Abstract: This disclosure is directed to systems and methods for immunomagnetic separation of a target analyte of a suspension from the other component materials of the suspension. The system may be composed of a tube, a magnetizable float, and a magnet. The magnetizable float is configured to propagate or introduce a magnetic field. In one aspect, the magnet is included in the magnetizable float. In another aspect, the magnet is external to the magnetizable float. The system may also include a solution containing a particle to conjugate with the target analyte to form a target analyte-particle complex. The particle is capable of being attracted by the magnetic field or magnetic gradient introduced by the magnet. The target analyte-particle complex may be attracted to the magnetizable float.

Abstract: Disclosed are articles, compositions and methods for detecting analytes. The disclosed articled, compositions and methods increase the ease of detection and quantitation of the target analyte.

Abstract: The invention relates to a carrier enclosing tip, a carrier treating apparatus, and a method of carrier treatment. An object is to perform separation/purification more efficiently and rapidly as compared with treatments using conventional liquid chromatography or filters. There is provided a carrier enclosing tip comprising: a tip-like container having a fitting opening which is fittable to a nozzle for use in gas suction and discharge, or a member to be fitted to a nozzle, and a port through which fluid inflow and outflow can be effected by the gas suction and discharge; and a carrier which is enclosed in the tip-like container, and is capable of adsorbing a biosubstance in the fluid or is capable of reacting with or binding to the biosubstance.

Abstract: Devices for separating magnetically labeled moieties in a sample are provided. Aspects of the devices include a magnetic field source, a first magnetic field guide having a wedge-shaped portion with an apex edge, and a second magnetic field guide having a wedge-shaped portion with an apex edge. The apex edge of the first magnetic field guide is aligned substantially across from and parallel to the apex edge of the second magnetic field guide, and the device is configured to separate magnetically labeled moieties from non-magnetically labeled moieties in the sample. Also provided are methods of using the devices, as well as systems and kits configured for use with the devices and methods.

Abstract: A device includes: a tube having a first portion and a second portion; and a plunger insertable from the first portion side of the tube and having a tubular portion that can fit an inner surface of the first portion and a rod-like portion that can fit an inner surface of the second portion and is supported by the tubular portion, wherein when the tubular portion fits the inner surface of the first portion, a first state where the inner surface of the second portion and the rod-like portion are spaced apart from each other and a second state where the inner surface of the second portion and the rod-like portion fit together are formed, and in the first state, a communication path communicating the inside of the second portion with the inside of the tubular portion is formed, while in the second state, the communication path is blocked.

Abstract: A flow control assembly for use in preparation of samples for analysis by solid phase extraction includes a housing assembly having a first passage communicating with a needle bore and locating a solid phase sorbent, a second fluid port, and a valve for selective aspiration or delivery of fluid across a solid phase sorbent, or bypassing the solid phase sorbent. Independent flow paths are provided for a sample via the needle, and of the elution solvent via a separate port. The valve includes relatively slideable first and second members, the second member including an elongate shank that is relatively reciprocably slideable for effecting selective aspiration or delivery of fluid between first and second relative positions. A third fluid port may be provided communicating with the elongate second passage for selective fluid communication with a port in a shank when the shank is at the second relative position.

Abstract: A device and method are provided for facilitating extraction of a fraction from a biological sample. The biological sample includes non-desired material and a fraction-bound solid phase substrate. The device includes an input zone for receiving the biological sample therein and a phase-gate zone for receiving an isolation buffer therein. An output zone receives a reagent therein. A force is movable between a first position adjacent the input zone and a second position adjacent the output zone. The force urges the fraction-bound solid phase substrate from the input zone, through the phase-gate zone and into the output zone.

Abstract: A reaction unit containing a bottom part and a top part for pipetting a liquid, wherein the bottom part contains a reaction cavity with a permeable filter grid insert and the top part contains a reaction cavity which can be fixed on said bottom part and contains a cavity or covering for receiving a magnet.

Abstract: A plunger for mixing a biological sample with a reagent in a tube is moved up and down reciprocally to agitate the biological sample and the reagent for subsequent extraction of the material from the mixture to be analyzed. The plunger's agitation facilitates the concentration of the extracted material to reach an extent where a correct analysis is possible. The plunger of the present invention has a shape of a hollow cylinder with an aperture at the bottom, a plurality of slots formed on the cylindrical surface, and an opening formed at the top. The plunger allows a pipette to draw the extracted material in the test tube out from the opening at the top of the plunger without removing the plunger, and prevents drawing out the fragments of the sample after the biological sample and the reagent have been sufficiently mixed.

Abstract: Method for handling microparticles in such a manner, that at least two treatment steps are performed for microparticles in the same vessel without moving the particles to another vessel. There are organs in the device for changing the solution without having to move the microparticles to another vessel.

Abstract: A surrogate addition device is described that adds a surrogate compound at a uniform transport rate to a flowing sample stream. The surrogate addition device includes a surrogate reservoir, a flow chamber, and a diffusion barrier. The surrogate reservoir can be configured to contain a surrogate solution where the surrogate solution includes a surrogate compound. The flow chamber includes an inlet port and an outlet port. At least a portion of the diffusion barrier is disposed in between the surrogate reservoir and the flow chamber. The diffusion barrier may include an inner surface that forms a wall of the surrogate reservoir, and an outer surface that forms a wall of the flow chamber. The flow chamber can be configured to receive a flowing sample solution across the outer surface of the diffusion barrier and also to diffuse the surrogate compound from the surrogate reservoir to the flow chamber.

Abstract: A flow through cartridge for solid phase extraction of an analyte from a liquid has a cartridge body bounding a passage for retaining a sorbent. The passage extends from a first end face to a second end face, opposite the first end face of the cartridge body. The cartridge body is composed of a core of a first material extending around the passage and sealing rings of a second material, extending around an axis of the passage at the first and second end faces. Surface portions of the sealing rings constituting surface portions of the first and second end faces. The first material is stronger and stiffer than the second material.

Abstract: Systems and methods for isolating samples are provided. The system comprises a first membrane and a second membrane disposed within an enclosure. First and second reservoirs can also be disposed within the enclosure and adapted to contain one or more reagents therein. A first valve can be disposed within the enclosure and in fluid communication with the first reservoir, the second reservoir, or both. The first valve can also be in fluid communication with the first or second membranes or both. The first valve can be adapted to selectively regulate the flow of the reagents from the first reservoir, through at least one of the first and second membranes, and into the second reservoir.

Abstract: The disclosure relates to a magnetic separating device for isolating magnetically labelled particles from a non-magnetic medium comprising a body portion (1) having a magnetising portion (3) for providing a magnetic field and a surface by means of which the body portion may stand on a supporting surface; and a sample vessel retaining portion (4) for retaining at least one sample vessel (5), wherein, the magnetising portion (3) is configured to conform at least approximately to at least a substantial portion of the longitudinal profile of at least one sample vessel (5); the sample vessel retaining portion (4) is configured to retain at least one sample vessel (5) such that at least a portion of the contents of the sample vessel (5) is visible to a user; and the sample vessel retaining portion (4) is configured to be mountable on the magnetising portion so that in use, the at least one sample vessel is subject to the magnetic field of the magnetising portion (3).

Abstract: An apparatus for processing a liquid sample in a sample tube. The apparatus includes a base, a receptacle for receiving a sample tube, and a heating portion coupled to the base to selectively apply heat to the receptacle. A shaking portion is coupled to the base and supports the receptacle. The shaking portion agitates the receptacle with respect to the base. A magnetizing portion is coupled to the base and movable to selectively change a magnetic field with respect to the receptacle.

Abstract: A separator (1a) under the invention for the taking of blood serum or blood plasma contained in a blood sample from a separating strip comprises a top part (3), a bottom part (4) and a joint (5). Said top part (3) and bottom part (4) are linked by the joint (5) in a pivoting way. Bottom part (4) is designed to support the separating strip. At least one nose (7a, 7b) is provided at the bottom part (4) and/or underside of top part (3) which can exert local pressure on the separating strip once top part (3) and bottom part (4) are folded together thus pressing blood serum or blood plasma out of the rear end of the separating strip.

Abstract: The present invention generally relates to air sampling of biological compounds. Specifically, the present invention relates to a device and method for sampling the ambient air for detecting microbial propagules, microbial propagules being any spore, vegetative cell, or virion of microbiological origin including all bacteria, fungi, viruses, protozoans, molds, slime molds, chlamydospores, hyphae, and cysts.

Abstract: Methods, compositions and kits for chromatography purification of antibodies are provided. In some embodiments, antibodies are purified by hydroxyapatite (HT) or fluorapatite (FT) that is treated with a polycationic agent. In some embodiments, the antibodies are treated with a polycationic agent that is also a virucidal agent prior to purification.

Abstract: A microfluidic device for manipulating particles in a fluid has a device body that defines a main channel therein, in which the main channel has an inlet and an outlet. The device body further defines a particulate diverting channel therein, the particulate diverting channel being in fluid connection with the main channel between the inlet and the outlet of the main channel and having a particulate outlet. The microfluidic device also has a plurality of microparticles arranged proximate or in the main channel between the inlet of the main channel and the fluid connection of the particulate diverting channel to the main channel. The plurality of microparticles each comprises a material in a composition thereof having a magnetic susceptibility suitable to cause concentration of magnetic field lines of an applied magnetic field while in operation.

Abstract: The present invention provides a method for diagnosing cancer, predicting a disease outcome or response to therapy in a patient sample. The method involves isolating a circulating tumor cell (CTC), for example, a viable CTC, from a sample using a parylene microfilter device comprising a membrane filter having or consisting of a parylene substrate, which has an array of holes with a predetermined shape and size; and detecting and quantifying telomerase activity in blood circulating tumor cells. The invention further provides methods of using cells live-captured in various applications.

Abstract: The present invention provides a method to prepare an 18F-labelled tricyclic indole compound comprising a solid-phase extraction (SPE) purification step. This method is particularly suitable for carrying out the radiofluorination method on an automated synthesiser. In addition to the radiofluorination method, the present invention provides a cassette designed to carry out the method on an automated synthesiser.

Abstract: The present invention provides a naturally based Sperm Separation System (SSS) for separation of at least a portion of sperm cell populations (SCP) within an original semen sample, such that an enriched SCP sample is obtained, comprising a a sperm separation device, comprising ?) a first chamber adapted to contain at least a portion of said original semen sample, said first chamber is characterized by predetermined 3D shape and volume, V, said first chamber is bounded by a rim such that said orginal sample is kept below said rim, n) a second chamber in physical communication with said first chamber and said nm, said second chamber is characterized by predetermined 3D shape and volume, V1, said second chamber is adapted to reside said enriched SCP sample, b incubation means, adapted to socket at least one of said cell separation device and to homogeneously thermoregulate the temperature within the same.

Abstract: The present invention relates to a method for concentrating one or more target compounds in a liquid sample, a device for carrying out this method and a kit for processing a biological sample comprising such a device.

Abstract: A device for separating heavier and lighter fractions of a fluid sample is provided, the device including a container and a unitary separator located therein, the separator having an overall density between the heavier and light fractions. The separator is capable of moving between the fractions upon centrifugation, and sealing the fractions from one another when centrifugation ends.

Abstract: There is provided a method of extracting a nucleic acid analyte from a cell or virus in a sample chamber, comprising a) adding disruption beads comprising external silica or glass to the sample chamber; b) agitating the disruption beads within the sample chamber to disrupt the cell; c) adding binding particles comprising external silica or glass to the sample chamber in the presence of a chaotropic agent; d) contacting the contents of the sample chamber with a removal device with which the binding particles reversibly associate; and e) separating the removal device and associated binding particles from the sample chamber, thereby removing the nucleic acid analyte from the sample. There are also provided apparatus and kits for use with the method.

Abstract: The invention relates to a carrier enclosing tip, a carrier treating apparatus, and a method of carrier treatment. An object is to perform separation/purification more efficiently and rapidly as compared with treatments using conventional liquid chromatography or filters. There is provided a carrier enclosing tip comprising: a tip-like container having a fitting opening which is fittable to a nozzle for use in gas suction and discharge, or a member to be fitted to a nozzle, and a port through which fluid inflow and outflow can be effected by the gas suction and discharge; and a carrier which is enclosed in the tip-like container, and is capable of adsorbing a biosubstance in the fluid or is capable of reacting with or binding to the biosubstance.

Abstract: When an atomic absorption spectrophotometer (AAS) or inductively coupled plasma (ICP) is used, samples must be introduced in a liquid state. Thus, sample decomposition by acids must be performed. Methods for decomposing samples using beakers or microwaves have caused several problems such as loss of volatile elements, excessive use of acids, emission of harmful gases, limitation of sample capacity and amount, and inconvenience of cleaning up. However, the present invention can treat many samples with one acid injection through gas condensation by both heating of a reaction container and air cooling of a collection pipe, wherein the reaction container is made of fluororesin (Teflon) or quartz. Also, if there are many samples, the samples can be treated at once. Furthermore, since the present invention can treat the samples with a conventional heating plate, the invention can be used at inexpensive costs.

Abstract: A biochip for the integration of all steps in a complex process from the insertion of a sample to the generation of a result, performed without operator intervention includes microfluidic and macrofluidic features that are acted on by instrument subsystems in a series of scripted processing steps. Methods for fabricating these complex biochips of high feature density by injection molding are also provided.

Abstract: A device and a process are proposed for separating constituents of a sample fluid, wherein the sample fluid is supplied by capillary force to a receiving region (7) for metering, stopping or delaying the sample fluid and the sample fluid is pre-treated with a soluble chemical (13) in the receiving region (7) before the sample fluid is supplied to a separating device (5) for separating off constituents of the sample fluid.

Abstract: An exhaust gas sampling device is intended to heat or cool a temperature of sampled exhaust gas flowing through a sampling line to a desired temperature in accordance with various exhaust gas conditions and usage conditions of the sampling line irrespective of a temperature of the exhaust gas flowing through an exhaust pipe, and includes the sampling line for sampling the exhaust gas to be introduced into an analyzing instrument; a plurality of heating parts provided along the sampling line from an upstream side to a downstream side for heating the exhaust gas flowing through the sampling line; and a temperature control part for individually setting set temperatures of the plurality of heating parts using the temperature of the exhaust gas in the exhaust pipe and a target temperature of the exhaust gas in an outlet side of the heating part located in the most downstream as parameters.

Abstract: This invention concerns a method, devices, instrument and program for extraction an ingredient from a liquid sample by bidirectional transfer of an aliquot of fluid between compartments, the method can be applied to a wide variety of laboratory techniques such as; solid phase extraction by filter disc, column chromatography, magnetic separation, diagnostic tests and others, the system is suitable for single or multi sample handling, manual operation or integrated into an automated system, can be used in a lab or in field.

Abstract: Sample liquid is collected in a chamber downstream of a separating device. Adjoining the chamber are a plurality of channels which guide the sample liquid to one or more investigating regions.

Abstract: A microfluidic device for separating emulsion solution into separate particles by passing the emulsion solution through a passive filter. The separated particles can then be sorted into separate chambers through active filtering.

Abstract: The present invention relates to an apparatus for separating fine particles using magnetophoresis, and to a method for separating fine particles using same, and particularly, to an apparatus for separating fine particles using magnetophoresis, which includes a fine, patterned magnetic structure capable of quickly and efficiently separating even particles that are weakly magnetized and coupled to fine particles, and to a method for separating fine particles using same.

Abstract: This invention relates generally to devices and methods for performing optical and electrochemical assays and, more particularly, to test devices, e.g., cartridges, methods and systems, wherein the test devices have an entry port configured to receive a test sample into a holding chamber; a first conduit having at least one lateral flow test strip; and a displacement device, such as a pneumatic pump, configured to move a portion of said test sample from said holding chamber into said first conduit. The present invention is particularly useful for performing immunoassays and/or electrochemical assays at the point-of-care.

Abstract: The present invention pertains to a biotechnological method for preparing and/or processing a biological sample, in particular for isolating at least one target biomolecule therefrom, which characterised in that at least one malodour counteractant is used for preventing, reducing, masking and/or suppressing malodour and/or malodour formation during the preparation and/or processing of said biological sample.

Abstract: The present invention contemplates various devices that are configured to separate a sample, which contains more than one unique species, into any desired number of sub-samples by passing the sample across a like number of separation media configured for a first separation protocol. Each of the sub-samples may be further separated by an additional separation protocol, thereby creating a plurality of mini-samples, each of which may be further separated and/or analyzed. The invention also contemplates using a simple method of using conduits to form a fluid path that passes through a plurality of separation media, each of which media is configured to isolate a particular sub-sample. After various sub-samples of the sample are isolated by the various separation media, the conduits may be removed, thereby enabling each of the isolated sub-samples to be further separated and/or analyzed independent of any other sub-sample.

Abstract: A microchip including a fluid circuit formed by a groove of a first substrate and a surface of a second substrate is provided. The fluid circuit includes a fluid retaining reservoir for containing a fluid. The fluid retaining reservoir includes a fluid outlet or outflow channel for allowing the fluid to flow out, and a partition dividing the fluid retaining reservoir into a first region including a fluid inlet for injecting a fluid into the fluid retaining reservoir and a second region including the fluid outlet or outflow channel. The partition includes at least one communication gate for allowing communication between the first region and the second region.

Abstract: Methods and devices for reducing interference from leukocytes in an analyte immunoassay are provided. In one embodiment, a method is provided comprising the steps of amending a biological sample with magnetic sacrificial beads opsonized to leukocytes, binding leukocytes in the sample to the magnetic sacrificial beads, and magnetically retaining the beads out of contact from an immunosensor.

Abstract: The present invention relates to a serum or plasma separating material including a moisture curing component having a specific gravity of from 1.03 to 1.09, and a blood collection tube including the serum or plasma separating material. The present invention provides a serum or plasma separating material which is allowed to be present in a cured state between serum or plasma and a blood cell-containing component obtained after centrifugal separation when separating the serum or plasma component in a collection tube, exhibits a good storage stability capable of keeping the serum or the like and the cell-containing component in a separated state in the collection tube for a long period of time, is excellent in stability upon freezing or thawing and upon handling of a sample, and can be cured without need of irradiation with ultraviolet ray or the like, as well as a method of separating serum or plasma using the separating material.

Abstract: Methods and systems for processing polynucleotides (e.g., DNA) are disclosed. A processing region includes one or more surfaces (e.g., particle surfaces) modified with ligands that regain polynucleotides under a first set of conditions (e.g., temperature and pH) and release the polynucleotides under a second set of conditions (e.g., higher temperature and/or more basic pH). The processing region can be used to, for example, concentrate polynucleotides of a sample and/or separate inhibitors of amplification reactions from the polynucleotides. Microfluidic devices with a processing region are disclosed.

Abstract: This disclosure provides a method and device for particle removal and droplet preparation for qualitative and quantitative bioanalysis. In one embodiment, the disclosed device includes a lateral flow filter through which the sample is filtered such that the filtrate fluid is collected in the distal end of the filter matrix. The filtered fluid is made to eject from the matrix to form a droplet by pressing/squeezing the distal end of the filter only, with the help of a suitably shaped plunger means.

Abstract: A method for lysing cells is disclosed. The method includes stirring cells with a magnetic stir element in the presence of a plurality of cell lysis beads at a speed sufficient to lyse the cells. Also disclosed is a device for lysing cells. The device includes a container having a magnetic stir element and a plurality of cell lysis beads disposed therein. The container is dimensioned to allow rotation of the magnetic stir element inside the container.

Abstract: A method of trapping a charged particle. The method includes providing a planar substrate having a conductive surface thereon, the conductive surface having at least one non-conductive region. The method also includes applying a solution to the conductive surface, the solution comprising at least one charged particle. The method further includes applying a voltage of a threshold level to the conductive surface. The method also includes, in response to the voltage, generating an electrostatic field in the solution adjacent to a boundary between the conductive surface and the non-conductive region. The method also includes setting the threshold level of voltage to result in a strength of the electrostatic field sufficient to prevent the particle from crossing the electrostatic field.

Abstract: This invention relates to methods, which provide access to F-18 labeled glutamic acid derivatives.

Abstract: A reservoir is supported by a base in a vertical position. A reciprocating member is positioned in the reservoir forming an internal chamber. The chamber receives growth factor starting material through an inlet in the reciprocating member. After the inlet is sealed, the reciprocating member increases the volume of the chamber to apply negative pressure to the growth factor starting material within to produce activated growth factors. The activated growth factors are extracted from the chamber through an outlet in the reciprocating member. Optionally, the growth factor starting material is held in the chamber to separate into fractions.

Abstract: The present invention provides microfluidic devices and methods for using the same. In particular, microfluidic devices of the present invention are useful in conducting a variety of assays and high throughput screening. Microfluidic devices of the present invention include elastomeric components and comprise a main flow channel; a plurality of branch flow channels; a plurality of control channels; and a plurality of valves. Preferably, each of the valves comprises one of the control channels and an elastomeric segment that is deflectable into or retractable from the main or branch flow channel upon which the valve operates in response to an actuation force applied to the control channel.

Abstract: A chemical agent detection system is provided that includes a fluid sampling collector suitable for the collecting, concentrating, filtering and storing of chemical agents. Preferably a solid phase extraction syringe is coupled to an adaptor via an injection port. The adaptor forms an outer surface of a sample containment reservoir that allows the fluid sampling collector to associate with a chemical agent detector such as the M256A2 chemical agent detector. The inventive chemical agent detection system allows rapid, low level on-site detection of chemical agents such as nerve agents in fluid media.

Abstract: Provided is a blood pre-treating apparatus including an injecting part for injecting a blood sample, an albumin-removing part including albumin adsorption beads for removing albumins from the blood sample, and an agglutination part including an agglutination reactant, by which blood corpuscles in the blood sample may be agglutinated to form a hemagglutination reactant.

Abstract: A microfluidic arrangement for extracting and optionally processing an extract from a sample and for transferring the extract in flowable form to a microfluidic chip using an extractor with a compressible extraction chamber and at least one opening thereof, a reactor that has a reaction chamber, an inlet opening that communicates with the at least one opening of the extractor, wherein the two openings define a flow path between the chambers, an outlet opening for fluidically connecting to the microfluidic chip and a ventilation opening of the reaction chamber, and having a filter arrangement installed in the flow path between the extractor and the reactor. A lab-on-a-chip system with such a microfluidic arrangement and a microfluidic chip that is rigidly connected to the reactor.