Abstract: The present invention relates to a set of polymer particles stained with at least two fluorescent dyes, wherein at least 16 subsets of particles can be resolved on the basis of variable emission from the at least two fluorescent dyes wherein emission from at least one dye derives from a fluorescent dye covalently attached to the particle surface, and wherein all particles in said set of polymer particles can bind a uniform amount of a capture reagent. The invention also relates to a method for the preparation of said set of polymer particles as well as a kit comprising said set of polymer particles. The invention further relates to methods and uses of said set of polymer particles.

Abstract: A set of polymer particles stained with at least two fluorescent dyes is presented. At least 16 subsets of particles can be resolved on the basis of variable emission from the at least two fluorescent dyes where emission from at least one dye derives from a fluorescent dye covalently attached to the particle surface. All particles in the set of polymer particles can bind a uniform amount of a capture reagent. A method for the preparation of the set of polymer particles as well as a kit including the set of polymer particles is also presented as well as methods and uses of the set of polymer particles.

Abstract: The present invention relates to diagnosis, classification and monitoring of atherosclerotic plaques in an individual using measurement of the concentration of CD36 in a body fluid and/or the plaque as such. The present invention also relates to diagnosing the burden of atherosclerotic plaques in an individual. Furthermore, the invention relates to a method for diagnosing stenosis caused by atherosclerotic plaques. Within the scope of the present invention are also methods for determining the treatment regime of an individual. Kits and oligonucleotides for use in the methods are claimed.

Abstract: A set of polymer particles stained with at least two fluorescent dyes is presented. At least 16 subsets of particles can be resolved on the basis of variable emission from the at least two fluorescent dyes where emission from at least one dye derives from a fluorescent dye covalently attached to the particle surface. All particles in the set of polymer particles can bind a uniform amount of a capture reagent. A method for the preparation of the set of polymer particles as well as a kit including the set of polymer particles is also presented as well as methods and uses of the set of polymer particles.