Medical devices, substrates and biologic therapies for bone repair and guided tissue regeneration are disclosed. More particularly, bone graft substitutes and bone void fillers which comprise a porous collagen matrix and calcium deficient hydroxyapatite ceramic granules for delivery of osteoinductive or other therapeutic agents are disclosed.

Provided herein are scaffold biomaterials including a decellularized plant or fungal tissue from which cellular materials and nucleic acids of the tissue are removed, the decellularized plant or fungal tissue having a 3-dimensional porous structure; wherein the decellularized plant or fungal tissue may optionally be at least partially coated or mineralized, wherein the scaffold biomaterial may optionally further include a protein-based hydrogel and/or a polysaccharide-based hydrogel, or both. Also provided herein are methods and uses of such scaffold biomaterials, including methods of manufacture as well as methods and uses for bone tissue engineering, for example.

Provided herein are scaffold biomaterials including a decellularized plant or fungal tissue from which cellular materials and nucleic acids of the tissue are removed, the decellularized plant or fungal tissue having a 3-dimensional porous structure; wherein the decellularized plant or fungal tissue may optionally be at least partially coated or mineralized, wherein the scaffold biomaterial may optionally further include a protein-based hydrogel and/or a polysaccharide-based hydrogel, or both. Also provided herein are methods and uses of such scaffold biomaterials, including methods of manufacture as well as methods and uses for bone tissue engineering, for example.

The present patent document describes methods for enhancing the aesthetic appearance of a human face by injecting soft tissue filler material in the temporal region. The soft tissue filler material is injected into a subdermal plane; preferably from an injection site about 1 cm anterior to the apex of the tragus. A single injection may be performed on either side of the face.

The present patent document describes methods for enhancing the aesthetic appearance of a human face by injecting soft tissue filler material in the temporal region. The soft tissue filler material is injected into a subdermal plane; preferably from an injection site about 1 cm anterior to the apex of the tragus. A single injection may be performed on either side of the face.

The invention relates to a method for producing an osteotropic bone replacement material from a starting material which substantially has portlandite, calcium oxide, aragonite; calcite and/or apatite. The starting material is introduced into an autoclave with a strontium, fluorine and/or gallium source, wherein when using a starting material which substantially has portlandite, calcium oxide, aragonite; calcite a phosphate source is introduced. In addition, H.sub.2O is added into the autoclave as part of a solvent and the pH value in the autoclave is set to a range above 7. Afterwards, the closed and filled autoclave is heated for at least 1 hour and then cooled. The osteotropic bone replacement material thus developed is subsequently cleaned from residues of the phosphorus, strontium, fluorine and/or gallium source. Furthermore, the invention relates to an osteotropic bone replacement material which substantially consists of apatite and in which strontium ions are incorporated into the crystal lattice.

The invention relates to a method for producing an osteotropic bone replacement material from a starting material which substantially has portlandite, calcium oxide, aragonite; calcite and/or apatite. The starting material is introduced into an autoclave with a strontium, fluorine and/or gallium source, wherein when using a starting material which substantially has portlandite, calcium oxide, aragonite; calcite a phosphate source is introduced. In addition, H.sub.2O is added into the autoclave as part of a solvent and the pH value in the autoclave is set to a range above 7. Afterwards, the closed and filled autoclave is heated for at least 1 hour and then cooled. The osteotropic bone replacement material thus developed is subsequently cleaned from residues of the phosphorus, strontium, fluorine and/or gallium source. Furthermore, the invention relates to an osteotropic bone replacement material which substantially consists of apatite and in which strontium ions are incorporated into the crystal lattice.

The invention relates to a porous osteoinductive calcium phosphate material having an average grain size in a range of 0.1-1.50 μm, having a porosity consisting essentially only of micropores in a size range of 0.1-1.50 μm, and having a surface area percentage of micropores in a range of 10-40%.

The invention relates to a porous osteoinductive calcium phosphate material having an average grain size in a range of 0.1-1.50 μm, having a porosity consisting essentially only of micropores in a size range of 0.1-1.50 μm, and having a surface area percentage of micropores in a range of 10-40%.

The present invention relates to methods for producing biphasic calcium phosphate materials using chemical processing methods including exposure to peroxides. The resulting materials exhibit an osteoinductive needle-like surface morphology and are useful as artificial bone grafts.