Abstract: A spinal implant device has a synthetic or metallic or a combination thereof of these materials in an implant body structure and stem cells in a coating, or a sheet, wrap or a membrane wrap applied to surfaces on the implant body structure or alternatively filled with a plug of stem cell laden material. The implant body structure preferably has an aperture or channel. The spinal implant device may include anchoring holes to secure the device to the spinal skeletal structure with fasteners or alternatively can simply be held in place by and between adjacent vertebrae.

Abstract: A cohesive bone composition is made from a moldable bone composition intermixed with a bone gel composition. The cohesive bone composition is made from human cadaver bone. A fluid can be added, the fluid may also be laden with cells.

Abstract: An implant device having a non-conductive base structure with at least two exposed or exterior surfaces wherein at least one of the exposed or exterior surfaces has attained electrical conductivity on at least portions of the surface by an energy exposure wherein portions of the exposed or exterior surfaces are transformed by the energy exposure to attain the electrical conductivity.

Abstract: A malleable demineralized bone composition consists of cortical bone made from a first portion and a second portion. The first portion of cortical bone is made from cut pieces freeze dried then ground into particles and demineralized then freeze-dried. The second portion of cortical bone is shaved into shavings. The shavings are long thin strips subjected to freeze-drying. The freeze-dried shavings are ground and demineralized and then freeze-dried. A volume of the second portion is placed in a solution of sterile water to create a mixture, the water volume being twice the second portion, the mixture is autoclaved under heat and pressure to form a gelatin, and the first portion is mixed with the gelatin to form a malleable putty or paste.

Abstract: A bone gel composition consists of cortical bone. The cortical bone is made from cut pieces freeze-dried then ground into particles and demineralized then freeze-dried. A volume of the particles is placed in a solution of sterile water to create a mixture, the water volume being at least twice the particle volume, the mixture is autoclaved under heat and pressure to form a gelatin, the resulting bone gel is formed into sheets having a thickness (t).

Abstract: A bone gel composition consists of cortical bone. The cortical bone is made from cut pieces freeze-dried then ground into particles and demineralized then freeze-dried. A volume of the particles is placed in a solution of sterile water to create a mixture, the water volume being twice the second portion, the mixture is autoclaved under heat and pressure to form a gelatin, the resulting bone gel is placed in jars and kept at room temperature or frozen for later use. The cortical bone has the cut pieces having a width, a length and a thickness in the range of 1 to 4 mm The cortical bone pieces are ground to a particle size up to 125 microns.

Abstract: A cohesive bone composition is made from a moldable bone composition intermixed with a bone gel composition. The cohesive bone composition is made from human cadaver bone. A fluid can be added, the fluid may also be laden with cells.

Abstract: A moldable bone composition consists of a mixture of: cortical bone and cancellous bone. The cortical bone is formed in three portions, a mineralized shaving portion and a demineralized shaving portion and a mineralized powder portion. The cancellous bone is formed in a mineralized crushed cancellous portion. The portions are free-dried and mixed together to form a freeze-dried moldable bone composition.

Abstract: A cohesive bone composition is made from a moldable bone composition intermixed with a bone gel composition. The cohesive bone composition is made from human cadaver bone. A fluid can be added, the fluid may also be laden with cells.

Abstract: A spinal implant device has a synthetic or metallic or a combination thereof of these materials in an implant body structure and stem cells in a coating, or a sheet, wrap or a membrane wrap applied to surfaces on the implant body structure or alternatively filled with a plug of stem cell laden material. The implant body structure preferably has an aperture or channel The spinal implant device may include anchoring holes to secure the device to the spinal skeletal structure with fasteners or alternatively can simply be held in place by and between adjacent vertebrae.

Abstract: A biological composition has a mixture of mechanically selected allogeneic biologic material derived from bone marrow. The mixture has non-whole cellular components including vesicular components and active and inactive components of biological activity, cell fragments, cellular excretions, cellular derivatives, and extracellular components. The mixture including non-whole cell fractions including one or more of exosomes, transcriptosomes, proteasomes, membrane rafts, lipid rafts. The mixture is compatible with biologic function.

Abstract: A biological composition has a mixture of mechanically selected allogeneic biologic material derived from bone marrow. The mixture has non-whole cellular components including vesicular components and active and inactive components of biological activity, cell fragments, cellular excretions, cellular derivatives, and extracellular components. The mixture is compatible with biologic function.

Abstract: A biological composition has a mixture of mechanically selected allogeneic biologic material derived from bone marrow. The mixture has non-whole cellular components including vesicular components and active and inactive components of biological activity, cell fragments, cellular excretions, cellular derivatives, and extracellular components. The mixture including non-whole cell fractions including one or more of exosomes, transcriptosomes, proteasomes, membrane rafts, lipid rafts. The mixture is compatible with biologic function.

Abstract: The present invention is a composition of a self-assembly of collagen fibers made from a plurality of sized pieces of a source material. The source material made from animal or human tissue selected from one of dermis, tendon, fascia or dura mater. The self-assembly occurring by induction of a magnetic field in a liquid medium.

Abstract: The present invention relates to a fenestrated bone wrap graft and a method of preparing cortical bone in thin sheets then fully demineralizing it to give it formed flexibility and then creating fenestrations in the cortical bone in a fashion similar to, but not identical to, skin grafts.

Abstract: The present invention provides a novel way to replenish the disc using retooled disc compositions to repair degenerative discs. There is no better source of proteoglycans than the actual disc material (6) itself. To this end, there has been developed a technique to remove the nucleus pulposus and retool the morphology of the nucleus pulposus to create a powder material (10) that is dry and can be stored at room temperature for long periods of time. This powder (10) can then be reconstituted with a variety of fluids, the most suitable being normal saline or lactated ringers to form a flowable mixture (20).

Abstract: The present invention provides a novel way to replenish the disc using retooled disc compositions to repair degenerative discs. There is no better source of proteoglycans than the actual disc material (6) itself. To this end, there has been developed a technique to remove the nucleus pulposus and retool the morphology of the nucleus pulposus to create a powder material (10) that is dry and can be stored at room temperature for long periods of time. This powder (10) can then be reconstituted with a variety of fluids, the most suitable being normal saline or lactated ringers to form a flowable mixture (20).

Abstract: The present invention relates to a tasseled cortical bone graft and a method of preparing cortical bone in thin strips or tubes then fully demineralizing it to give it formed flexibility and then creating a plurality of strands extending from one or more connection locations in the cortical bone in a fashion similar to a tassel.

Abstract: A biological composition has a mixture of mechanically selected allogeneic biologic material derived from bone marrow. The mixture has non-whole cellular components including vesicular components and active and inactive components of biological activity, cell fragments, cellular excretions, cellular derivatives, and extracellular components. The mixture including non-whole cell fractions including one or more of exosomes, transcriptosomes, proteasomes, membrane rafts, lipid rafts. The mixture is compatible with biologic function.

Abstract: The present invention relates to a fenestrated bone wrap graft and a method of preparing cortical bone in thin sheets then fully demineralizing it to give it formed flexibility and then creating fenestrations in the cortical bone in a fashion similar to, but not identical to, skin grafts.