Bioceramics 27

<ul><li>Preface, Committees, Sponsors</li><li>Chapter 1: Apatites and Calcium Phosphate</li><li>Value Added Bioceramics: A Review of the Developments and Progress in India</li><li>Transformation of Apatite Cement to B-Type Carbonate Apatite Using Different Atmosphere</li><li>Nanocrystalline Apatites: A Versatile Functionalizable Platform for Biomedical Applications for Bone Engineering... and beyond</li><li>Osteoconductivity and Bioresorption of an Interconnecting Porous Carbonate Apatite with Enhanced Mechanical Strength</li><li>Regulation of DCPD Formation on ?-TCP Granular Surface by Exposing Different Concentration of Acidic Calcium Phosphate Solution</li><li>Analysis on the Setting of Brushite Bone Cement after Storage in the Humid Environment</li><li>Conversion of Marine Structures to Calcium Phosphate Materials: Mechanisms of Conversion Using Two Different Phosphate Solutions</li><li>Fabrication of Bone-Like Apatite-Phosphatidylcholine Composite Thin Film by Biomimetic Method</li><li>Novel Bioceramic Production via Mechanochemical Conversion from Plate Limpet (<i>Tectura</i><i>scutum</i>) - Shells</li><li>Production of Apatite from Snail Shells for Biomedical Engineering Applications</li><li>Preparation of Porous ?-TCP Block by Fusion of DCPD Coated ?-TCP Spheres</li><li>Can European Sea Bass (<i>Dicentrarchus labrax</i>) Scale Be a Good Candidate for Nano-Bioceramics Production?</li><li>Chapter 2: Bioceramics in Dental Surgery and Orthodontics</li><li>Adhesion Properties of an Apatite Film Deposited on Dentine Using Er:YAG Laser Ablation Method</li><li>Hardness Evaluation of Dental Composite with Ceramic Fillers</li><li>Effects of Surface Properties of Montmorillonite for their Cytocompatibility</li><li>Synthesize and Characterization Zr-Al-Si Post through Eggshell Membrane Strengthening with PMMA Matrix</li><li>Polymethylmethacrylate Composite Bone Cement Adding with Tetracalcium Phosphate</li><li>Basic Properties of PMMA Reinforced Using Ceramics Particles of ZrO₂-Al₂O₃-SiO₂ Coated with Two Types of Coupling Agents</li><li>Overlaid Ultrathin Amorphous Calcium Phosphate Sheet Improves Dentinal Permeability Inhibition Rate</li><li>Application of Fluorine Containing Bioactive Glass Nanoparticles in Dentin Hypersensitivity Treatment</li><li>Inappropriate Toothbrushes Selection Alter Composite Dental Material Restoration Surface Roughness: A Preliminary Study</li><li>Effect of Infiltration with Ferric Oxide Containing Glass on the Color and Mechanical Properties of Zirconia</li><li>Chapter 3: Bioceramics in Practice of Scaffolds, Tissue Engineering and Implantation</li><li>Magnetite/Hydroxyapatite Composite Particles-Assisted Pore Alignment of Tilapia Fish Scale Collagen-Based Scaffold</li><li>The Effect of Freeze-Thaw Treatment to the Properties of Gelatin-Carbonated Hydroxypatite Membrane for Nerve Regeneration Scaffold</li><li>Development of Bioactive PEEK by the Function of Apatite Nuclei</li><li>Fabrication of Bioactive Stainless Steel by the Function of Apatite Nuclei</li><li>Increased Pre-Osteoblast Bioactivity on Ca-Modified Titanium</li><li>Mesoporous Silica Coating on Rf-Sputtered Apatite/Titanium Substrate</li><li>Primary Stability of Uncemented Total Hip Stems with Different Ceramic and Titanium Surface Coatings</li><li>Thin Degradable Coatings for Optimization of Osteointegration Associated with Simultaneous Infection Prophylaxis</li><li>The Balance between Bone Formation and Material Resorption in Unidirectional Porous ?-Tricalcium Phosphate Implanted in a Rabbit Tibia</li><li>Effects of Na Alginate in the Porosity of Scaffold Biphasic Calcium Phosphate/Alginate Composites</li><li>Highly Porous ?-TCP Block with Triple Pore Structure in Rat Subcutaneous Tissue and Sheep Iliac Critical Bone Defect</li><li>Quantitative Estimation of Connectivity among Pores in the Hydroxyapatite Scaffold Prepared by Slip Casting with Porogen</li><li>Mechanical Behavior of PCL Nanofibers</li><li>Chapter 4: Cytocompatibility and Cytotoxicity of Bioceramics</li><li>Human Mesenchymal Stem Cells Behavior on Synthetic Coral Scaffold</li><li>
<i>In Vivo</i> Evaluation of Strontium-Containing Nanostructured Carbonated Hydroxyapatite</li><li>
<i>In Vivo</i> Evaluation of Zinc-Containing Nanostructured Carbonated Hydroxyapatite</li><li>Studies on Connexin 43, a Gap-Junction Protein, in P19 Embryonal Carcinoma Cells after Culture on an Apatite Fiber Scaffold</li><li>Cytocompatiblity of Ceramic Nanoparticles to Various Types of Cells</li><li>Hollow Shells Development and Characterization for Cells Carrying Purpose</li><li>Chapter 5: Drug Delivery Systems</li><li>Bioceramic Drug Delivery System for Cancer Treatment and Regenerative Medicine</li><li>Preparation of Carbonated Apatite Membrane as Metronidazole Delivery System for Periodontal Application</li><li>Enzyme Immobilization by Using Apatite Microcapsules with Magnetic Properties</li><li>Interface Function and Cefazolin-Adsorption-Release Characteristics of Hydroxyapatite Granules Modified by Supersonic Treatment Techniques</li><li>Hydroxyapatite/PLA Biocomposite Thin Films for Slow Drug Delivery of Antibiotics for the Treatment of Bone and Implant-Related Infections</li></ul>