The present invention relates to an Autologous Bone Graft Substitute composition (ABGS) for inducing new bone formation, promoting bone growth and treating of bone defect, a preparation method of the Autologous Bone Graft Substitute composition, and a kit for preparing the Autologous Bone Graft Substitute composition of implant. In a particular aspect, the invention relates to an injectable/extrudable/implantable Autologous Bone Graft Substitute composition for use in treatment of bone defects, inducing new bone formation and promoting bone growth for bone fracture healing, spinal fusions and to repair bone defects in bone reconstructive procedures of orthopedic and oral maxillofacial-dental surgeries.

A collagen matrix, granulate blend, and process for making and using a collagen matrix or granulate blend including collagen and particles or granules of a biphasic calcium phosphate/hydroxyapatite (CAP/HAP) bone substitute material comprising a sintered CAP core and a closed epitactically grown layer of nanocrystalline HAP deposited on the external surface of the sintered CAP core, whereby the epitactically grown nanocrystals have the same size and morphology as human bone mineral, wherein the closed epitactically grown layer of nanocrystalline HAP deposited on the external surface of the sintered CAP core has a homogeneous coarse external surface comprising flat crystal platelets.

A collagen matrix, granulate blend, and process for making and using a collagen matrix or granulate blend including collagen and particles or granules of a biphasic calcium phosphate/hydroxyapatite (CAP/HAP) bone substitute material comprising a sintered CAP core and a closed epitactically grown layer of nanocrystalline HAP deposited on the external surface of the sintered CAP core, whereby the epitactically grown nanocrystals have the same size and morphology as human bone mineral, wherein the closed epitactically grown layer of nanocrystalline HAP deposited on the external surface of the sintered CAP core has a homogeneous coarse external surface comprising flat crystal platelets.

A collagen matrix, granulate blend, and process for making and using a collagen matrix or granulate blend including collagen and particles or granules of a biphasic calcium phosphate/hydroxyapatite (CAP/HAP) bone substitute material comprising a sintered CAP core and a closed epitactically grown layer of nanocrystalline HAP deposited on the external surface of the sintered CAP core, whereby the epitactically grown nanocrystals have the same size and morphology as human bone mineral, wherein the closed epitactically grown layer of nanocrystalline HAP deposited on the external surface of the sintered CAP core has a homogeneous coarse external surface comprising flat crystal platelets.

The present invention relates to the field of functional materials for medical use, and particularly to a biomimetic bone composite material, a preparation method and uses thereof. The biomimetic bone composite material provided by the invention is prepared from the raw material containing the following components: gelatin and/or collagen, hydroxyapatite and a silicon source. The present invention also provides a preparation method of the composite material and uses thereof in preparing bone repair materials. The highly biomimetic composite material with fibrous network structure prepared by the present invention can simulate the microenvironment similar to natural bone for cells, meet the biological requirements of bone tissue engineering, and is expected to become an ideal bioactive scaffold for bone repair.

The present invention relates to the field of functional materials for medical use, and particularly to a biomimetic bone composite material, a preparation method and uses thereof. The biomimetic bone composite material provided by the invention is prepared from the raw material containing the following components: gelatin and/or collagen, hydroxyapatite and a silicon source. The present invention also provides a preparation method of the composite material and uses thereof in preparing bone repair materials. The highly biomimetic composite material with fibrous network structure prepared by the present invention can simulate the microenvironment similar to natural bone for cells, meet the biological requirements of bone tissue engineering, and is expected to become an ideal bioactive scaffold for bone repair.

A uniformly hydrated composition is provided and methods of making the uniformly hydrated composition. The method comprises providing a plurality of lyophilized porous macroparticles in a chamber, the plurality of lyophilized porous macroparticles each having an average diameter from about 0.1 mm to about 10 mm and comprising ceramic material and polymer; and mixing each of the plurality of lyophilized porous macroparticles with a fluid in the chamber to uniformly hydrate each of the plurality of lyophilized porous macroparticles to form a uniformly hydrated composition. Hydratable compositions are also provided.

A uniformly hydrated composition is provided and methods of making the uniformly hydrated composition. The method comprises providing a plurality of lyophilized porous macroparticles in a chamber, the plurality of lyophilized porous macroparticles each having an average diameter from about 0.1 mm to about 10 mm and comprising ceramic material and polymer; and mixing each of the plurality of lyophilized porous macroparticles with a fluid in the chamber to uniformly hydrate each of the plurality of lyophilized porous macroparticles to form a uniformly hydrated composition. Hydratable compositions are also provided.

The disclosure relates to compounds and compositions for bone formation, fracture treatment, bone grafting, bone fusion, cartilage maintenance and repair, and methods related thereto. In certain embodiments, the disclosure relates to compositions comprising one or more compound(s) disclosed herein derivatives, or salt thereof, for use in bone growth processes. In a typical embodiment, a bone graft composition is implanted in a subject at a site of desired bone growth or enhancement. In certain embodiments, compounds disclosed herein are useful for managing obesity and diabetes or other metabolic syndromes by modulation of brown fat.

The disclosure relates to compounds and compositions for bone formation, fracture treatment, bone grafting, bone fusion, cartilage maintenance and repair, and methods related thereto. In certain embodiments, the disclosure relates to compositions comprising one or more compound(s) disclosed herein derivatives, or salt thereof, for use in bone growth processes. In a typical embodiment, a bone graft composition is implanted in a subject at a site of desired bone growth or enhancement. In certain embodiments, compounds disclosed herein are useful for managing obesity and diabetes or other metabolic syndromes by modulation of brown fat.