Osseointegration of Orthopaedic Implants
Autor Amirhossein Goharianen Limba Engleză Paperback – 18 mar 2019
- Reviews and discusses all aspects of orthopedic implant osseointegration
- Provides conceptual implants for bone fracture fixation and joint replacement
- Offers novel ideas for the development of orthopedic implants with superior osseointegration
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Specificații
ISBN-13: 9780128133842
ISBN-10: 0128133848
Pagini: 210
Dimensiuni: 152 x 229 x 18 mm
Greutate: 0.29 kg
Editura: ELSEVIER SCIENCE
ISBN-10: 0128133848
Pagini: 210
Dimensiuni: 152 x 229 x 18 mm
Greutate: 0.29 kg
Editura: ELSEVIER SCIENCE
Public țintă
Product Developers at orthopaedic implant manufacturers, Biomechanical researchers, Biomaterial researchers, Biomedical engineering lecturers and students, Medical implants institutesCuprins
Part I General topics in osteointegration1. Biology of bone tissue2. History of osteointegration 3. Basic science research and clinical findings of osteointegration
Part II Overview of orthopedic implants4. Implant loosening 5. Bone fracture fixation implants6. Joint replacement prostheses7. Tissue engineering scaffolds
Part III Biomaterials for enhancement of osteointegration8. Osteoconductive materials9. Osteoinductive materials10. Bioactive materials
Part IV Surface treatments for enhancement of osteointegration11. Bioactive coating12. Porous surface13. Surface treatment
Part V Biological concepts and challenges of osteointegration14. Bone tissue in-growth and on-growth15. Body fluid rate effect on osteointegration16. Osteoinductivity and Osteoconductivity
Part VI Mechanical concepts and challenges of osteointegration17. Load transferring mechanism between bone and implant 18. Osteointegration in long term implantation19. Stress shielding effect on osteointegration20. Biomechanical concepts of scaffolding
Part VII Novel development concepts21. Novel development concepts of implant osteointegration22. Transition layer concept23. Improvement of long term bioactivity at transition layer24. Enhancement of load transferring at transition layer25. Development of shape memory concept at transition layer26. Promoting osteointegration of physiological loading cycles at early implantation
Part II Overview of orthopedic implants4. Implant loosening 5. Bone fracture fixation implants6. Joint replacement prostheses7. Tissue engineering scaffolds
Part III Biomaterials for enhancement of osteointegration8. Osteoconductive materials9. Osteoinductive materials10. Bioactive materials
Part IV Surface treatments for enhancement of osteointegration11. Bioactive coating12. Porous surface13. Surface treatment
Part V Biological concepts and challenges of osteointegration14. Bone tissue in-growth and on-growth15. Body fluid rate effect on osteointegration16. Osteoinductivity and Osteoconductivity
Part VI Mechanical concepts and challenges of osteointegration17. Load transferring mechanism between bone and implant 18. Osteointegration in long term implantation19. Stress shielding effect on osteointegration20. Biomechanical concepts of scaffolding
Part VII Novel development concepts21. Novel development concepts of implant osteointegration22. Transition layer concept23. Improvement of long term bioactivity at transition layer24. Enhancement of load transferring at transition layer25. Development of shape memory concept at transition layer26. Promoting osteointegration of physiological loading cycles at early implantation