The present inventions are directed to shear-thinning and stabilizing hydrogels, especially for use in drug delivery and therapy. Various embodiments provide settable, shear-thinning hydrogels, each hydrogel comprising a hydrophilic polymer network, said hydrophilic polymer network comprising non-covalent crosslinks and at least one set of chemical moieties being capable of participating in at least one chemical covalent cross-linking reaction. In certain embodiments, these settable shear-thinning hydrogels are triggerable to cross-link by the application of a stimulus.

Methods are disclosed for forming bone and/or cartilage in an avian subject. The methods include administering to the avian subject a therapeutically effective amount of a composition comprising avian mesenchymal stem cells and a hydrogel that supports the differentiation of the avian mesenchymal stem cells into cells of an osteogenic and/or condrogenic lineage. In some embodiments, methods are disclosed for repairing a bone defect and preventing infection, such as that associated bone fracture, in an avian subject. The methods include administering locally to the bone defect a composition comprising a therapeutically effective amount of avian mesenchymal stem cells and a hydrogel, such as a methacrylated gelatin hydrogel.

Systems, devices, compositions, and methods for treating bleeding, for containing blood that has been lost by a subject due to bleeding, and for treating surfaces contaminated with blood or expected to be contaminated with blood are disclosed. The systems, devices, compositions, and methods utilize platelets, platelet-derived materials, or both. The invention includes sprayers, nebulizers, and equivalents, to deliver platelets and/or platelet-derived materials to desired surfaces. Exemplary embodiments include the use of a pressurized sprayer configured to deliver a topical administration of a lyophilized platelet and/or platelet-derived material to a surface.

Provided is the use of polymeric material, particularly, biodegradable polymeric material in treating osteochondral defects in a subject.

Hydrodynamic methods for conformally coating non-uniform size cells and cell clusters with biomaterials for implantation, thus preventing immune rejection or inflammation or autoimmune destruction while preserving cell functionality, are disclosed. Further disclosed are reagents, apparatus, and methods for conformally coating cells and cell clusters with hydrogels that are biocompatible, mechanically and chemically stable and porous, with an appropriate pore cut-off size.

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 biodegradable in vivo supporting device is disclosed. In one embodiment, a coated stent device includes a biodegradable metal alloy scaffold made from a magnesium alloy, iron alloy, zinc alloy, or combination thereof, and the metal scaffold comprises a plurality of metal struts. The metal struts are at least partially covered with a biodegradable polymer coating. A method for making and a method for using a biodegradable in vivo supporting device are also disclosed.

The present disclosure provides a method of manufacturing pancreas Islet of Langerhans (IOL) mimetics using induced human pluripotent stem cells (iPSc) and porous micro carrier scaffolds that allow for subsequent vascularization and/or innervation.

Adult autologous stem cells cultured on a porous, three-dimensional tissue scaffold-implant for bone regeneration by the use of a hyaluronan and/or dexamethasone to accelerate bone healing alone or in combination with recombinant growth factors or transfected osteogenic genes. The scaffold-implant may be machined into a custom-shaped three-dimensional cell culture system for support of cell growth, reservoir for peptides, recombinant growth factors, cytokines and antineoplastic drugs in the presence of a hyaluronan and/or dexamethasone alone or in combination with growth factors or transfected osteogenic genes, to be assembled ex vivo in a tissue incubator for implantation into bone tissue.

Systems, instruments, methods, and compositions are described involving removing a portion of the epidermis within a donor site on a subject, and harvesting dermal plugs within the donor site. An injectable filler is formed by mincing the dermal plugs. The injectable filler is configured for injecting into a recipient site on the subject.