacement of the slider; and a linear motion system which is bonded to the cover and moves linearly, wherein the cover and the slider move as one body when the electrophoretic medium is taken to the plunger, and the plunger is pushed by the action of the spring when the electrophoretic medium is injected from the plunger into the capillaries.

Abstract: Disclosed herein is a modular test tube rack. The rack contains multiple sub-racks that can be coupled together to form the test tube rack. The sub-rack can be designed to fit into a variety of scientific instrumentation including a fixed rotor centrifuge. The assembled test tube rack can be of a format and size that allows use of standard array pipetters. Thus, a system is provided allowing use of standard array pipetters and high g centrifugation.

Abstract: A lab on a valve analytical system includes a rotary sample preparation assembly having a stator and a rotor. The rotor includes a plurality of integral syringe pumps which can be aligned with passages formed within the stator. The stator passages can be connected with fluid inlet connector which connect the sample preparation assembly with fluid sources, and fluid outlet connectors which connect the sample preparation assembly with one or more wet chemical analytical devices. Some embodiments can include a mixer and optical sensor connected with the fluid outlets. One or more drive motors can be used to control simultaneous actuation of one or more of the syringe pumps, thereby providing for simultaneous delivery of metered volumes of fluid.

Abstract: A DNA amplification device utilizing a polydimethylsiloxane (PDMS) and silicon substrate coated with spin-on glass (SOG) is provided. This PDMS layer is irreversibly bonded to the SOG layer of the silicon substrate using oxygen plasma. The amplification device is an inexpensive, microfluidic device, which can be utilized as a portable thermo-cycler to perform PCR amplification of DNA in the field.

Abstract: A microfluidic chip with a built-in gravity-driven micropump is provided. The gravity-driven micropump comprises a winding channel, an inert fluidic material placed inside the winding channel, and a suction channel that links the winding channel to the microfluidic chip. The winding channel is for the inert fluidic material to flow in. A fixed volume of high density, inert fluidic material is placed in the winding channel to act as a micropump in the bio chip. When the microfluidic chip is placed in a declining or standing position, the inert fluidic material flows along the winding channel due to the gravity. The invention provides a simple, convenient, and robust microfluid pumping source. With the built-in micropump, this invention is free-of-pollution and saves the manufacturing cost for the pipe link between the bio chip and peripheral devices.

Abstract: An apparatus, system, and method for determining the osmolarity of a fluid. The apparatus includes at least one micro-fluidic circuit and at least one electrical circuit disposed in communication with the at least one micro-fluidic circuit for determining a property of a fluid contained within the at least one micro-fluidic circuit.

Abstract: An injection device (10) includes a carrier inlet (40), a sample inlet (46), waste outlet (44) and a chamber outlet (64) attached to separation column (66). Valves (52, 54, 56) are used to control flow such that sample flows into chamber (22) and is carried into the chamber outlet (42).

Abstract: A flows cell for use in a microfluidic detection system is provided. The flow cell includes a flows cell body having a channel that is configured to convey a solution through the flows cell body. The flow cell also includes a bottom surface and a top surface. The bottom surface is configured to be removably held by the detection system, and the top surface is transparent and permits light to pass therethrough. The flow cell body also includes fluidic inlet and outlet ports that are in fluid communication with the channel. A pump cavity is also provided in the flow cell body. The pump cavity fluidly communicates with, and is interposed between, an end of the channel and one of the fluidic inlet and outlet ports. An electroosmotic (EO) pump is held in the pump cavity. The EO pump induces flow of the solution through the EO pump and channel between the fluidic inlet and outlet ports.

Abstract: The present invention discloses a biochip comprising a substrate and a three-dimensional mesoporous layer on top of it, wherein the mesoporous layer on top is chemically modified to recognize labeling DNAs, proteins, peptides, saccharides, and cells. In addition, this invention also discloses a method for forming the biochip with a three-dimensional mesoporous layer, including a blending process, a heating process, a coating process, a gelation process, a drying process, and a surface modification process.

Abstract: A sensor-dispensing instrument adapted to handle a sensor pack contains sensors and performs a test using one of the sensors. The instrument includes an outer housing and a mechanical mechanism for rotating the sensor pack and ejecting one of the sensors from the sensor pack and through a sensor slot on the housing. The instrument also includes a sensor actuator to engage with a sensor disposed in the sensor slot, and a sensor release that is movable to disengage the sensor actuator from the sensor disposed in the sensor slot and permit the discharge of the sensor. The sensor release activates a sensor release mechanism that has a sensor release aid arm, a mounting block, and a pivot pin. The sensor release aid arm contacts the sensor disposed in the sensor slot to assist removal of the sensor from the sensor slot.

Abstract: The pipette rack comprises a plate, a peripheral base and a peripheral skirt. The plate has a first surface and defines an array of tip receptacles extending therethrough in a first direction orthogonal to the first surface. The tip receptacles are contoured to provide a clearance fit at locations axially offset from one another along a part of a pipette tip. The base extends in the first direction from the plate to a distal end surface. The skirt extends in the first direction from the base, and is outwardly offset therefrom to expose the distal end surface of the base so that the distal end surface contacts the plate of a similar pipette rack when the pipette racks are stacked.