Importance of delivery systems for growth-stimulatory factors in combination with osteopromotive membranes. An experimental study using rhBMP-2 in rat mandibular defects.

Abstract

This study was undertaken to investigate whether the choice of carrier/delivery system might be crucial for rhBMP-2 induced osteogenesis beneath osteopromotive membranes. Standardized 5-mm transosseous rat mandibular defects were implanted with recombinant human BMP-2 (rhBMP-2) with or without membrane placement. Two doses of rhBMP-2 (1 microg and 8 microg per defect) were delivered with either collagen sponge or bioabsorbable poly(D,L-lactide-coglycolide) (PLA/PGA) beads plus allogenic blood as carriers. Membrane-covered defects (no BMP) served as controls. Virtually all defects treated with rhBMP-2 without membrane placement already were bridged by new bone after 12 days, independent of rhBMP-2 dose or carrier material, and lateral bone growth was extensive outside the original defect. Membrane placement significantly decreased the stimulatory activity of the BMP, as seen after 12 days, even though osteogenesis was more advanced with rhBMP-2 and membrane compared to membrane alone. After 24 days, defects treated with membrane and rhBMP-2 in the PLA/PGA carrier were totally bridged with regenerated bone, whereas defects covered with membrane without BMP implantation displayed an average bone bridging of only 53%. In an overall analysis of the bone regeneration, the PLA/PGA carrier material was found to be superior to the collagen carrier in the presence of membranes, which was, in turn, more efficient than membrane placement alone (no rhBMP-2). There was much less lateral bone growth when BMP implantation was combined with membrane placement. It was concluded that bone formation beneath osteopromotive membranes may be significantly enhanced by rhBMP-2 and that the delivery system can affect the amount of bone formation obtained. For eventual clinical use, membrane placement has the advantage of keeping the growth-stimulatory implant in place as well as obtaining the desired anatomical contour of the bone formed.