Biological effects of a zinc-substituted borosilicate bioactive glass on human bone marrow derived stromal cells and in a critical-size femoral defect model in rats .

The borosilicate 0106-B1-bioactive glass (BG) composition (in wt%: 37.5 SiO, 22.6 CaO, 5.9 NaO, 4.0PO, 12.0 KO, 5.5 MgO, 12.5 BO) has shown favorable processing characteristics and bone regeneration ability. This study investigated the addition of zinc (Zn) to 0106-B1-BG as an approach to improve this BG's biological properties. Different proportions of ZnO were substituted for CaO in 0106-B1-BG, resulting in three new BG-compositions: 1-Zn-BG, 2-Zn-BG, 3-Zn-BG (in wt%: 37.5 SiO, 21.6/20.1/17.6 CaO, 4.0 PO, 5.9 NaO, 12.0 KO, 5.5 MgO, 12.5 BO and 1.0/2.5/5.0 ZnO). Effects of the BG compositions on cytocompatibility, osteogenic differentiation, extracellular matrix deposition, and angiogenic response of human bone marrow-derived mesenchymal stromal cells (BMSCs) were evaluated . Angiogenic effects were assessed using a tube formation assay containing human umbilical vein endothelial cells. The osteogenic and angiogenic potentials of 3-Zn-BG were investigated in comparison to the Zn-free 0106-B1-BG in a rodent critical-size femoral defect model. The osteogenic differentiation of BMSCs improved in the presence of Zn. 3-Zn-BG showed enhanced angiogenic potential, as confirmed by the tube formation assay. While Zn-doped BGs showed clearly superior biological properties , 3-Zn-BG and 0106-B1-BG equally promoted the formation of new bone ; however, 3-Zn-BG reduced osteoclastic cells and vascular structures . The acquired data suggests that the differences regarding the and results may be due to modulation of inflammatory responses by Zn, as described in the literature. The inflammatory effect should be investigated further to promote clinical applications of Zn-doped BGs.