Abstract: The present technology is directed to composition that may be formulated for parenteral administration, where the composition includes a plurality of nanoparticles and optionally a pharmaceutically acceptable carrier. Each nanoparticle of the plurality includes a glatiramoid and one or more of a polyinosine-polycytidylic acid (Poly(I:C)), a plasmid DNA (pDNA), a CpG oligodeoxynucleotide (CpG ODN), or a combination of any two or more thereof.

Abstract: The present technology is directed to composition that may be formulated for parenteral administration, where the position includes a plurality of nanoparticles and optionally a pharmaceutically acceptable carrier. Each nanoparticle of the plurality includes a glatiramoid and one or more of a polyinosine-polycytidylic acid (Poly(LC)), a plasmid DNA (pDNA), a CpG oligodeoxynucleotide (CpG ODN), or a combination of any two or more thereof.

Abstract: Compositions, methods of making, and methods of using nanoclusters in which the nanoclusters comprise a plurality of nanoparticles having a core of nanoparticles arranged such that the surfaces of the nanoparticles contact adjacent nanoparticles, the nanoparticles comprise an active ingredient, and the nanocluster has a mass median aerodynamic diameter of from about 0.25 ?m to about 20 ?m.

Abstract: Compositions, methods of making, and methods of using nanoclusters in which the nanoclusters comprise a plurality of nanoparticles having a core of nanoparticles arranged such that the surfaces of the nanoparticles contact adjacent nanoparticles, the nanoparticles comprise an active ingredient, and the nanocluster has a mass median aerodynamic diameter of from about 0.25 ?m to about 20 ?m.

Abstract: Compositions, methods of making, and methods of using nanoclusters in which the nanoclusters comprise a plurality of nanoparticles having a core of nanoparticles arranged such that the surfaces of the nanoparticles contact adjacent nanoparticles, the nanoparticles comprise an active ingredient, and the nanocluster has a mass median aerodynamic diameter of from about 0.25 ?m to about 20 ?m.

Abstract: Acid-labile poly(N-vinyl formamide) (“PNVF”) nanocapsules were synthesized by free radical polymerization of N-vinyl formamide with optional active ingredients on the surface of silica nanoparticles. Polymerization in the presence of a novel cross-linker that contains an acid-labile ketal facilitated stable etching of silica nanoparticle templates using sodium hydroxide and recovery of PNVF nanocapsules. The formamido side group of PNVF was then hydrolyzed by extended exposure to sodium hydroxide to produce polyvinylamine (“PVAm”) nanocapsules. PNVF and PVAm nanoparticles are also synthesized that form nanogels with optional active ingredients.

Abstract: Complexes comprising a cationic polymer, a nucleic acid and a metal ion are provided. In some embodiments, a complex may be used as a means for delivering nucleic acid to a cell. In some embodiments, a complex may be used as part of a gene therapy. Methods of making a complex comprising a cationic polymer, a nucleic acid, and a metal ion are also described. Methods of condensing a polyplex comprising a cationic polymer and a nucleic acid are also provided.

Abstract: Acid-labile poly(N-vinyl formamide) (“PNVF”) nanocapsules were synthesized by free radical polymerization of N-vinyl formamide with optional active ingredients on the surface of silica nanoparticles. Polymerization in the presence of a novel cross-linker that contains an acid-labile ketal facilitated stable etching of silica nanoparticle templates using sodium hydroxide and recovery of PNVF nanocapsules. The formamido side group of PNVF was then hydrolyzed by extended exposure to sodium hydroxide to produce polyvinylamine (“PVAm”) nanocapsules. PNVF and PVAm nanoparticles are also synthesized that form nanogels with optional active ingredients.

Abstract: Compositions, methods of making, and methods of using nanoclusters in which the nanoclusters comprise a plurality of nanoparticles having a core of nanoparticles arranged such that the surfaces of the nanoparticles contact adjacent nanoparticles, the nanoparticles comprise an active ingredient, and the nanocluster has a mass median aerodynamic diameter of from about 0.25 ?m to about 20 ?m.

Abstract: Acid-labile poly(N-vinyl formamide) (“PNVF”) nanocapsules were synthesized by free radical polymerization of N-vinyl formamide with optional active ingredients on the surface of silica nanoparticles. Polymerization in the presence of a novel cross-linker that contains an acid-labile ketal facilitated stable etching of silica nanoparticle templates using sodium hydroxide and recovery of PNVF nanocapsules. The formamido side group of PNVF was then hydrolyzed by extended exposure to sodium hydroxide to produce polyvinylamine (“PVAm”) nanocapsules. PNVF and PVAm nanoparticles are also synthesized that form nanogels with optional active ingredients.

Abstract: The present invention discloses a nano-cluster that includes a plurality of nano-particles, wherein the nano-particles can disperse in response to an environmental cue. Also disclosed is a method of preventing, treating, or diagnosing a disease or condition in a subject comprising administering a therapeutically effective amount of a composition comprising nano-clusters of the present invention.

Abstract: The present invention discloses a nano-cluster that includes a plurality of nano-particles, wherein the nano-particles can disperse in response to an environmental cue. Also disclosed is a method of preventing, treating, or diagnosing a disease or condition in a subject comprising administering a therapeutically effective amount of a composition comprising nano-clusters of the present invention.

Abstract: The present invention discloses a nano-cluster that includes a plurality of nano-particles, wherein the nano-particles can disperse in response to an environmental cue. Also disclosed is a method of preventing, treating, or diagnosing a disease or condition in a subject comprising administering a therapeutically effective amount of a composition comprising nano-clusters of the present invention.