Abstract: Methods of detecting malate, and monitoring fibromyalgia, are provided.

Abstract: The present invention relates to methods for determining the quantity of an analyte in sample using lateral flow strips comprising highly-doped upconversion nanoparticles.

Abstract: Chips and metallic nanostructure biosensors comprising a dielectric substrate and discontinuous and disordered metallic nanostructures of flat island shapes thereon are disclosed herein. Also disclosed are methods of making and using the same.

Abstract: An immunoassay platform and methodology are described for discriminatively detecting target microorganism antibodies to a target antigen in a biological sample derived from a host animal, from among antibodies of cross-reactively-related microorganism(s) potentially present in the biological sample, by use of contemporaneous assays conducted with and without blocking antibodies exogenous to the host animal. Attenuation of detection reagent signal between the contemporaneous assays may be used to determine a target antigen previously infected or non-infected status of the host animal.

Abstract: According to one embodiment, a chemical sensor for detecting a target substance in a specimen, the chemical sensor including a sensitive film, a first extracellular region peptide of a transmembrane receptor immobilized on the sensitive film, a liquid phase disposed on the sensitive film, and a second extracellular region peptide of the transmembrane receptor contained within the liquid phase.

Abstract: The present invention provides a method for evaluating the risk of occurrence of cancer in an individual.

Abstract: The present invention provides a method for simply isolating exosomes from a sample containing exosomes. The present invention includes a complex forming step of forming a complex by binding an exosome in a sample to a particular peptide that contains lysines and is supported on a carrier and a dissociating step of dissociating the exosome from the complex by bringing the complex into contact with a dissociation buffer containing metal cations.

Abstract: A detection kit suitable for detecting a target in a sample is provided. The detection kit includes a syringe, a first reaction container, a second reaction container, and a plurality of fluorescent substances. The syringe is loaded with first organic solvent. The first reaction container is connected to the syringe and is loaded with the sample. The second reaction container is connected to the first reaction container and is loaded with second organic solvent. The fluorescent substances are dispersed in the second organic solvent and emit fluorescence. When the target in the sample is dissolved in the first organic solvent and reacts with the fluorescent substances in the second organic solvent, the fluorescence emitted by the fluorescent substances is quenched.