Bioactive ZnO‐assisted 1393 glass scaffold promotes osteogenic differentiation: Some studies

Abstract: We developed ZnO‐assisted 1393 bioactive glass‐based scaffold with suitable mechanical properties through foam replica technique and observed to be suitable for bone tissue engineering application. However, the developed scaffolds' ability to facilitate cellular infiltration and integration was further assessed through in vivo studies in suitable animal model. Herein, the pure 1393 bioactive glass (BG) and ZnO‐assisted 1393 bioactive glass‐ (ZnBGs; 1, 2, 4 mol% ZnO substitution for SiO2 in pure BG is named as … Show more

“…In the mid-1980s, Brown et al invented calcium phosphate bone cement (CPC) [5], however, the simple use of CPC materials has major shortcomings, namely, low early strength and slow strength development. Therefore, it is necessary to further improve the performance of CPC materials [6].…”

Exploring the Osteogenic Potential of Zinc-Doped Magnesium Phosphate Cement (ZMPC): A Novel Material for Orthopedic Bone Defect Repair

“…In the mid-1980s, Brown et al invented calcium phosphate bone cement (CPC) [5], however, the simple use of CPC materials has major shortcomings, namely, low early strength and slow strength development. Therefore, it is necessary to further improve the performance of CPC materials [6].…”

Exploring the Osteogenic Potential of Zinc-Doped Magnesium Phosphate Cement (ZMPC): A Novel Material for Orthopedic Bone Defect Repair