Inclusion of calcium phosphate does not further improve in vitro and in vivo osteogenesis in a novel highly biocompatible mechanically stable and 3D printable polymer At a time of unpredictable challenges for health, one trend…
Read MoreSynthesis, Characterization, and 3D Printing of an Isosorbide-Based, Light-Curable, Degradable Polymer for Potential Application in Maxillofacial Reconstruction Although emergence of bone tissue engineering techniques has revolutionized the field of maxillofacial reconstruction, the successful translation of…
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Three-dimensional Printing in Maxillofacial Surgery: Hype versus Reality Three-dimensional printing technology is getting more attention recently, especially in the craniofacial region. This is a review of literature enlightening the materials that have been used to…
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Physical properties and biocompatibility effects of doping SiO2 and TiO2 into phosphate-based glass for bone tissue engineering. Phosphate glass is continuing to gain more attention as potential bone substitutes. The ternary (P2O5-CaO-Na2O) is investigated in…
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Zinc and strontium based phosphate glass beads: a novel material for bone tissue engineering. Degradable phosphate-based glasses that contain strontium, zinc and calcium were investigated to examine their function as an osteoconductive material. Glass beads…
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