Nanocomposites for Musculoskeletal Tissue Regeneration Woodhead Publishing Series in Biomaterials Series
Coordonnateur : Liu Huinan H.
Nanocomposites for Musculoskeletal Tissue Regeneration discusses the advanced biomaterials scientists are exploring for use as tools to mimic the structure of musculoskeletal tissues. Bone and other musculoskeletal tissues naturally have a nanocomposite structure, therefore nanocomposites are ideally suited as a material for replacing and regenerating these natural tissues. In addition, biological properties such as biointegration and the ability to tailor and dope the materials make them highly desirable for musculoskeletal tissue regeneration.
Part 1 Designing nanocomposites for musculoskeletal tissue regeneration 1. Design and fabrication of nanocomposites for musculoskeletal tissue regeneration 2. Nanomaterials as Reinforcing Agents for Biodegradable and Biocompatible Polymeric Tissue Engineering Implants 3. Effects of surface modification on polymeric biocomposites for orthopaedic applications 4. Proliferation and Osteogenic Differentiation of Mesenchymal Stem Cells on composites Part 2 Polymer nanocomposites for musculoskeletal tissue regeneration 5. Toxicity and biocompatibility of nanocomposites for musculoskeletal tissue regeneration 6. Advanced polymer Composites and Structures for bone and cartilage Tissue Engineering 7. Biodegradable polymer nanocomposites for spine tissue engineering 8. Chitosan nanocomposites for bone tissue regeneration 9. Polymer nanocomposites for drug delivery applications in bone tissue regeneration 10. Fabrication of Cellulosic Composite Scaffolds for Cartilage Tissue Engineering 11. Electrospun scaffolds for cartilage regeneration 12. Nanocomposites for cartilage and osteochondral repair 13. In vitro Studies of Hydrogels for cartilage repair Part three Ceramic and glass nanocomposites for musculoskeletal tissue regeneration 14. Biomimetic phosphate nanocomposites for bone tissue regeneration 15. Hydroxapatite nanocomposites for tendon repair 16. Ceramic-polymer nanocomposites for bone tissue regeneration
- Provides a comprehensive discussion on the design and advancements made in the use of nanocomposites for musculoskeletal tissue regeneration
- Presents an In-depth coverage of material properties
- Includes discussions on polymers, ceramics, and glass
Date de parution : 02-2016
Ouvrage de 406 p.
15x22.8 cm
Thèmes de Nanocomposites for Musculoskeletal Tissue Regeneration :
Mots-clés :
3D printing; ACF; Bacterial cellulose; Bioceramics; Biodegradable polymers; Biomaterials; Biomimesis; Biomimetic; Biphasic calcium phosphate; Bone grafting; Bone soft-tissue regeneration; Bone; Bone-tissue regeneration; Calcium phosphate; Carbon nanotubes; Cartilage regeneration; Cartilage tissue engineering; Cartilage; Cell�material interactions; Cellulose; Ceramics; Chitosan; CNT; Collagen; Collagen-binding proteins; Cyto- and biocompatibility; Design elements; ECM; Electrospinning; Fabrication; Fibrous structure; Gelatin; Growth factors; Heliobond�Hydrogel; Hybrid composites; Hydrogel; Hydrogels; Hydroxyapatite; Layer-by-layer assembly; Ligament; Lithography; Microfibers; Musculoskeletal tissue engineering; Nanocomposite; Nanocomposites; Nanofibrous scaffolds; Nanoparticles; Nanotopography; Orthopedic biomaterials; Orthopedic interface; Orthopedics; Osteoblasts; Osteoclasts; Osteocytes; Osteoinductivity; Osteointegration; Particulate composites; Peptides; PGA; Polycaprolactone; Polylactic acid; Poly-lactic-co-glycolic acid; Polymer composites; Polymeric biocomposites; Polymeric scaffolds; Polymer�matrix composites (PMCs)Polymers; Polyvinyl alcohol; Repair; Silanization; Spinal cord; Stem cells; Surface modification; Tendon; Tissue engineering; Vertebroplasty
