The present invention provides a bone cement composition comprising a bone matrix and a bone cement matrix formed by an acrylic polymer and an acrylic monomer, wherein the ratio of the bone matrix to the bone cement matrix is in a range from about 1:2 (g/g) to about 1:1000 (g/g). The present invention further provides a bone cement composition kit comprising a bone matrix component, a powder component, and a liquid component, respectively stored in separate containers, wherein the bone matrix component includes a bone matrix, the powder component includes an acrylic polymer, and the liquid component includes an acrylic monomer. The powder component and the liquid component are mixable to produce a bone cement matrix component. A ratio of the bone matrix component to the bone cement matrix component is in a range from about 1:2 (mL/mL) to about 1:50 (mL/mL).

Embodiments of the disclosure relate to devices (e.g., patches, plugs, beams, plates, screws, rods, granules, spacers, cages, discs, tape devices, or other shape determined by the geometry or anatomy of the site of application) and methods of use thereof.

Compositions of, methods of making, and methods of using alkaline earth phosphate bone cements are disclosed.

Compositions of, methods of making, and methods of using alkaline earth phosphate bone cements are disclosed.

A gallium silica glass composition is described. The glass can be used in variety of biomedical applications.

Provided herein are settable and non-settable compositions for use in surgical procedures comprising a variety of disclosed particles and optionally including previously unclotted, lyophilized, optionally crosslinked mammalian blood plasma. Also provided are related compositions, including surgical kits and packages, as well as methods of making and using the compositions.

Provided herein are settable and non-settable compositions for use in surgical procedures comprising a variety of disclosed particles and optionally including previously unclotted, lyophilized, optionally crosslinked mammalian blood plasma. Also provided are related compositions, including surgical kits and packages, as well as methods of making and using the compositions.

Systems and methods for preparing synthetic osteoinductive bone grafts are provided in which a porous ceramic granule, which may be incorporated within a biocompatible matrix material, is loaded with an osteoinductive agent. Loading of granules is facilitated in some cases by the use of low-pH buffers and pre-treatments.

Systems and methods for preparing synthetic osteoinductive bone grafts are provided in which a porous ceramic granule, which may be incorporated within a biocompatible matrix material, is loaded with an osteoinductive agent. Loading of granules is facilitated in some cases by the use of low-pH buffers and pre-treatments.

A method for controlling generation of biologically desirable voids in a composition placed in proximity to bone or other tissue in a patient by selecting at least one water-soluble inorganic material having a desired particle size and solubility, and mixing the water-soluble inorganic material with at least one poorly-water-soluble or biodegradable matrix material. The matrix material, after it is mixed with the water-soluble inorganic material, is placed into the patient in proximity to tissue so that the water-soluble inorganic material dissolves at a predetermined rate to generate biologically desirable voids in the matrix material into which bone or other tissue can then grow.