Non-linear multiblock copolymer-drug conjugates for the treatment and prevention of diseases and disorders of the eye are provided. The polymer-drug conjugates can form nanoparticles, microparticles, and implants that are capable of effectively delivering therapeutic levels of one or more active agents for an extended period of time. Administration to the eye of an active agent in the form of a non-linear multiblock copolymer-drug conjugate produces decreased side effects when compared to administration of the active agent alone. Also provided are methods of treating intraocular neovascular diseases, such as wet age-related macular degeneration as well as diseases and disorders of the eye associated with inflammation, such as uveitis.

Described are implantable devices comprising DNA nanostructures comprising a cell ligand at a proximal end tethered to an implantable substrate at a distal end for delivery of CpG oligodeoxynucleotides to cancer cells and methods of use and systems thereof.

Biodegradable, cross-linked polymer particle embolics and methods of making the same are described. The particle embolics can be used as embolization agents.

Disclosed herein are platelet-like particles incorporating antimicrobial metallic nanoparticles. The platelet-like particles include an ultra-low crosslinked polymeric microgel and fibrin targeting moiety. The antimicrobial metallic nanoparticles can be covalently or noncovalently incorporated into the platelet-like particles. The particles are useful to stop bleeding and to promote wound healing while at the same time suppressing bacterial infections that can accompany tissue damage.

Synthetic peptides comprising a sequence of amino acids XnVm, wherein X represents positively charged amino acid, Y represents hydrophobic amino acid, and both n and m are greater than 2 are disclosed. In accordance with the purposes of the disclosed compositions and methods, as embodied and broadly described herein, the disclosed subject matter relates to synthetic antimicrobial peptides and methods of making and using same.

Microparticles based on ester derivatives of hyaluronan and related methods and compositions are disclosed. The microparticles comprise a conjugate of all-trans retinoic acid and a particular hyaluronan comprising from 1 to 5000 dimer units; where the microparticles comprise a degree of substitution of all-trans retinoic acid residues in the conjugate of hyaluronan in the range of from 0.1 to 8%. Methods of preparing the microparticles and related compositions are also disclosed.

Biodegradable particles for interacting with immune cells to generate an immunosuppressive effect are disclosed. The biodegradable particle comprises a polyester or polyester blend with at least one soluble protein or small molecule encapsulated within the particle and at least two types of protein attached to a surface of the particle or to a coating on the surface thereof, which can be used to induce targeting regulatory T cells (Tregs). The at least two types of protein attached to a surface of the particle or to a coating on the surface thereof include a “Signal 1” protein that binds to an immune cell and a “Signal 2” protein that acts as a co-stimulatory molecule to immune cells. The encapsulated protein can be an interleukin and/or a cytokine. Methods of their use for treating a disease or condition, including an autoimmune disease, are disclosed.

Provided herein are methods of treatment, compositions, systems and kits using polymer particles as restraints of neutrophil function. Such methods include, but are not limited to, methods of preventing, treating, and/or ameliorating inflammatory diseases, infections, autoimmune diseases, malignant diseases, and other diseases or conditions in which neutrophils may be implicated. In some embodiments, polymer particles are useful for diagnosing neutrophil related diseases or conditions.

A polymeric hydrogel microparticle that contains polyacrylamide and chitosan, the chitosan uniformly incorporated in a polyacrylamide matrix. The microparticle, having a coefficient variation of 0 to 2% and containing macropores with an average size of 1 to 60 nm, is capable of transporting biomolecules conjugated to it. Also disclosed are a method of fabricating such a microparticle in a micromold via photo-induced radical polymerization and a one-pot method of conjugating biomolecules to polymeric hydrogel microparticles.

The present invention relates to a microcapsule composition in which polydopamine-coated calcium carbonate microspheres are encapsulated by forming an alginate gel on the surface of a spheroid conjugated thereto, and a method of preparing the same, and it is confirmed that according to the method of preparing the microcapsule, the drug or physiologically active material was individually microencapsulated by gradually forming an alginate gel on the surface of the spheroid containing the drug or physiologically active material, a drug or a bioactive material is placed in the center of a capsule in a very simple way, and a capsule of a very small size can be manufactured in a short time compared to the conventional encapsulation method by adjusting the size of the capsule.