Ue. Pazzaglia, PERIOSTEAL AND ENDOSTEAL REACTION TO REAMING AND NAILING - THE POSSIBLE ROLE OF REVASCULARIZATION ON THE ENDOSTEAL ANCHORAGE OF CEMENTLESS STEMS, Biomaterials, 17(10), 1996, pp. 1009-1014
The reaction of bone to titanium implants of different shapes inserted
in the rabbit tibia was investigated with histological and perfusion
techniques to determine the pattern of vessel distribution. The experi
mental implants included full cylindrical rods, hollow rods with holes
on the surface and wire mesh rods. In the implanted bones the rods we
re found to fill a large area of the medullary canal; however, owing t
o the discrepancy between the shape of the diaphysis and the implant,
the endosteal contact was never complete. In an early phase, reactive
bone filled the gap between the endosteal and the implant surface; in
hollow and wire mesh rods bone had grown inside through the lateral ho
les or loops of the mesh. Revascularization took place together with r
emodelling of the endosteal, primary bone to mature lamellar. In full
implants a reticle of newly formed vessels developed around the rods;
in hollow and wire mesh implants vessels had grown inside the implant
itself and the endosteal surface had a more regular profile than in fu
ll rods. Wire mesh plugs prevented formation of a peripheral medullary
space and showed no encapsulation; wires in contact with or in proxim
ity to the endosteal surface were incorporated by lamellar systems wit
h strong connections with the original cortical bone.