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The Bone-biomaterial interface /
Each year more than 500,000 arthritic or injured hips are replaced by orthopaedic surgeons around the world. A critical element in the longevity of each replacement is the successful interaction of bone tissue with biomaterial. The same critical element epplies in other joint replacements, in the hu...
| Clasificación: | Libro Electrónico |
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| Autor Corporativo: | |
| Otros Autores: | |
| Formato: | Electrónico Congresos, conferencias eBook |
| Idioma: | Inglés |
| Publicado: |
Toronto [Ont.] :
University of Toronto Press,
©1991.
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| Colección: | desLibris. Books collection.
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| Temas: | |
| Acceso en línea: | Texto completo |
Tabla de Contenidos:
- Contents
- Foreword
- Preface
- Acknowledgments
- Part 1: The Material Surface
- 1 Surface Characterization of Implant Materials: Biological Implications
- 2 The Biomaterial-Tissue Interface and Its Analogues in Surface Science and Technology
- 3 Surface Reaction Kinetics and Adsorption of Biological Moieties: A Mechanistic Approach to Tissue Attachment
- 4 Titanium and Its Oxide Film: A Substrate for Formation of Apatite
- 5 Titanium: Immersion-Induced Surface Chemistry Changes and the Relationship to Passive Dissolution and Bioactivity
- 6 Kinetics of Mineralization, Demineralization, and Transformation of Calcium Phosphates at Mineral and Protein Surfaces7 Substrate Surface Dissolution and Interfacial Biological Mineralization
- 8 High-Resolution Electron Microscopy of a Bone Implant Interface
- Part 2: Bone Proteins and Other Macromolecules
- 9 Non-Collagenous Bone Proteins and Their Role in Substrate-Induced Bioactivity
- 10 Role of Adhesive Proteins and Integrins in Bone and Ligament Cell Behavior at the Material Surface
- 11 Non-Endocrine Regulation of Bone Cell Activity
- 12 Osteogenesis Induced by BMP-Coated Biomaterials: Biochemical Principles of Bone Reconstruction in Dentistry13 Ceramic Synthesis using Biological Processes
- Parts 1 and 2 � General Discussion
- Part 3: Cellular Activity at the Interface
- 14 Inflammatory Cell Response to Bone Implant Surfaces
- 15 Modulation of Cell Activity by Titanium Peroxy Compounds
- 16 Behaviour of Osteoblasts on Micromachined Surfaces
- 17 Osteoblast Reactions to Charged Polymers
- 18 Cell-Mediated Bone Regeneration
- 19 The Influence of Sputtered Bone Substitutes on Cell Growth and Phenotypic Expression20 Early Extracellular Matrix Synthesis by Bone Cells
- 21 Transmission Electron Microscopical Identification of Extracellular Matrix Components using Immunocytochemistry
- 22 Molecular Biological Approaches to Investigate Cell/Biomaterial Interactions
- 23 Biological Cascades of Fracture Healing as Models for Bone-Biomaterial Interfacial Reactions
- Part 4: The Tissue-Material Interface
- 24 Tissue Responses to Bone-Derived and Synthetic Materials
- 25 Hard and Soft Connective Tissue Growth and Repair in Response to Charged Surfaces26 Deposition of Cement-like Matrix on Implant Materials
- 27 Polymer Reactions Resulting in Bone Bonding: A Review of the Biocompatibility of Polyactive
- 28 Comparative Morphology of the Bone Interface with Glass Ceramics, Hydroxyapatite, and Natural Coral
- 29 Interfacial Reactions to Bioactive and Non-bioactive Bone Cements
- 30 Modulation of Bone Ingrowth by Surface Chemistry and Roughness
- 31 Comparative Push-out Data of Bioactive and Non-bioactive Materials of Similar Rugosity