Abstract: Fibrous calcium pyrophosphate particles with a unique fibrous nanostructure are disclosed. The invention includes a composition, comprising fibrous particles, wherein the fibrous particles include fibers and the fibers include calcium and pyrophosphate. Also included are methods for making calcium pyrophosphate particles wherein solutions of calcium salt and pyrophosphate salt are combined to form the particles. Pharmaceutical compositions and methods for treating a patent using the disclosed particles are also described.
Abstract: Fibrous calcium pyrophosphate particles with a unique fibrous nanostructure are disclosed. The invention includes a composition, comprising fibrous particles, wherein the fibrous particles include fibers and the fibers include calcium and pyrophosphate. Also included are methods for making calcium pyrophosphate particles wherein solutions of calcium salt and pyrophosphate salt are combined to form the particles. Pharmaceutical compositions and methods for treating a patent using the disclosed particles are also described.
Abstract: Fibrous calcium pyrophosphate particles with a unique fibrous nanostructure are disclosed. The invention includes a composition, comprising fibrous particles, wherein the fibrous particles include fibers and the fibers include calcium and pyrophosphate. Also included are methods for making calcium pyrophosphate particles wherein solutions of calcium salt and pyrophosphate salt are combined to form the particles. Pharmaceutical compositions and methods for treating a patent using the disclosed particles are also described.
Abstract: Discloses are stabilized calcium pyrophosphate nanotubes, a process for making calcium pyrophosphate nanotubes comprising agitating at less than 2 OkHz an aqueous suspension of a calcium and a phosphate for a time sufficient to precipitate said inorganic calcium pyrophosphate nanotubes, and uses thereof.
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