Hyaluronic acid and silk fibroin or silk fibroin fragments tissue fillers and methods of making and using the same are provided herein. In some embodiments, the disclosure relates to a biocompatible tissue filler comprising silk fibroin or silk fibroin fragments, hyaluronic acid (HA), and polyethylene glycol (PEG) and/or polypropylene glycol (PPG), wherein a portion of the HA is modified or crosslinked by one or more linker moieties comprising one or more of polyethylene glycol (PEG), polypropylene glycol (PPG), and a secondary alcohol, wherein the linker moieties are attached to the HA at one end of the linker.

A microporous gel system for certain applications, including biomedical applications, includes an aqueous solution containing plurality of microgel particles including a biodegradable crosslinker. In some aspects, the microgel particles act as gel building blocks that anneal to one another to form a covalently-stabilized scaffold of microgel particles having interstitial spaces therein. In certain aspects, annealing of the microgel particles occurs after exposure to an annealing agent that is endogenously present or exogenously added. In some embodiments, annealing of the microgel particles requires the presence of an initiator such as exposure to light. In particular embodiments, the chemical and physical properties of the gel building blocks can be controlled to allow downstream control of the resulting assembled scaffold. In one or more embodiments, cells are able to quickly infiltrate the interstitial spaces of the assembled scaffold.

Provided is an implant configured to fit at or near a bone defect to promote bone growth. The implant comprises an oxysterol uniformly disposed in an acellular tissue matrix (ATM). The acellular tissue matrix can be porcine collagen, which in some cases is crosslinked. The implant can contain an acellular porcine crosslinked collagen in an amount of about 5 wt. % to about 25 wt. % of the implant and an oxysterol in an amount of about 5 wt. % to about 90 wt. % of the implant. The oxysterol can be Oxy133 monohydrate or an Oxy133 polymorph. Methods of making and using the implant are further provided.

In some aspects, the present invention provides surgical procedures that comprise applying compositions into and/or onto tissue, including supporting tissues (e.g., ligaments, connective tissue, muscles, etc.) for pelvic organs, among other tissues. In other aspects, the present disclosure pertains to compositions that are useful for performing such procedures. In still other aspects, the present disclosure pertains to kits that are useful for performing such procedures.

Aspects of the present disclosure generally relate to compounds for targeting and healing bone fractures. Some of these compounds include a negatively charged oligopeptide comprising an acidic oligopeptide, a linker, which may be hydrolyzable or may be a substrate for the protease cathepsin K, and at least one molecule that promotes bone healing. In some compounds the molecule that promotes bone healing is an anabolic compound that inhibits GSK3β, in some compounds the molecule that promotes the healing of bone fracture is a pro-inflammatory agent such as PGE1. Other embodiments include methods of treating a bone fracture comprising administering a therapeutic amount of any one of the compounds disclosed herein.

Provided subject matter relates to tissue engineering. More specifically provided are kits, devices and methods for in situ repair and regeneration of guided and functional growth of cells and cell components by providing into the injury site biomaterial solution including the cell(s), magnetic particles and solidifying the biomaterial while applying the magnetic field.

The present invention provides a novel repair agent for damaged tissue that brings about a notably high effect of repairing damaged tissue, as compared with conventional repair agents for damaged tissue, and a method for producing such a repair agent. A method for producing a repair agent for damaged tissue of the present invention includes the step of culturing mesenchymal stem cells in a serum-free medium at an oxygen concentration of less than 5%.

Disclosed are injectable dermo-aesthetic formulations comprising aqueous solutions of at least one unmodified high-molecular-weight linear hyaluronic acid or hyaluronate and at least one unmodified low-molecular-weight linear hyaluronic acid or hyaluronate or non-sulphated chondroitin. The compositions according to the invention are useful as fillers with an excellent safety profile, adequate residence time at the site of application, and limited extrusion force.

The present invention provides radical crosslinked zwitterionic gels, methods of preparing the radical crosslinked zwitterionic gels, and methods of using the radical crosslinked zwitterionic gels for treating a wound.

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.