Abstract: A method for the multiplexed diagnostic and genetic analysis of enzymes, DNA fragments, antibodies, and other biomolecules comprises the steps of constructing an appropriately labeled beadset, exposing the beadset to a clinical sample, and analyzing the combined sample/beadset by flow cytometry. Flow cytometric measurements are used to classify, in real-time, beads within an exposed beadset and textual explanations, based on the accumulated data obtained during real-time analysis, are generated for the user. A secondary reagent, such as a metal or magnetic particle, is added to the beadset to assist in the analysis. Detection techniques, such as such as light scatter, Rayleigh scatter, Raman scatter, surface plasmon resonance, magnetic induction, or magnetoresistance are used to detect the particle labels.

Abstract: Detection of magnetic beads at temperature below room temperature can increase the signal level significantly as compared to the same detection when performed at room temperature. Additional improvement is obtained if the beads are below 30 nm in size and if deviations of bead size from the median are small. A preferred format for the beads is a suspension of super-paramagnetic particles in a non-magnetic medium.

Abstract: An automated in situ heat induced antigen recovery and staining method and apparatus for treating a plurality of microscope slides. The process of heat induced antigen recovery and the process of staining the biological sample on the microscope slide are conducted in the same apparatus, wherein the microscope slides do not need to be physically removed from one apparatus to another. Each treatment step occurs within the same reaction compartment. The reaction conditions of each reaction compartment for treating a slide can preferably be controlled independently, including the individualized application of reagents to each slide and the individualized treatment of each slide.

Abstract: The present invention relates to a method of preparing lanthanide-doped NaYF4 nanocrystals, the method comprising: (A) providing a first solution comprising a non-coordinating solvent, a fatty acid coordinating ligand, sodium trifluoroacetate, yttrium trifluoroacetate, a first doping lanthanide trifluoroacetate and a second doping lanthanide trifluoroacetate, and a second solution comprising the non-coordinating solvent and the fatty acid coordinating ligand, the first and second solutions being substantially free of water and oxygen; (B) in an inert atmosphere, slowly adding the first solution heated at a temperature between about 100° C. and about 150° C. to the second solution heated at temperature between about 290° C. and about 330° C., thereby producing a reaction mixture containing the nanocrystals; and (C) recovering the nanocrystals from the reaction mixture.

Abstract: An apparatus providing programmable illumination pattern generation for the manipulation of colloidal particulates and biomolecules in suspension between electrodes is disclosed. The apparatus implements LEAPS (light-controlled electrokinetic assembly of particles near surfaces), which relies on AC electric field-induced assembly of particles, patterning of an electrolyte/silicon oxide/silicon interface to exert spatial control over the assembly process, and real-time control of assembly via external illumination. The apparatus generates patterns of illumination and projects them onto planar surfaces, i.e., LEAPS electrodes.

Abstract: The present invention allows a target substance to be detected easily without applying an external magnetic field to a magnetic marker. The present invention provides a target substance detection kit including: a target substance detection board which contains a magnetic sensor and a first target substance capture molecule; and a magnetic marker which contains a magnetic structure and a second target substance capture molecule, wherein the first target substance capture molecule exists on a surface of the target substance detection board, and the magnetic structure generates a magnetic stray field under polarized light.

Abstract: An automated in situ heat induced antigen recovery and staining method and apparatus for treating a plurality of microscope slides. The process of heat induced antigen recovery and the process of staining the biological sample on the microscope slide are conducted in the same apparatus, wherein the microscope slides do not need to be physically removed from one apparatus to another. Each treatment step occurs within the same reaction compartment. The reaction conditions of each reaction compartment for treating a slide can preferably be controlled independently, including the individualized application of reagents to each slide and the individualized treatment of each slide.

Abstract: The invention relates to a method for selectively detecting and/or quantifying superparamagnetic and/or ferromagnetic particles on analytes. The method is characterized in that a frequency component of magnetic fields (15, 18), which is generated due to the non-linearity of the magnetization characteristic curve of the particles, is measured at a mixing frequency. A device for selectively detecting and/or quantifying superparamagnetic and/or ferromagnetic particles on analytes comprises: a container (12) that contains particles, which are to be detected and/or quantified, on analytes; at least one oscillator (13, 16; 25) for generating frequencies of alternating magnetic fields (15, 18); at least one field generator (14, 17) for subjecting the analytes to alternating magnetic fields (15, 18); a magnetic field sensor (20) for measuring a response magnetic field (19) of the particles, and; at least one phase-sensitive detector (21, 23).

Abstract: A method for suppressing non-specific bindings between molecules includes providing magnetic particles dispersed in a liquid, wherein each of the magnetic particles has a magnetization. The magnetic particles are coated with coating molecules. Binding molecules mixed of first-type binding molecules and second-type binding molecules are applied to the liquid, wherein the coating molecules are specifically binding with the first-type binding molecules and non-specifically binding with the second-type binding molecules. An alternating current (ac) magnetic field is applied at an axis with a frequency level, wherein the frequency level causes suppression of the second-type binding molecules in binding with the coating molecules.

Abstract: An ultra-sensitive, wash-free method for quantitatively determining the concentration of biomolecules in a sample solution is provided. The sensitivity of the method is 1 ppt or below. The method includes providing a reagent containing magnetic nanoparticles and measuring the ac magnetic susceptibility of the reagent. Then, a sample solution containing either multiple-active epitope biomolecules or single-active-epitope biomolecules is mixed with the reagent. The ac magnetic susceptibility of the reagent after the association with the biomolecules is measured. Thereafter, the difference in the ac magnetic susceptibility of the reagent before and after the association with the biomolecules is measured and the concentration of biomolecules in the sample solution is determined.

Abstract: The detection of endothelial cell antibodies has been proven clinically important for successful organ transplantation. Disclosed are methods of isolating endothelial cell antibodies and methods for donor-specific crossmatching.

Abstract: The present invention measures defect fluorescence exhibited from a defect level mainly on a semiconductor nanoparticle surface site which has an energy level existing inside the forbidden band of energy levels inside the semiconductor nanoparticle.

Abstract: Assay systems and methods are provided for detecting a target antigen in a physiological fluid (e.g., blood, serum, or urine). The method includes linking via a first antibody a magnetic microparticle to the target antigen in the physiological fluid; linking via a second antibody a glucose molecule to the target antigen; utilizing a magnetic field to separate the magnetic microparticle-linked antigen from the physiological fluid to form a test sample; and detecting the glucose in the test sample to determine the concentration of target antigen in the physiological fluid. The target antigen can be a protein or marker resulting from cardiac tissue injury, which can be used to assess acute myocardial infarction. An exemplar target antigen is myoglobin. The glucose detection preferably is one that can be done rapidly, e.g., with a conventional glucometer, and may include measuring the electrical resistance, color, or pH of the test sample.

Abstract: The present invention provides an immunoassay technique which enables efficient detection of antigen-antibody reaction with high sensitivity by a magnetic method using magnetic particles and a SQUID magnetic sensor or sensors. A system based on the technique includes a disk-shaped sample holder which holds on a circle a plurality of sample containers for accommodating marked samples, resulting from marking of samples with magnetic particles by antigen-antibody reaction; rotating means for rotating the holder around its central shaft; magnetizing means for magnetizing the marked samples outside a magnetic shield; and a magnetic sensor for detecting, within the magnetic shield, magnetic fields generated from the marked samples which have been magnetized.

Abstract: Assay systems and methods are provided for detecting a target pathogen, such as a microorganism (e.g., bacterium, bacterial toxin) which may be present in a fluid or other location. The method can include linking a magnetic microparticle to a first epitope of the target microorganism in a fluid via a first antibody; utilizing a magnetic field to separate the magnetic microparticle and linked targeted microorganism from at least a portion of other components in the fluid, thereby forming a test sample; linking a glucose molecule to a second epitope of the target microorganism via a second antibody; and detecting the glucose in the test sample to determine the presence or concentration of the target microorganism in the fluid. The glucose detection preferably is one that can be done rapidly, e.g., with a conventional glucometer, and may include measuring the electrical resistance, color, or pH of the test sample.

Abstract: Screening methods for determining pro-apoptotic compounds or anti-apoptotic compounds comprise measuring the interaction between p53 and NEDL1 in the presence and in the absence of a test compound, and comparing the strength of interaction between p53 and NEDL1 in the presence and in the absence of the test compound.

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 relates to a process for quantitative detection of analytes in liquid and solid phases with the aid of binding remanence measurement, compounds that are suitable for this purpose, and their use in analytic chemistry.

Abstract: Compositions of matter and methods for enhancing bioassay performance are disclosed. More particularly, the composition of matter comprises a molecularly compact polymer-ligand conjugate capable of self-orienting on a surface to improve the orientation of the ligand/receptor binding domains within the bioassay at the nanoscopic level. In a preferred embodiment, the molecularly compact polymer comprises a dendrimer polymer such as a fifth generation polyamidoamine dendrimer having exterior surface hydroxyl and amine functional groups, and the ligand/receptor comprises an antibody or Fab.

Abstract: Binding between two members of a recognition pair, e.g. antigen-antibody is determined by utilizing a probe which includes a piezoelectric crystal with electrodes on two opposite faces of the crystal. The crystal carries one or more metal plates which may be the same or different than the electrodes, the metal plates having immobilized thereon a first member of a recognition pair. Binding of a second member of the recognition pair to the first member, or dissociation between the two members and release of the second member from the probe, causes a change of immobilized mass which results in a change to the probe's resonance frequency.