Silica nanocarriers hybridized with superparamagnetic iron oxide nanoparticles (“SPIONs”) and curcumin through equilibrium or enforced adsorption technique. Methods for dual delivery of SPIONs and curcumin to a target for diagnosis or therapy, for example, for SPION-based magnetic resonance imaging or for targeted delivery of curcumin to a cell or tissue. The technique can be extend to co-precipitation of mixed metal oxide involving Ni, Mn, Co and Cu oxide. The calcination temperature can be varied from 500-900° C. The nanocombination is functionalized with chitosan, polyacrylic acid, PLGA or another agent to increase its biocompatibility in vivo.

Disclosed herein, inter alia, are compositions and methods of modulating macrophage activity. Provided is a method of treating a disease (e.g., a macrophage-associated disease, autoimmune disease, inflammatory disease, or a cancer of an organ in the intraperitoneal cavity), the method including intraperitoneally administering to a subject in need thereof a therapeutically effective amount of a nanoparticle composition or pharmaceutical composition. Provided is a silica nanoparticle non-covalently bound to a plurality of nucleic acids, wherein the silica nanoparticle has a net positive charge in the absence of the plurality of nucleic acids. Provided is a pharmaceutical composition including a nanoparticle composition as described herein, and a pharmaceutically acceptable excipient.

A solid oral immediate release formulation of LSD, wherein the composition is produced by lyophilization of a feedstock in a pre-formed mold to form an orally disintegrating tablet. A method of making a solid oral immediate release formulation of LSD by lyophilizing a flash frozen stock solution of LSD and excipients, including a non-gelling matrix former, filler, and binder in a pre-formed mold, and forming an orally disintegrating tablet. A method of treating an individual by administering a solid oral immediate release formulation of LSD, wherein the composition is produced by lyophilization of a feedstock in a pre-formed mold to form an orally disintegrating tablet and treating the individual.

The disclosure provides, inter alia, compositions including cell-nanoparticle constructs and drug loaded nanoparticles, and methods for their use in the treatment of cancer. Also provided are unmodified cisplatin molecules encapsulated by silica nanoparticles, and their use in the treatment of cancer.

Treatment and/or diagnosis of a cancer type characterized by expressing zinc transporter ZIP4. The present invention is directed to nanocarriers functionalized with a ligand capable to bind to the extracellular domain of zinc transporter ZIP4, for use in the treatment and/or diagnosis of a cancer type characterized by expressing ZIP4.

The present invention relates to a mixed-charge nanoparticle for inducing selective death of cancer cells and a use thereof. The mixed-charge nanoparticle of the present invention is localized and crystallized specifically in cancer cell lysosomes through a pH-dependent aggregation behavior due to the balance between positively charged ligands and negatively charged ligands on the surface thereof and can induce lysosomal membrane permeabilization (LMP) and lysosomal cell death mediated thereby, like cationic amphiphilic drugs (CADs) Exhibiting a cancer cell-specific death effect, the nanoparticles of the present invention can surmount the limited medical use of conventional cationic nanoparticles due to the non-specific cytotoxicity thereof. Particularly, the nanoparticles of the present invention do not exhibit toxicity to the human body and normal cells, thus finding useful applications in medical and medicinal uses such as for prevention and treatment of solid cancer, blood cancer, and tumors.

The present disclosure provides nanoparticles including laminarin and a near-infrared responsive photosensitizer covalently bonded thereto, and a composition for preventing, diagnosing, or treating arteriosclerosis comprising the same as an active ingredient. According to the present disclosure, not only the atherosclerotic plaque targeting and plaque-penetrating properties can be enhanced as compared to conventional photodynamic therapy, thus capable of being usefully used for in vivo imaging of atherosclerotic plaques, but also the size of atherosclerotic plaques is reduced by inducing apoptosis of macrophages in atherosclerotic plaques, thus capable of stabilizing atherosclerotic plaques. Therefore, the composition comprising the nanoparticles of the present disclosure as an active ingredient is expected to be usefully used for the prevention, diagnosis and/or treatment of arteriosclerosis, in that photodynamic therapy and image diagnostic of arteriosclerosis can be performed simultaneously or sequentially.

The presently disclosed subject matter relates to nitric oxide-releasing particles for delivering nitric oxide, and their use in biomedical and pharmaceutical applications.

The present disclosure generally relates to metal-organic framework nanoparticles containing terminal phosphate-modified oligonucleotides, methods for making the same, and methods of using the same.

A humanized monoclonal antibody that binds to an advanced glycation end-product-modified protein or peptide on a cell comprises a heavy chain and a light chain. The antibody binds a carboxymethyllysine-modified protein or peptide. A composition comprises a humanized monoclonal antibody that binds to an advanced glycation end-product-modified protein or peptide on a cell and a pharmaceutically acceptable carrier.