Biomaterials for Oral and Dental Tissue Engineering
Coordonnateurs : Tayebi Lobat, Moharamzadeh Keyvan
Biomaterials for Oral and Dental Tissue Engineering examines the combined impact of materials, advanced techniques and applications of engineered oral tissues. With a strong focus on hard and soft intraoral tissues, the book looks at how biomaterials can be manipulated and engineered to create functional oral tissue for use in restorative dentistry, periodontics, endodontics and prosthodontics. Covering the current knowledge of material production, evaluation, challenges, applications and future trends, this book is a valuable resource for materials scientists and researchers in academia and industry.
The first set of chapters reviews a wide range of biomaterial classes for oral tissue engineering. Further topics include material characterization, modification, biocompatibility and biotoxicity. Part Two reviews strategies for biomaterial scaffold design, while chapters in parts three and four review soft and hard tissues.
Part I: Biomaterials for Oral and Dental Tissue Engineering 1. Introduction to Oral and Dental Tissue Engineering 2. Bioactive Glasses and Calcium Phosphates 3. Polymers for Oral and Dental Tissue Engineering 4. Hydrogels in Craniofacial Tissue Engineering 5. Dental Biocomposites 6. Surface Modification of Dental Implants 7. Characterization of Biomaterials 8. Biocompatibility of Dental Biomaterials 9. Processing and Preservation of Biomaterials and Regulatory Issues
Part II: Tissue Engineering Strategies 10. Specific Considerations in Scaffold Design for Oral Tissue Engineering 11. Stem Cells from Oral and Maxillofacial Tissues 12. Bioreactor Design for Oral and Dental Tissue Engineering 13. Growth Factors for Oral and Maxillofacial Regeneration Applications
Part III: Oral and Dental Soft Tissue Engineering 14. Oral Mucosa Tissue Engineering 15. Tissue Engineered Models of Oral Soft Tissue Diseases 16. Periodontal Soft Tissue Reconstruction 17. Layered Scaffolds for Periodontal Regeneration 18. Dental Pulp Tissue Engineering and Regenerative Endodontic Therapy 19. Oral Nerve Tissue Repair and Regeneration 20. Tissue Engineering of Salivary Glands 21. Facial Muscle Tissue Engineering 22. Vascularization
Part IV: Oral and Dental Hard Tissue Engineering 23. Bone Tissue Engineering in Maxillofacial Region 24. Periodontal and Peri-implant Hard Tissue Regeneration 25. Regeneration Concerns in Cartilage and Craniofacial Defects 26. Craniofacial Surgery, Orthodontics and Tissue Engineering 27. Tooth Tissue Engineering 28. Pharmacological Agents for Bone Remodelling: An Experimental Approach
Keyvan Moharamzadeh is a Senior Clinical Lecturer and Honorary Consultant in Restorative Dentistry at the University of Sheffield, United Kingdom. He is a registered specialist in Prosthodontics, Periodontics, Endodontics and Restorative Dentistry and has been closely involved with undergraduate and postgraduate teaching and research at the School of Clinical Dentistry. He is leading multidisciplinary internationally recognised research in the field of Dental Biomaterials and Tissue Engineering and has extensively published in the literature and given numerous presentations in the national and international conferences. His research activities comprise tissue engineering; biocompatibility of dental biomaterials; synthesis and analysis of polymers and composites in dentistry; and physical and optical properties of dental materials.
- Connects materials science with restorative dentistry
- Focuses on the unique field of intraoral tissues
- Highlights long-term biocompatibility and toxicity of biomaterials for engineered oral tissues
Date de parution : 08-2017
Ouvrage de 562 p.
15x22.8 cm
Thèmes de Biomaterials for Oral and Dental Tissue Engineering :
Mots-clés :
3D printing; Acetaminophen; Acini; Allograft; Alveolar defects; Animal tests; Aspirin; Auricular cartilage; Avulsed teeth; Bilayered scaffolds; Bioactive glasses; Biocompatibility; Biocompatibility testing; Biocomposites; Bioelectrodes; Biological evaluation; Biomaterial; Biomaterials; Biomimetic scaffolds; Bioprocessing; Bioreactors; Bone; Bone augmentation; Bone morphogenic proteins; Bone scaffold; Bone tissue engineering; Calcium; Calcium phosphates; Ceramic biomaterials; Ceramics; Closed apices; Composite biomaterials; Craniofacial reconstruction; De novo; Dental implant; Dental materials; Dentistry; Facial muscle; Fibroblast; Fibroblast growth factor; Gingival recession; Gonadal hormone; Growth factor; Guided bone regeneration; Hydrogel; Ibuprofen; In vitro tests; In vivo bioreactors; Infrared; Keratinocyte; LIPUS; Mass spectrometry; Medication-related osteonecrosis; Membranes; Mucosa immunity; Nuclear magnetic resonance; Open apices; Oral and dental; Oral and dental applications; Oral and maxillofacial; Oral and maxillofacial tissues; Oral cancer; Oral infection; Oral mucosa; Oral multi-tissue regeneration; Oral nerve; Oral nerve tissue repair; Oral never tissue engineering; Oral regeneration; Oral tissue engineering; Osseointegration; Osteoblast; Osteoradionecrosis; Pamidronate; Peri-implant bone; Periodontal soft tissue reconstruction; Platelet-derived growth factor; Polymeric biomaterials; Polymers; Prostaglandin E; Pulp therapy; Radiotherap; Regeneration; Regenerative dentistry; Regenerative endodontics; Regulatory requirements; Saliva; Scaffold; Scaffold design; Scaffold fabrication; Scaffolds; Self-cell repair; Sjogren's syndrome; Stem cells; Surface modification; Thyroid hormone; Tissue engineering; Tissue-engineered bone; Tissue-engineered hypertrophic cartilage; Tissue-engineered nasal cartilage