Various aspects of the present disclosure provide compositions including a water-insoluble therapeutic agent and a gallate-containing compound. Other aspects provide methods of using such compositions.

The invention provides materials presenting a biologically active matrix comprising a physiological fibrillar fibronectin network, such as implantable constructs, and their use for modulating cell behaviour and fate, including cell growth, proliferation and/or differentiation, such as for promoting tissue regeneration, for example, bone regeneration or vascularization. Also provided are constructs presenting a biologically active matrix comprising a physiological fibrillar fibronectin network for sustaining growth of stem cells or maintaining stem cells (maintaining stemness).

Embodiments described herein relate to restorative solutions for segmental peripheral nerve (PN) defects using allografted PNs for stimulating PN repair. More specifically, embodiments described herein provide for localized immunosuppression (LIS) surrounding PN allografts as an alternative to systemically suppressing a patient's entire immune system. Methods described herein provide for injection of ISV agents into a nerve graft prior to implantation of the nerve graft into a recipient. Methods described herein also provide for injection of ISV agents with a polymerizable carrier into a nerve graft, polymerization of the carrier within the graft, and implantation of the nerve graft into a recipient. Certain embodiments provide for reinnervation of central nervous system (CNS) axons in a spinal cord utilizing a peripheral nerve graft.

Aptamer-modified polymers and materials thereof, used for binding factors in a wound bed. The aptamer-modified materials can be polypeptides conjugated to polymer foam materials and used, for example, as dressings, wound inserts, or pads.

Compositions of the invention for regenerating defective or absent myocardium comprise an emulsified or injectable extracellular matrix composition. The composition may also include an extracellular matrix scaffold component of any formulation, and further include added cells, proteins, or other components to optimize the regenerative process and restore cardiac function.

A hybrid hydrogel including a hydrogel material and a plurality of first hybrid nanoparticles is provided. The plurality of first hybrid nanoparticles are conjugated to the hydrogel material, wherein each of the first hybrid nanoparticles includes a first positive-charged polysaccharide and a first negative-charged polysaccharide. The first positive-charged polysaccharide is located at an inner core of the first hybrid nanoparticles. The first negative-charged polysaccharide is located at an outer shell of the first hybrid nanoparticles and carries a plurality of first growth factors. The first negative-charged polysaccharide and the first positive-charged polysaccharide are electrostatically attracted to form the first hybrid nanoparticles. A method of fabricating the hybrid hydrogel is also provided.

The present invention provides a pharmaceutical composition for healing tissue, said pharmaceutical composition containing: adherent cells originating from mesenchymal tissue that has been treated with a physiologically active polypeptide or an LPS; and a pharmaceutically acceptable carrier.

This invention provides solid substrates for promoting cell or tissue growth or restored function, which solid substrate is characterized by a specific fluid uptake capacity value of at least 75%, which specific fluid uptake capacity value is determined by establishing a spontaneous fluid uptake value divided by a total fluid uptake value. This invention also provides solid substrates for promoting cell or tissue growth or restored function, which solid substrate is characterized by having a contact angle value of less than 60 degrees, when in contact with a fluid. This invention also provides solid substrates for promoting cell or tissue growth or restored function, which said substrate is characterized by a substantial surface roughness (Ra) as measured by scanning electron microscopy or atomic force microscopy. The invention also provides for processes for selection of an optimized coral-based solid substrate for promoting cell or tissue growth or restored function and applications of the same.

AN endovascular stent graft including a hydrogel capable of retarded swelling when coming into contact with blood upon implantation in a patient is provided. Methods for the treatment of aneurysms and the prevention of ischemic neurological damage, in particular spinal cord damage, in patients receiving aneurysm repair procedures, using said endovascular stent grafts is also provided.

Skeletonized blood vessels for use as vascular grafts are protected from biomechanical injury and/or certain cellular and extracellular changes by application of a biocompatible hydrogel to the vessel exterior. The hydrogel may be applied to the vessel graft before or after harvesting from a donor patient.