| Allograft bone dowels, developed at the University of Florida Tissue Bank, Inc (UFTB) and Regeneration Technologies, Inc (RTI), offer an alternative to the more conventional metallic and other synthetic dowels for spinal fusions. These dowels are machined from the long bone of human donor tissue. They are an advance over current implants because they possess the precise dimensional characteristics that are typical of metallic or other synthetic implants, are composed of mostly cortical bone, do not cause additional donor site morbidity associated with autografts, yet they retain the advantageous osteogenic characteristics of allografts and autografts.; Allograft and autograft tissues have a well-established history in spinal fusions. However, postoperative failures are commonly reported. These failures are due to the variations in geometric, material, and mechanical properties of the implants. In addition, little research effort has been placed on insuring that these types of implants have at least a minimum level of load bearing capacity.; The results of this research developed a novel method, based on statistical procedures and fracture mechanisms, that defines the strength of the MD-series of bone dowels and uses this technique to establish a nondestructive mechanical quality control procedure. In addition, the influence of donor characteristics such as age, and sex on the strength of the dowels was established. The role of different tissue banking processing steps on the strength of machined tissue was identified, as well as differences in strength among different dowel designs determined. |
