PrefaceChapter 1: Synthesis Technologies and Assessment of Osteoconductivity, Bio- and CytocompatibilityOpening New Avenues for Bioceramics: Oscillatory Flow Reactors and Upcoming Technologies in Skin-Tissue EngineeringCalcium Phosphate Nanoparticles as Carriers of Therapeutic PeptidesType I Collagen-Apatite Fibrillar Nanocomposites: Mineralization, Crosslinking and Anti-Inflammatory Cocrystal Impregnation for Bone Tissue EngineeringCalcium Carbonate/Hydroxyapatite Microparticles and Osteoblast ResponsesOsteoblast-Mediated Resorption of Porous Bioactive SCPC Granules Enhances Bone Regeneration in Human Extraction Sockets In Vivo Evaluation of Calcium-Phosphate Ceramics with Highly-Interconnected Pores Using Porcine Tibia Defect ModelInvestigation of Microwave Sintering of B-Type Carbonated Hydroxyapatite BioceramicsNew Approach to Identify the Physiological State of Bone Cells at the Surface of Hydroxyapatite BioceramicsApatite-Graphene and Apatite-Graphene Oxide Nanocomposites: Hybrid Materials with Tailored Biological and Luminescent PropertiesChapter 2: 3D Technologies in Scaffolds Production and Dental RestorationProcessing by Laser Stereolithography and In Vitro Biological Evaluation of Hydroxyapatite Scaffolds Mimicking Human Trabecular Bone ArchitectureStructural and Mechanical Characterization of 3D Printed Hydroxyapatite Scaffolds Designed for Biomedical ApplicationsSelective Laser Melting-Sintering Technology: From Dental Co-Cr Alloys to Dental Ceramic Materials