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PECVD SiOx Accelerates Hydroxyapatite Surface Formation for Enhanced Early Osteogenic Differentiation
(Wiley, 2014)
**Please note that the full text is embargoed** ABSTRACT: Current metal implants are designed to structurally support the surrounding bone upon fracture. However, they have long healing times as they do not form an apatite ...
Human Periosteum Cell Osteogenic Differentiation Enhanced by Ionic Silicon Release from Porous Amorphous Silica Fibrous Scaffolds
(Society for Biomaterials; Nihon Baiomateriaru Gakkai; Australian Society for Biomaterials; Korean Society for Biomaterials, Wiley, 2015-01-28)
**Please note that the full text is embargoed** ABSTRACT: Current synthetic grafts for bone defect filling in the sinus can support new bone formation but lack the ability to stimulate or enhance osteogenic healing. To ...