Some embodiments of the disclosure disclose a process for adhering cells, beads or particles to a surface of a material. The surface may be flat or curved and can be employed in the context of patterned or 3D printed hollow channels, facilitating the recapitulation of certain aspects of physiological systems. In various embodiments, interfacial cell seeding is accomplished by locally polymerizing a carrier containing a suspension of cells along the surface with a crosslinking molecule incorporated into the target material in advance of the interfacial polymerization. Polymerization of the carrier entraps the cells into controlled configuration along the surface. The techniques disclosed herein can be utilized for tissue engineering to build engineered organs/devices suitable for implanting into living organisms.

An injectable medical composition includes an acrylate and a solvent. The composition has a first viscosity at temperatures below body temperature and a second viscosity at body temperature. The first viscosity is lower than the second viscosity.

The present invention provides a novel angiogenesis device. The angiogenesis device comprises an angiogenic component and a polymer, and is used to induce angiogenesis at a site for implantation of a cell- or tissue-containing device. The polymer may comprise, for example, at least one or more polyvinyl alcohol resins (A) selected from a modified polyvinyl alcohol resin having an active carbonyl group (A1), a polyvinyl alcohol resin having a triad syndiotacticity of 32 to 40% (A2), and a polyvinyl alcohol resin having a degree of saponification of 97 mol % or more (A3).

The present invention provides a novel angiogenesis device. The angiogenesis device comprises an angiogenic component and a polymer. The polymer may comprise, for example, at least one or more polyvinyl alcohol resins (A) selected from a modified polyvinyl alcohol resin having an active carbonyl group (A1), a polyvinyl alcohol resin having a triad syndiotacticity of 32 to 40% (A2), and a polyvinyl alcohol resin having a degree of saponification of 97 mol % or more (A3).

The present disclosure pertains to therapeutic hydrogels that comprise an anionic polysaccharide crosslinked by a branched polyamine, wherein the branched polyamine comprises at least two primary amine groups, more typically at least three primary amine groups. The present disclosure also pertains to medical compositions that comprise such therapeutic hydrogels and to methods of medical treatment in which such therapeutic hydrogels are delivered to a patient in need of medical treatment.

The compositions of the present invention comprise at least one medium polarity oil and at least one antibacterial agent, the combination of which produces a synergistic antibacterial effect against bacterial biofilms. Methods are disclosed for the reduction of bacteria in and/or elimination of bacterial biofilms on biological and non-biological surfaces, as well as methods for the treatment of wounds, skin lesions, mucous membrane lesions, and other biological surfaces infected or contaminated with bacterial biofilms.

The present invention relates to formulations for administration to a joint fat pad of a subject, and to methods of treating joint pain, inflammation or disease. The disclosed formulations are intended for local administration to the joint fat pad to provide sustained release of a therapeutic agent to the joint cavity and surrounding tissues. The joint may be an arthritic joint, an injured joint or a surgically replaced joint. The therapeutic agent may be an analgesic agent, an anti-inflammatory agent or an immunosuppressive agent. A single administration of the formulation to the joint fat pad delivers a therapeutically effective amount of the therapeutic agent with reduced systemic exposure relative to a single systemic or a single intra-articular administration of a therapeutic dose of an identical therapeutic agent.

A cell or tissue embedding device having an aqueous gel serving as an immunoisolation layer, the aqueous gel containing, as components thereof, a denatured polyvinyl alcohol resin having an activated carbonyl group and a crosslinking agent is highly capable of supplying a physiologically active substance.

Medical devices with a hydrogel layer covalently attached to a portion of the outer surface of the medical device are provided along with methods for applying the coating. The hydrogel layer can include a first polymer species comprising polyethylene glycol (PEG) and a second polymer species. Examples of the second polymer species include PEG and polyacrylamide (PAM). The first and second species can be at least partially cross-linked. Methods for forming the hydrogel coatings on the medical devices are provided including nucleophilic conjugate reactions, such as Click reactions.

Methods and hydrogels for preventing or reducing cellular adhesion and protein adsorption to a tissue (e.g. cardiac tissue) are disclosed. The hydrogels generally include at least two component polymers, a first polymer including an aminooxy group and a second polymer including a reactive oxo group, that are cross-linked by oxime bonds. The hydrogels are suitable for binding to and coating a tissue or cell. The hydrogels operate to reduce cellular adhesions and protein adsorption to the tissue or cell.