Magnesium Based Sol-Gel Derived Bioactive Glass Ceramics for Dental Tissue Regeneration

Abstract: Scaffold-based tooth engineering is currently the most popular approach towards replacing dental tissues or even engineering a bio-tooth. Although, various scaffold materials have been employed in tooth regeneration, the scaffold-based tooth design has, until now, achieved only limited success. Recently, bioactive Mg-based ceramics have attracted interest as Mg plays an important role on skeletal metabolism and affects the quality and structure of hard dental tissues. Mg has been reported to improve t… Show more

“…Change in pore size and volume affects the mechanical stiffness of the scaffold [38]. Mg based glass ceramics have improved mechanical integrity and high rate of bioactivity [39]. Niobium doped fluorapatite glass ceramic displays excellent attachment, proliferation and differentiation of hDPSCs on its surface [40].…”

Biomaterials in Tooth Tissue Engineering: A Review

“…Change in pore size and volume affects the mechanical stiffness of the scaffold [38]. Mg based glass ceramics have improved mechanical integrity and high rate of bioactivity [39]. Niobium doped fluorapatite glass ceramic displays excellent attachment, proliferation and differentiation of hDPSCs on its surface [40].…”

Biomaterials in Tooth Tissue Engineering: A Review

Different Biomaterials for Dental Tissue Regeneration from Clinical Point of View

Magnesium-containing bioactive polycrystalline silicate-based ceramics and glass-ceramics for biomedical applications