Free-standing non-fouling polymers and polymeric compositions, monomers and macromonomers for making the polymers and polymeric compositions, objects made from the polymers and polymeric compositions, and methods for making and using the polymers and polymeric compositions.

In one aspect, methods of targeted nanoparticles and cell delivery are described herein. In some embodiments methods described herein comprise coupling nanoparticles and cells to a carrier cell to form a nanoparticle-cell conjugate or cell-cell conjugate, disposing the nanoparticle-cell or cell-cell conjugate in a biological environment, and delivering the nanoparticles and cells to target cells or tissues located within the biological environment. The nanoparticles comprise a biodegradable photoluminescent polymer, and the nanoparticle-cell conjugate is formed using one or more click chemistry reaction products.

The present invention provides novel, solid or liquid pharmaceutical preparations comprising a basic or neutral, low molecular weight active pharmaceutical ingredient and the polymer Eudragit® EPO, optionally together with additional pharmaceutically acceptable excipients. The present preparations are for oral or topical administration.

A tertiary amine pharmaceutical composition includes a drug having a tertiary amine structure, a biocompatible polymer material, and a quaternary ammonium salt impurity. The pharmaceutical composition is obtained by dissolving or dispersing the drug in a halogenated hydrocarbon or a mixed solvent mainly containing halogenated hydrocarbon or a solution containing halogenated hydrocarbon. The quaternary ammonium salt impurity is generated from reacting the drug having the tertiary amine structure with the halogenated hydrocarbon. The pharmaceutical composition comprises 40 wt % to 80 wt % of the biocompatible polymer material, and 20 wt % to 60 wt % of the drug with the tertiary amine structure. The content of the quaternary ammonium salt impurity is less than 0.05 wt %, the content of the halogenated hydrocarbon in the composition is less than 1.5 wt %, and the quaternary ammonium salt impurity does not increase or increases slowly during storage, which complies with requirements of pharmaceutical regulations.

Nanoparticle compositions for delivery of nucleic acids to subjects including carriers comprising sugar functionalized nucleic acid carriers, and therapeutic or immunogenic nucleic acid agents enclosed within the delivery molecules are described. Methods for treating or preventing diseases or conditions in a subject by administering the nanoparticle compositions that provide immune responses and synergistic therapeutic or preventive effects are provided.

Embodiments of the invention concern copolymers and nanoparticles for use as delivery agents for one or more agents for therapy for a medical condition of humans and animals. Some of embodiments of the invention provide new reagents for biomedical research in cell culture, animal models and plants, for example. The copolymers comprise PLGA and PEI and, in some embodiments, also comprise 1-(3-aminopropyl)-4-methylpiperazine (APMP), Fc binding peptide and/or antibody. In certain embodiments, APMP-PLGA-PEI, Fc binding peptide/antibody-PLGA-PEI or Fc binding peptide/antibody-APMP-PLGA-PEI nanoparticles comprising one or more therapeutic agents are delivered to an individual in need thereof or used for biomedical research in cell cultures, animal models and plants.

Anti-PD-1/PD-L1 antibody conjugated nanoparticles and methods of treating cancer, including without limitation hepatocellular carcinoma, are provided. The conjugates comprise antibodies, e.g. antibody F(ab) fragments, covalently linked to nanopartides. The antibody conjugated nanoparticles provide high tumor-specific delivery by extending circulation time of the antibodies by increasing their geometry and removing the Fc portion, and minimizing off-target distribution and toxicity. In some embodiments the antibody conjugated nanoparticlesprovide for increased therapeutic efficacy, e.g. in decreased tumor growth, relative to unconjugated antibody, or relative to unconjugated F(ab) fragments of an antibody.

Devices, materials, compounds, systems, and processes for Cherenkov-Activated Nuclear-Targeted Photodynamic Therapy that involves generating Cherenkov light within the tissue of a target volume and using this light to activate photosensitizing material that is located in the nucleus of cells of the target volume.

The present disclosure relates to improvements in the selection and formulation of PBAE polymers using a design of experiment approach, in which statistical methods are used to limit possible experimental conditions. The present disclosure relates to improved PBAE polymers and formulations.

A polymeric delivery system delivers a biologic to cells. In some embodiments, the polymeric delivery system includes polyplexes. Each polyplex includes at least one charged polymer and at least one biologic. The at least one charged polymer includes a polyester copolymer of a polyol and a polycarboxylic acid modified with at least one charged moiety having an opposite charge from a net charge of the at least one biologic. In other embodiments, the polymeric delivery system includes self-assembled particles including a block copolymer and a biologic associated with the block copolymer. The block copolymer includes a first block of a polyester copolymer of a polyol and a polycarboxylic acid and a second block of a second monomer or a second polymer.