Abstract: The present invention is related to a method for re-enabling transport by means of a magnetic field gradient transport mechanism of magnetic beads comprising a ligand in a solution on top of a surface comprising a receptor bound with said ligand, comprising the step of changing the properties of said solution such that dissociation occurs between said ligand and said receptor, and such that a sufficient repulsive interaction is created between said surface and said bead to allow transport of said bead.

Abstract: The invention relates to an in vitro method for detecting pulmonary arterial hypertension (PAHT), or the risk of developing PAHT, which includes determining the presence and/or amount of anti-tenascin C antibodies in a biological sample from a patient.

Abstract: The present invention provide reagents and methods of using the reagents, for example, on automated staining devices, that facilitate detection of two or more antigens in a sample simply and efficiently.

Abstract: A method for detecting a ligand is provided. Antibodies to a predetermined ligand are attached to substrates. The substrates are superparamagnetic, dyed beads. The beads are exposed to an electromagnetic field to immobilize the beads. The beads are contacted with a sample and the antibodies are allowed to recognize and capture the ligand in the sample. The electromagnetic field is optionally removed. The beads are contacted with a liquid crystalline material and the light transmission properties of the liquid crystalline material are examined for alteration caused by the presence of aggregates of the beads and the ligand.

Abstract: An embodiment of the invention relates to a device for detecting an analyte in a sample. The device comprises a fluidic network and an integrated circuitry component. The fluidic network comprises multiple zones such as a sample zone, a cleaning zone and a detection zone. The fluidic network contains a magnetic particle and/or a signal particle. A sample containing an analyte is introduced, and the analyte interacts with the magnetic particle and/or the signal particle through affinity agents. A microcoil array or a mechanically movable permanent magnet is functionally coupled to the fluidic network, which are activatable to generate a magnetic field within a portion of the fluidic network, and move the magnetic particle from the sample zone to the detection zone. A detection element is present which detects optical or electrical signals from the signal particle, thus indicating the presence of the analyte.

Abstract: A method for removing excess unbound ferrofluid and imaging immunomagnetically enriched circulating tumor cells is provided. A vessels having a preformed grooves in the viewing surface is optimally designed for cell alignment and imaging. After separating the unbound particles by centrifugation, an externally-applied force is applied to transport magnetically responsive particle-CTC complex toward the transparent collection wall. The grooved inner surface of the viewing face of the chamber provide uniform distribution of the particles for easy imaging. The invention is also useful in conducting quantitative analysis and sample preparation in conjunction with automated cell enumeration techniques as in quantitative analysis of CTC in disease.

Abstract: The present invention provides novel compositions of binding moiety-nanoparticle conjugates, aggregates of these conjugates, and novel methods of using these conjugates, and aggregates. The nanoparticles in these conjugates can be magnetic metal oxides, either monodisperse or polydisperse. Binding moieties can be, e.g., oligonucleotides, polypeptides, or polysaccharides. Oligonucleotide sequences are linked to either non-polymer surface functionalized metal oxides or with functionalized polymers associated with the metal oxides. The novel compositions can be used in assays for detecting target molecules, such as nucleic acids and proteins, in vitro or as magnetic resonance (MR) contrast agents to detect target molecules in living organisms.

Abstract: The present invention provides, as a novel diagnosis marker for type 1 diabetes mellitus, a type 1 diabetes mellitus diagnostic composition comprising alanyl-tRNA synthetase, glycyl-tRNA synthetase, asparaginyl-tRNA synthetase, or tryptophanyl-tRNA synthetase, a diagnostic kit comprising the same, and a diagnostic method using the same. The composition, the kit, and the method, according to the present invention, may be used for early diagnosis and confirmed diagnosis of type 1 diabetes mellitus because type 1 diabetes mellitus can be easily diagnosed from a patient sample.

Abstract: This invention provides molecularly imprinted polymers (MIPs) for the detection of analytes, methods for forming the MIPs and detecting the analyte using the MIPs. The MIP comprises templated sites which are formed using a mimic of the analyte such that a reporter compound can be selectively attached at the templated sites, thus providing a site selectively tagged and templated MIP.

Abstract: A nanopore capture system may include a material configured to pass through a nanopore device in a controlled manner based upon its interaction with the nanopore device. The system may also include a capture mechanism connected to one end of the material. The capture mechanism may be configured to catch a particular type of molecule while ignoring other types of molecules. The system may also include a controller to manipulate and/or detect the particular type of molecule.

Abstract: Materials and methods for making small magnetic particles, e.g. clusters of metal atoms, which can be employed as a substrate for immobilizing a plurality of ligands. Also disclosed are uses of these magnetic nanoparticles as therapeutic and diagnostic reagents, and in the study of ligand-mediated interactions.

Abstract: Contemplated herein is an automated microscope slide antigen recovery and staining apparatus and method that features a plurality of individually operable miniaturized pressurizable reaction compartments for individually and independently processing a plurality of individual microscope slides. The apparatus preferably features independently movable slide support elements each having an individually heatable heating plate. Each slide support element preferably supports a single microscope slide. Each microscope slide can be enclosed within an individual pressurizable reaction compartment. Pressures exceeding 1 atm or below 1 atm can be created and maintained in the reaction compartment prior to, during or after heating of the slide begins.

Abstract: The invention describes a family of sensors for assaying macro-molecules and/or biological cells in solution. Each sensor has the form of a well (a hollow cylinder having a floor but no lid) or a trench whose walls comprise a plurality of GMR or TMR devices. Suitably shaped magnets located below each well's floor pull labeled particles into the well/trench and up against the inner wall where a field gradient orients them for optimum detection. Any unattached labels that happen to also be in the well/trench are removed through suitably sized holes in the floor.

Abstract: The present invention relates to novel uses of the MLN 51 gene or protein. The MLN 51 gene and protein is closely related to the development of rheumatoid arthritis and serve as biomarker and therapeutic target for rheumatoid arthritis, particularly chronic synovitis.

Abstract: The present technology provides an illustrative method for analyte monitoring using surface plasmons with a refreshable surface. The method includes placing a solution to be monitored in contact with a working surface of a surface plasmon resonance (SPR) generation system. The working surface includes a metal surface disposed on a glass surface, and the metal surface includes a first binding substance that provides binding sites for an analyte. The method further includes applying light to the metal surface at a plurality of angles over a period of time, measuring a reflectance of the light at each of the plurality of angles to determine an SPR angle, and monitoring changes to the SPR angle over the period of time. The working surface of the SPR generation system is refreshed by depositing a new layer of the first binding substance on the working surface of the SPR generation system.

Abstract: The invention relates to antibodies, including monoclonal and polyclonal, or fragments thereof, which discriminate between the histidine and tyrosine isoforms of Complement Factor H and to their use in diagnostic methods and therapeutic treatments relating to Complement Factor H mediated diseases.

Abstract: The present invention relates to droplet-based affinity assays. According to one embodiment, a method of detecting a target analyte in a sample is provided, wherein the method includes: (a) executing droplet operations to combine affinity-based assay reagents on a droplet microactuator with a sample potentially comprising the target analyte to generate a signal indicative of the presence, absence and/or quantity of analyte; and (b) detecting the signal, wherein the signal corresponds to the presence, absence and/or quantity of the analyte in the sample.

Abstract: A particle suspension for use in immunoassay, comprising: particles for use in immunoassay; and a silicone antifoam agent, is disclosed. And a reagent kit for use in immunoassay, comprising: a reagent containing particles and a silicone antifoam agent; another reagent containing an antigen or antibody capable of binding to a target substance and particles; and a further reagent containing a labeled antigen or antibody capable of binding to the target substance, is disclosed.

Abstract: It is disclosed herein that antibodies specific for preproproteins or preproteins, which are synthesized by certain types of cells or tissues, can be used in immunohistochemistry assays to discriminate between the intracellular component of the protein (including the preproprotein, preprotein and/or proprotein forms of the protein) from the secreted component of the same protein. Accordingly, provided herein is an immunohistochemical method for specific detection of the intracellular form of a protein in a biological sample using an antibody specific for the preproprotein or preprotein form of the protein. In particular examples, the protein is albumin or an immunoglobulin light chain. Also disclosed herein are preproprotein-specific ore preprotein-specific antibodies that can be used to detect specific cell types, tissue lesions or other pathological foci and metastases by IHC. In particular, antibodies that specifically bind human preproalbumin, but do not bind the secreted form of albumin are disclosed.

Abstract: The invention is to provide a magnetic sensor capable of detecting magnetic particles over a wide range of number and of suppressing an increase in a detection area. The magnetic sensor includes a detection part, a selecting device connected electrically to an end of the detecting part, and a sensing amplifier for receiving a signal from the detecting part, wherein the detecting part includes at least two magnetoresistive films serially connected.