The present invention provides an implant body formed from metal or ceramics as a raw material, the implant body including a modified surface, provided with a plurality of projections and a plurality of crevasse-like nanoscale grooves, by which focal adhesion formation, penetration of collagen fibers, arrangement of the collagen fibers in a single direction to thereby adhere to connective tissue, and soft tissue sealablity are possible. According to such a surface modification, focal adhesion formation and the arrangement of the cell cytoskeleton can be enhanced, and penetration of collagen fibers into the surface internal portion is possible.

A biodegradable resin composition is usable for producing a molded article having high biodegradability particularly in the ocean. The biodegradable resin composition contains a biodegradable resin and one or more components selected from agarose, sodium alginate, casein, and keratin. The content of the biodegradable resin is 50% by weight or more.

A biodegradable resin composition is usable for producing a molded article having high biodegradability particularly in the ocean. The biodegradable resin composition contains a biodegradable resin and one or more components selected from agarose, sodium alginate, casein, and keratin. The content of the biodegradable resin is 50% by weight or more.

The present invention relates to silk fibroin bioinks specifically formulated for use in 3D bioprinting and the production of ex-vivo models capable of supporting hematopoiesis and the production of platelets and blood cells.

The present invention relates to silk fibroin bioinks specifically formulated for use in 3D bioprinting and the production of ex-vivo models capable of supporting hematopoiesis and the production of platelets and blood cells.

A method for preparing keratin-based composites includes mixing polysaccharide nanoparticles and a keratin solution to form a nanoparticle-keratin solution; and solvent casting the nanoparticle-keratin solution to form the keratin-based composites.

A method for preparing keratin-based composites includes mixing polysaccharide nanoparticles and a keratin solution to form a nanoparticle-keratin solution; and solvent casting the nanoparticle-keratin solution to form the keratin-based composites.

The present invention provides methods for producing a silk protein spinning dope solution suitable for producing high toughness fibres, the thus produced silk protein spinning dope solution, methods for producing fibres using said silk protein spinning dope solution.

The present invention provides methods for producing a silk protein spinning dope solution suitable for producing high toughness fibres, the thus produced silk protein spinning dope solution, methods for producing fibres using said silk protein spinning dope solution.

One aspect of the invention provides a method of sequentially inducing macrophage conversion in a wound. The method includes: (a) administering IL-4 to induce conversion of a first population of wound macrophages in the wound to M2A macrophages; and then (b) administering IL-10, dexamethasone, or a dexamethasone analog to induce conversion of a second population of wound macrophages in the wound to M2C macrophages.