In an embodiment, a drug delivery system and method of use thereof to treat inflammation and bacterial pathogens including multi-drug resistant pathogens, such as MDR-Pseudomonas aeruginosa, or reactive oxygen species in a subject is provided. In some embodiments, the drug delivery system includes a polymeric material, an excepient, an antioxidant agent, and an anti-inflammatory and antimicrobial agent. In some embodiments, the anti-inflammatory and antimicrobial agent is a salt of an anti-inflammatory agent and an antimicrobial agent formulated to provide a combination of antimicrobial and anti-inflammatory action from a single molecule. In some embodiments, the combined anti-inflammatory and antimicrobial agent is a silver salt of ibuprofen. In other embodiments, the combined anti-inflammatory and antimicrobial agent is unmodified, native ibuprofen.

The invention related to therapeutic polymeric materials and medical implants containing additives and/or analgesic agents. The invention also relates to methods of making therapeutic polymeric materials and medical implants containing additives and/or analgesic agents. Methods of spatially controlling additive concentrations and release as well as polymeric material morphology are also provided.

In one aspect, the disclosure relates pertains to a vitreous substitute comprising a gel and an antioxidant, wherein the vitreous substitute mimics the physical properties of natural vitreous humor, as well as its methods of use in the treatment of ophthalmological disorders.

A medical device including a substrate and a hydrophilic polymer layer and satisfying the following conditions: (1) that the hydrophilic polymer layer is on at least a part of the substrate; (2) that the hydrophilic polymer layer contains: a hydrophilic polymer having an acidic group; and a compound having an acidic group and a ring structure; and (3) that a time during which a liquid film is retained on the surface of the medical device (a liquid film retention time) is 10 seconds or more after the medical device is stationarily immersed in a phosphate buffer solution, pulled up from the phosphate buffer solution, and retained in the air. The present invention provides a medical device in which a surface of a substrate is hydrophilized, and a method for manufacturing same by a simple method.

Balloon catheters, methods for preparing balloon catheters, and uses of balloon catheters are disclosed. The balloon catheter includes an elongate member, an expandable balloon, and a coating layer overlying an exterior surface of the expandable balloon. The coating layer includes a total drug load of a hydrophobic therapeutic agent and a combination of additives including a first additive and a second additive. The hydrophobic therapeutic agent is paclitaxel, rapamycin, or paclitaxel and rapamycin. The first additive is a surfactant. The second additive is a chemical compound having one or more hydroxyl, amino, carbonyl, carboxyl, acid, amide, or ester groups.

Balloon catheters, methods for preparing balloon catheters, and uses of balloon catheters are disclosed. The balloon catheter includes an elongate member, an expandable balloon, and a coating layer overlying an exterior surface of the expandable balloon. The coating layer includes a total drug load of a hydrophobic therapeutic agent and a combination of additives including a first additive and a second additive. The hydrophobic therapeutic agent is paclitaxel, rapamycin, or paclitaxel and rapamycin. The first additive is a surfactant. The second additive is a chemical compound having one or more hydroxyl, amino, carbonyl, carboxyl, acid, amide, or ester groups.

A detergent-free decellularized ECM preparation method, a detergent-free decellularized ECM in a powder form and in a liquid form, a method of preparation of a primary bioink, the primary bioink, a method of preparation of a vascular bioink, the vascular bioink, a three dimensional structure including the primary bioink and/or the vascular bioink and a method of preparation of the three-dimensional structure.

Balloon catheters, methods for preparing balloon catheters, and uses of balloon catheters are disclosed. The balloon catheter includes an elongate member, an expandable balloon, and a coating layer overlying an exterior surface of the expandable balloon. The coating layer includes a total drug load of a hydrophobic therapeutic agent and a combination of additives including a first additive and a second additive. The hydrophobic therapeutic agent is paclitaxel, rapamycin, or paclitaxel and rapamycin. The first additive is a surfactant. The second additive is a chemical compound having one or more hydroxyl, amino, carbonyl, carboxyl, acid, amide, or ester groups.

The present invention relates to a biopolymer-based hydrogel as a functional biomaterial produced by crosslinking in the presence of a photopolymerization initiator. The hydrogel of the present invention is elastic so as to be adapted to various shapes in both in vivo and in vitro applications. It is biocompatible, achieving maximum effects on wound healing as wound dressing and tissue adhesion preventing material. The present invention also relates to a method for producing the biocompatible hydrogel.

A wound dressing material comprising: a wound dressing carrier, N-acetyl cysteine or a salt or derivative thereof, and a stabilized ascorbate. Suitably, the stabilized ascorbate comprises an ascorbate-2-polyphosphate. Also provided are wound dressings comprising the materials, methods of treatment with the materials, and methods of making the materials.