Bone regeneration in strong porous bioactive glass (13-93) scaffolds with an oriented microstructure implanted in rat calvarial defects

Abstract

There is a need for synthetic bone graft substitutes to repair large bone defects resulting from trauma, malignancy and congenital diseases. Bioactive glass has attractive properties as a scaffold material but factors that influence its ability to regenerate bone in vivo are not well understood. In the present work, the ability of strong porous scaffolds of 13-93 bioactive glass with an oriented microstructure to regenerate bone was evaluated in vivo using a rat calvarial defect model. Scaffolds with an oriented microstructure of columnar pores (porosity=50%; pore diameter=50−150μm) showed mostly osteoconductive bone regeneration, and new bone formation, normalized to the available pore area (volume) of the scaffolds, increased from 37% at 12weeks to 55% at 24weeks. Scaffolds of the same glass with a trabecular microstructure (porosity=80%; pore width=100−500μm), used as the positive control, showed bone regeneration in the pores of 25% and 46% at 12 and 24weeks, respectively. The brittle mechanical response of the as-fabricated scaffolds changed markedly to an elastoplastic response in vivo at both implantation times. These results indicate that both groups of 13-93 bioactive glass scaffolds could potentially be used to repair large bone defects, but scaffolds with the oriented microstructure could also be considered for the repair of loaded bone.