Abstract: The present invention concerns a process for treating bone tissue of animal or human origin, and a corresponding implantable biomaterial. According to the present invention, a fluid in the supercritical state is caused to penetrate throughout the bone tissue. The bone tissue thus treated can then undergo stages of extracting specific proteins. This tissue is intended to be placed on a damaged bone tissue and has mechanical properties at least equivalent to those of natural bone.

Abstract: Implantable devices useful for creating bony fusion particularly in intervetebral spinal fusion. The device is formed of bone and has an at least partially demineralized portion between two rigid bone portions creating an area of flexibility. In one application, the area of flexibility may be used to move the device between a reduced size insertion configuration and an expanded implanted configuration. In another use, the area of flexibility may be useful to dampen shock applied to the implant. A method is also disclosed for making the implants and inserting the implants into an intervertebral disc space to promote interbody fusion.

Abstract: A method of performing orthopaedic surgery on a bone includes the steps of: preparing an allograft form including a plurality of allograft bone particles with a predetermined outside shape (e.g., cylindrical or implant shaped); freezing the allograft form; placing the frozen allograft form in an opening in the bone; and impacting the frozen allograft form within the opening to cause the allograft form to at least partially fill the opening. The form includes a cannulation hole extending therethrough.