Abstract: An implant which is particularly suitable for the repair and/or replacement of a skeletal joint, e.g., a vertebral joint, includes a unit of monolithic bone possessing at least one demineralized region exhibiting properties of flexibility and resilience, the demineralized region having diminished or insignificant capacity for promoting new bone growth.

Abstract: An implant unit used in surgery has a body made from osteogenic implantable material and including an implant portion and a retaining portion, which is coupled to and extends transversely to the implant portion. The retaining portion is attached to the sidewall of the adjoining vertebral body or mammal bone to prevent displacement of the implant portion relative to the vertebral body or mammal bone and to accelerate fusion therebetween.

Abstract: The present invention provides a hemostatic bone graft product and method. Hemostatic bone grafts may include demineralized bone matrix in combination with additives. In one embodiment, the graft comprises demineralized bone and polyethylene glycol. Methods for producing the hemostatic bone graft may include mixing demineralized bone with additives to facilitate protein precipitation, surface tension reduction in blood, and/or a cytolytic effect on cells at a bleeding site.

Abstract: Biological-based polyurethanes and methods of making the same. The polyurethanes are formed by reacting a biodegradable polyisocyanate (such as lysine diisocyanate) with an optionally hydroxylated biomolecule to form polyurethane. The polymers formed may be combined with ceramic and/or bone particles to form a composite, which may be used as an osteoimplant.

Abstract: Demineralized bone particles are obtained by demineralizing whole bone and thereafter subdividing the demineralized bone to provide the demineralized bone particles.

Abstract: Fenestrated wound repair scaffolds and methods for forming scaffolds involve dispersing human collagen having a preserved amount of native constituents in solution, depositing the human collagen dispersion in a tray, forming openings in the collagen dispersion and removing the liquid component to form a fenestrated wound repair scaffold. Fenestrated wound repair scaffolds include a network of openings passing linearly through the wound repair scaffold to form channels for cells to pass into so as to form a series of cell formations therein.

Abstract: Biological-based polyurethanes and methods of making the same. The polyurethanes are formed by reacting a biodegradable polyisocyanate (such as lysine diisocyanate) with an optionally hydroxylated biomolecule to form polyurethane. The polymers formed may be combined with ceramic and/or bone particles to form a composite, which may be used as an osteoimplant.

Abstract: Osteoinductive compositions and implants having increased biological activities, and methods for their production, are provided. The biological activities that may be increased include, but are not limited to, bone forming; bone healing; osteoinductive activity, osteogenic activity, chondrogenic activity, wound healing activity, neurogenic activity, contraction-inducing activity, mitosis-inducing activity, differentiation-inducing activity, chemotactic activity, angiogenic or vasculogenic activity, and exocytosis or endocytosis-inducing activity. In one embodiment, a method for producing an osteoinductive composition comprises providing partially demineralized bone, treating the partially demineralized bone to disrupt the collagen structure of the bone, and optionally providing a tissue-derived extract and adding the tissue-derived extract to the partially demineralized bone.

Abstract: The present invention relates to a method for making bone particles from bone of a variety of sizes and a workpiece forming and holding device for use with the method. The workpiece forming device includes a base and a base frame attached to the surface of the base. An apparatus for forming a solidified mass of bone and immobilization medium is also provided which includes the workpiece forming device and a detachable former member enclosing the base frame. Bone is immersed in an immobilization medium within such workpiece forming device, which is solidified to form a solidified mass of bone and immobilization medium and then subdivided to provide particles of bone in association to with immobilization medium. The immobilization medium may be optionally removed to leave bone particles suitable for use in orthopedic applications including implants.

Abstract: An injectable pharmaceutical composition includes demineralized bone matrix (DBM) particles having a particle size in the range of about 25 microns to about 75 microns and a pharmaceutical carrier. The composition can further include adjuncts such as glycosaminoglycans, adjuvants such as chondroitin, and/or active ingredients such as anti-inflammatories.

Abstract: The invention relates to the use of an active collagen matrix for culturing mammalian cells and the use of the active collagen matrix and cells for the treatment of disease.

Abstract: Compositions and methods for treating and healing injured soft tissues such as tendons and ligaments are provided. The composition may be a wrap comprising human collagen in the form of a sheet. The human collagen has been processed so that is retains proteins that are associated with it in its natural state. The sheet may optionally be coated on one or more sides with one or more of additional human collagen, therapeutic agents, additional soft tissue growth factors or hydroxyapatite.

Abstract: The invention relates to the use of an active collagen matrix for culturing mammalian cells and the use of the active collagen matrix and cells for the treatment of disease.

Abstract: Methods for forming implantable compositions are provided. In some embodiments, the methods include (i) providing a gel base, (ii) adding water and a hydrating agent to the gel base to form a mixture, (iii) reducing the water content of the mixture; and (iv) adding a delivered material before, during, and/or after step (ii) or (iii). The water content is reduced to about 5% or less by weight of the implantable composition.

Abstract: Methods of repairing a joint formed by at least two bone sections are provided wherein a biocompatible osteogenic band fabricated from an osteogenic biological material such as bone, tendon, ligament and collagen is affixed to two or more bone sections.

Abstract: A load-bearing osteoimplant which comprises a shaped, coherent aggregate of bone particles.

Abstract: Carbonated calcium phosphate compositions and methods of preparation, affording enhanced biophysical properties.

Abstract: A load-bearing osteoimplant which comprises a shaped, coherent aggregate of bone particles.

Abstract: Calcium phosphate and related coating powder particles comprising a surface component comprising a silicate content, plasma sprayed coatings thereof on implantable medical/dental devices, and bone grafting materials of such coated particles. Optionally, biologically active agents such as bone morphogenetic proteins, growth factors, analgesics, and antibiotics can be incorporated therein.

Abstract: Biological-based polyurethanes and methods of making the same. The polyurethanes are formed by reacting a biodegradable polyisocyanate (such as lysine diisocyanate) with an optionally hydroxylated biomolecule to form polyurethane. The polymers formed may be combined with ceramic and/or bone particles to form a composite, which may be used as an osteoimplant.