Bioactivity and successful bone formation in silicon-substituted hydroxyapatite bone grafts were investigated by using scanning electron microscopy and electron dispersive x-ray spectroscopy.Areas of bone formation have been detected Tote Bag in scanning electron microscopy; and, arranged lamellar collagen has been observed.20.8% average carbon content rise has been detected between bone graft and GF BROWN RICE LOAF the produced bone; and, this has been confirmed to be a gradual increase throughout the interphase.
Obvious bone formation and maturation were observed in the samples.Carbon content gradually increased from bone graft to the bone formed, confirming formation of new bone and dissociation of silicon-substituted bone graft.