A novel detection system and method is presented, where a two-bead receptor method is used for capturing pathogens, with one type of bead being magnetic and having a size of 3 microns or smaller, and the other type being polymeric and having a size of 3 microns or larger. The first type is used to concentrate a pathogen; the latter is used to create a detectable signal. Fast sensitive detection is achieved by collecting the optical signal created by the distortion of a homeotropically aligned chromonic azo dye in the presence of captured pathogens.

Compositions comprising multiple hydrogel particles having substantially the same diameter, but with each subgrouping of particles from the multiple hydrogel particles having different associated values for one or more passive optical properties that can be deconvoluted using cytometric instrumentation. Each hydrogel particle from the multiple hydrogel particles can be functionalized with a different biochemical or chemical target from a set of targets. A method of preparing hydrogel particles includes forming droplets and polymerizing the droplets, with optional functionalization.

The present invention relates to a method of detecting and/or quantitating an analyte of interest in a plurality of biological liquid samples. Furthermore, the present invention relates to a kit and a cartridge for performing a method for detecting and/or quantitating an analyte of interest in a plurality of samples.

Provided herein are devices and methods that enable co-incubation of microorganisms. Also provided are methods of making such devices for co-incubation of microorganisms, and various applications of such devices.

Provided is a method of detecting the presence of an anti-Zika virus (ZIKV) antibody in a sample, including contacting a sample with a suspension having a plurality of microspheres wherein individual microspheres are conjugated to a peptide and the peptide includes a ZIKV peptide selected from the group including ZIKV NS1, ZIKV NS5, and ZIKV envelope protein, forming a first incubated suspension by incubating said sample with said suspension to permit binding of anti-ZIKV antibodies present in the sample to said microspheres, forming a second incubated suspension by contacting said first incubated suspension with an anti-ZIKV antibody detecting-reagent to permit binding of the anti-ZIKV antibody detecting reagent to said microspheres, removing from the second incubated suspension anti-ZIKV antibody detecting-reagent molecules that are not bound to said microspheres, and detecting the presence of anti-ZIKV antibody detecting-reagent molecules in the second incubated suspension. Also provided is a kit containing reagents and compositions for performing the foregoing method.

The present invention relates to a method and system for screening and separating biological specimens. The screening and separating method and system provide reliable results based on information related to the types, shapes, and positions of labeled products provided by an agent for accurate screening. In addition, the information related to the types, shapes, and positions can be combined to determine objective indices for the state of a target specimen, enabling rapid selection of the target specimen. The method and system for screening and separating biological specimens according to the present invention use an agent optimized to accurately and effectively create information on the selection of a target specimen and process images based on information on images stored in a server, enabling sensitive and highly reproducible screening evaluation.

Described is a method and device for detecting an analyte in a sample, comprising bringing a sample comprising a target analyte into contact with magnetisable particles, the particles being coated with binding molecules complementary to the target analyte, resulting in bound and unbound binder complexes, positioning the magnetisable particles, comprising both bound and unbound binder complexes, in proximity to a magnetic field sensor, changing the magnetic field sufficient to release at least a portion of the magnetisable particles, comprising both bound and unbound binder complexes, from their proximity to the magnetic field sensor, and measuring changes in a magnetic signal detected from the net movement, being either translational or rotational movement, of the magnetisable particles relative to the magnetic sensor.

Described herein are methods and systems for identifying protein-protein interactions using particle panels and protein corona formation. Also disclosed herein are systems and methods for enrichment analysis between protein annotations and particle biophysicochemical properties.

The present invention relates to systems and methods for detecting analyte molecules or particles in a fluid sample and in some cases, determining a measure of the concentration of the molecules or particles in the fluid sample. Methods of the present invention may comprise immobilizing a plurality of analyte molecules or particles with respect to a plurality of capture objects. At least a portion of the plurality of capture objects may be spatially separated into a plurality of locations. A measure of the concentration of analyte molecules in a fluid sample may be determined, at least in part, on the number of reaction vessels comprising an analyte molecule immobilized with respect to a capture object. In some cases, the assay may additionally comprise steps including binding ligands, precursor labeling agents, and/or enzymatic components.

Calibration and/or quality control reagents are disclosed for use in serology immunoassays for antibodies to a microorganism. In the reagents, antibodies specific to an antigen of the microorganism are complexed with anti-human Ig antibody to form a complex. Kits and microfluidics devices containing the reagents are also disclosed, along with methods of producing and using the reagents.