Abstract: Medical devices, most particularly prosthesis, are defined having at least one porous tissue-mating surface. The tissue-mating surface of the device includes therein a biodegradable carrier, such as a biodegradable polymer. The pores or intersticial spaces of the tissue-mating surface of the device are impregnated with the biodegradable polymer. The prosthesis of the present invention provides for enhanced rigid fixation, as pores at the surface of said device provide for bony ingrowth as the biodegradable carrier, i.e., polymer, degrades. Methods for preparing said prosthesis are described. Methods for delivering a pharmacologically active substance by including a pharmacologically active substance in the biodegradable carrier (e.g., polymer) are also disclosed.

Abstract: The invention is of a family of bioabsorbable intermedullary rods, implantation systems and associated methodologies for implantation. Applicant's invention permits its users to use intermedullary rods when indicated for fracture fixation, yet avoid complications of presently available steel rods, including the post-utility presence of implants after a bone has healed.

Abstract: A bone prosthesis having a porous or mesh type mating surface for attachment to bone and at least one continuous hollow internal chamber is disclosed. The prosthesis also includes at least one portal and at least one channel extending from each hollow chamber that allows communication between the chamber of the prosthesis and the mating surface of the device. Biomaterial for enhancing bone growth is injected in fluid form through a portal of the device into a hollow chamber, simultaneous with or after press fitting the prosthesis into the bone. Biomaterial thereby reaches bone mating surfaces through one or more channels. Bony growth at a mating surface of the prosthesis is enhanced, and union of the prosthesis with bone is thereby promoted.