In vitro biocompatibility of resorbable experimental glass ceramics for bone substitutes

## Abstract Fluorcanasite glass‐ceramics were produced by controlled two stage heat‐treatment of as‐cast glasses. These glasses were modified from stoichiometric fluorcanasite composition by either adding P~2~O~5~ or altering the molar ratios of Na~2~O and CaO. Commercial bioactive 45S5 Bioglass® w

## Abstract Ideally, bioactive ceramics for use in alveolar ridge augmentation should possess the ability to activate bone formation and, thus, cause the differentiation of osteoprogenitor cells into osteoblasts at their surfaces. Therefore, in order to evaluate the osteogenic potential of novel bo

## Abstract Two glass ceramics in the CaOP~2~O~5~MgO system with the incorporation of K~2~O or TiO~2~ oxides were prepared with the goal of using them as potential bone graft substitutes. The incorporation of TiO~2~ and K~2~O led to the preparation of specific crystalline phases in the structure

## Abstract The nanocrystalline hydroxyapatite paste Ostim® represents a fully degradable synthetic bone substitute for the filling of bone defects. Herein, we investigated __in vivo__ the inflammatory and angiogenic host tissue response to this biomaterial after implantation. For this purpose, Ost