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Acta biomaterialia, ISSN 1742-7061, 2017, Volume 49, pp. 590 - 603
Journal Article
Journal Article
Biomaterials, ISSN 0142-9612, 2013, Volume 34, Issue 13, pp. 3467 - 3478
... due to factors such as osteoporosis, aging, and diabetes. Alternative implant materials that possess both osteogenesis inducing ability and antibacterial effects... 
Advanced Basic Science | Dentistry | Antibacterial property | Osteogenic differentiation | Zinc | Mesenchymal stem cells | Titania nanotubes | ACTIVATION | MATERIALS SCIENCE, BIOMATERIALS | ENGINEERING, BIOMEDICAL | OSSEOINTEGRATION | IMPLANTS | HYDROXYAPATITE | IN-VITRO | OSTEOBLAST FUNCTIONS | BONE | BACTERIAL ADHESION | EXPRESSION | L-Lactate Dehydrogenase - metabolism | Mesenchymal Stromal Cells - enzymology | Titanium - pharmacology | Alkaline Phosphatase - metabolism | Extracellular Matrix - metabolism | Extracellular Signal-Regulated MAP Kinases - metabolism | Microbial Sensitivity Tests | Nanotubes - chemistry | Mesenchymal Stromal Cells - cytology | Absorption | Mesenchymal Stromal Cells - ultrastructure | Surface Properties | Cell Death - drug effects | Bacterial Adhesion - drug effects | Nanotubes - ultrastructure | Mesenchymal Stromal Cells - drug effects | Calcification, Physiologic - drug effects | Extracellular Matrix - drug effects | Osteogenesis - drug effects | Rats | Cell Adhesion - drug effects | Rats, Sprague-Dawley | Cell Shape - drug effects | Animals | MAP Kinase Signaling System - drug effects | Proteins - metabolism | Anti-Bacterial Agents - pharmacology | Zinc - pharmacology | Staphylococcus aureus - drug effects | Zinc compounds | Antibacterial agents | Nanotubes | Surgical implants | Biomedical materials | Titanium | Biocompatibility | Nanostructure | Coatings | Titanium dioxide
Journal Article
Biomaterials, ISSN 0142-9612, 2009, Volume 30, Issue 6, pp. 1015 - 1025
Journal Article
Biomaterials, ISSN 0142-9612, 2015, Volume 51, pp. 173 - 183
Abstract Polyetheretherketone (PEEK) possesses a similar elastic modulus as bones but yet suffers from bio-inertness and poor osteogenesis. In this work,... 
Advanced Basic Science | Dentistry | Polyetheretherketone | Elastic modulus | Tantalum | Osteointegration | Plasma immersion ion implantation | STEM-CELLS | MATERIALS SCIENCE, BIOMATERIALS | ETHER-ETHER-KETONE | HUMAN OSTEOBLASTS | ENGINEERING, BIOMEDICAL | BIOACTIVE MATERIALS | MECHANICAL-PROPERTIES | METALLIC BIOMATERIALS | IN-VITRO | POROUS TANTALUM | IMMERSION ION-IMPLANTATION | NANOCOMPOSITE COATINGS | Mesenchymal Stromal Cells - enzymology | Bone Marrow Cells - enzymology | Alkaline Phosphatase - metabolism | Extracellular Matrix - metabolism | Fluorescent Dyes - metabolism | Elastic Modulus - drug effects | X-Ray Microtomography | Bone and Bones - drug effects | Mesenchymal Stromal Cells - cytology | Bone and Bones - diagnostic imaging | Surface Properties | Tantalum - pharmacology | Bone Marrow Cells - drug effects | Real-Time Polymerase Chain Reaction | Osteogenesis - genetics | Osseointegration - drug effects | Polyethylene Glycols - pharmacology | Ketones - pharmacology | Mesenchymal Stromal Cells - drug effects | Photoelectron Spectroscopy | Bone and Bones - physiology | Calcification, Physiologic - drug effects | Bone Marrow Cells - cytology | Extracellular Matrix - drug effects | Osteogenesis - drug effects | Cells, Cultured | Prostheses and Implants | Rats | Cell Adhesion - drug effects | Collagen - secretion | Gene Expression Regulation - drug effects | Animals | Cell Proliferation - drug effects | Collagen | Analysis | Stem cells | Medical colleges | Phosphatases | Ceramics | Implant dentures | Ceramic materials | Biomedical materials | Dental materials | Biocompatibility | Bones | Modulus of elasticity | Polyetheretherketones
Journal Article
Biomaterials, ISSN 0142-9612, 2014, Volume 35, Issue 30, pp. 8514 - 8527
.... In the present study, the effects of hydroxyapatite (HAp) bioceramic scaffolds with nanosheet, nanorod, and micro-nano-hybrid... 
Advanced Basic Science | Dentistry | Angiogenesis | Akt signaling pathway | Bone tissue engineering | Surface topography | Hydroxyapatite bioceramic scaffolds | Osteogenesis | TISSUE-ENGINEERED BONE | MATERIALS SCIENCE, BIOMATERIALS | ENGINEERING, BIOMEDICAL | REGENERATION | VEGF | OSSEOINTEGRATION | HYDROXYAPATITE | SIGNALING PATHWAY | GROWTH-FACTOR | SCAFFOLDS | CALVARIAL DEFECTS | Neovascularization, Physiologic - drug effects | Rats, Inbred F344 | Alkaline Phosphatase - metabolism | Adipose Tissue - cytology | Fluorescent Dyes - metabolism | Male | Stem Cells - cytology | X-Ray Microtomography | Cell Differentiation - genetics | Stem Cells - enzymology | Actin Cytoskeleton - drug effects | Durapatite - pharmacology | Proto-Oncogene Proteins c-akt - metabolism | Real-Time Polymerase Chain Reaction | Osteogenesis - genetics | Bone Regeneration - drug effects | Nanostructures - ultrastructure | Actin Cytoskeleton - metabolism | Osteogenesis - drug effects | Cells, Cultured | Biocompatible Materials - pharmacology | Signal Transduction - genetics | Cell Adhesion - drug effects | Ceramics - pharmacology | Stem Cells - ultrastructure | Gene Expression Regulation - drug effects | Animals | Signal Transduction - drug effects | Cell Differentiation - drug effects | Staining and Labeling | Nanostructures - chemistry | Stem Cells - drug effects | Cell Proliferation - drug effects | RNA | Tissue engineering | Analysis | Stem cells | Biomedical materials | Topography | Surface chemistry | Bioceramics | Biocompatibility | Bones | Nanostructure | Scaffolds
Journal Article
Biomaterials, ISSN 0142-9612, 2015, Volume 50, Issue 1, pp. 75 - 86
Abstract Successful bone tissue engineering generally requires an osteoconductive scaffold that consists of extracellular matrix (ECM) to mimic the natural... 
Advanced Basic Science | Dentistry | Extracellular matrix (ECM) | Bone morphogenic protein (BMP)-2 | Bone tissue engineering | Cell-derived matrix | Microenvironment | Polymer mesh scaffold | MIGRATION | MATERIALS SCIENCE, BIOMATERIALS | ENGINEERING, BIOMEDICAL | CONSTRUCTS | STRENGTH | MESENCHYMAL STEM-CELLS | CARTILAGE | MULTI-LINEAGE DIFFERENTIATION | MORPHOGENESIS | VASCULARIZATION | EXTRACELLULAR-MATRIX | Bone Morphogenetic Protein 2 - pharmacology | Bone and Bones - pathology | Calcium - metabolism | Humans | Extracellular Matrix - metabolism | Fibroblasts - ultrastructure | Bone and Bones - drug effects | Tissue Scaffolds - chemistry | Mesenchymal Stromal Cells - cytology | Placenta - cytology | Skull - pathology | Female | Skull - drug effects | Wound Healing - drug effects | Disease Models, Animal | Osseointegration - drug effects | Bone Regeneration - drug effects | Mesenchymal Stromal Cells - drug effects | Extracellular Matrix - drug effects | Osteogenesis - drug effects | Biocompatible Materials - pharmacology | Rats, Sprague-Dawley | Pregnancy | Extracellular Matrix - ultrastructure | Animals | Cell Differentiation - drug effects | Mice, Nude | Fibroblasts - drug effects | Immobilized Proteins - pharmacology | Polymers - pharmacology | Polymers - chemistry | Fibroblasts - cytology | Fibronectins | Biological products | Glycosaminoglycans | Tissue engineering | Analysis | Stem cells | Anticoagulants (Medicine) | Polymer industry | Polymers | Finite element method | Biomedical materials | Biocompatibility | Bones | Coating | Scaffolds | Heparins | Defects
Journal Article
Biomaterials, ISSN 0142-9612, 2009, Volume 30, Issue 26, pp. 4268 - 4276
Journal Article
Acta biomaterialia, ISSN 1742-7061, 10/2017, Volume 61, pp. 233 - 248
Journal Article
Journal Article
Journal Article