Various aspects described herein relate to compositions comprising silk fibroin particles and methods of using the same, as well as devices and methods of delivering such compositions. The compositions described herein are suitable for injection into a site of defect in a soft tissue to provide bulking and/or augmentation effect to the soft tissue.

The present disclosure relates to injectable and expandable compositions, devices, kits and methods for use in an approach for the in-situ foaming of polymers for bone or tissue defects, namely to fill and/or fuse a tissue defect. The present disclosure relates to compositions, devices, kits and methods for use in an approach for the in-situ foaming of polymers for bone or tissue defects, namely for bone tissue defect filling/fusion. The design of extendable and expandable compositions for bone fusion is one of the most challenging fields in the intersection of polymer and biomedical engineering. An aspect of the present disclosure relates to an injectable expandable composition for use in medicine, veterinary or cosmetic, comprising a polycaprolactone particle filler; a polydopamine adhesive bound to said filler; a polymethacrylic acid plasticizer bound to said polydopamine adhesive.

An implant for promoting accelerated wound healing. The implant comprises a non-flocculating fiber material, admixed with a settable fluid. The fiber component typically will have short fiber lengths, so as to avoid forming entangled masses or clumps when mixed with a fluid. In an embodiment, the fiber material is native collagen fibers and the settable fluid is an isolated blood fraction, such as platelet rich plasma and platelet poor plasma. The native collagen fiber retaining the native crosslinks of the source tissue and providing an architectural and structural scaffolding for advancing cellular infiltration. The wound healing implant will accelerate the bodies healing process, to provide better healing and less scar tissue of the wound site.

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.

Disclosed embodiments relate to a wound dressing which can generate nitric oxide. The wound dressing may include a cover layer, an activator layer such as an acid providing layer and nitric oxide source layer, such as a nitrite providing layer. The activator layer may include acidic groups and may be hydrogel, xerogel, or other suitable material. The activator layer may include a copolymer of monomers with one or more covalently linked multifunctional groups.

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 temperature-sensitive hydrogel material combination, a preparation method thereof, and use thereof are provided. The temperature-sensitive gel material combination provided by the present invention includes an SDF-1-loaded chitosan-hyaluronic acid solution and an Apt19S-loaded chitosan-hyaluronic acid solution. The present invention aims to develop a temperature-sensitive injectable double-layer hydrogel loaded with biological factors capable of promoting cell migration, which is used for promoting the regeneration of periodontal tissues.

Methods and devices for the repair of articular tissue using collagen material are provided. Compositions of collagen material and related kits are also provided.

The present invention describes neutral pH soluble collagen-glycosaminoglycan compositions and methods for augmenting soft tissue defects using the compositions. Soft tissue defects include dermal wrinkles and dermal folds, dermal contour unevenness and laxity and subdermal volume deficiencies. The compositions may also be used for and promoting cellular growth and stimulating tissue regeneration.

A composite material can include a gel and at least one nanostructure disposed within the gel. A method for healing a soft tissue defect can include applying a composite material to a soft tissue defect, wherein the composite material includes a gel and a nanostructure disposed within the gel. A method for manufacturing a composite material for use in healing soft tissue defects can include providing a gel and disposing nanofibers within the gel.