Musculoskeletal Tissue Engineering Advanced Topics in Biomaterials Series
Coordonnateur : Chen Yupeng
Musculoskeletal Tissue Engineering introduces the fundamental concepts and translational applications of musculoskeletal tissue engineering, in combination with emerging technologies and materials. Sections discuss Tissues and Technologies, covering a range of musculoskeletal tissues, including bone, cartilage, ligament and more. Each chapter in this section details core tissue engineering principles specific to each tissue type. Next, a Technologies section looks at the range of biomaterials used in musculoskeletal tissue engineering, focusing on biocompatibility of materials and interactions at the material-tissue interface. Other chapters cover nanotechnology, 3D printing, gene therapy, tissue chips, and more.
This book offers an advanced reference text for researchers in biomedical engineering, materials science and regenerative medicine.
Section 1: Tissues 1. Bone tissue engineering 2. Cartilage tissue engineering 3. Dental tissue engineering 4. Skeletal muscle tissue engineering 5. Ligament and tendon tissue engineering 6. Meniscus tissue engineering 7. Musculoskeletal tissue interfaces 8. Hard Tissue and material interfaces
Section 2: Technologies 9. 3D printing and soft musculoskeletal tissue engineering 10. 3D printing and hard musculoskeletal tissue engineering 11. Nanomaterials for musculoskeletal tissue engineering 12. Biomaterials for musculoskeletal tissue engineering 13. Musculoskeletal tissue chips 14. Drug delivery and regenerative medicine for joint tissues 15. Stem cells for musculoskeletal tissues
- Details various materials and cutting-edge technologies for musculoskeletal tissue engineering
- Covers a range of musculoskeletal tissues, including bone, cartilage, ligament, tendon, meniscus, and more
- Provides a balance between basic concepts and translational applications for a broad audience
Date de parution : 11-2021
Ouvrage de 382 p.
15x22.8 cm
Thèmes de Musculoskeletal Tissue Engineering :
Mots-clés :
?3D printing methods; Antibiotics; Antiinflammatory drugs; Bioinks; Biomaterials; Bioprinting; Bone; Bone chips; Bone tissue engineering; Cartilage; Cartilage chip; Cells; Cells-based repair; Chitosan; Chondrocyte; Collagen; Composite scaffolds; Crescent; Extracellular matrix; Flexion; Fracture; Gelatin; Gene therapy; Growth factor; Hematoma; Hydrogel: scaffold; Hydrogels; In vitro; Ligament; Mechanically active materials; Mechanobiology; Meniscus; Muscle fiber; Muscoskeletal tissue; Musculoskeletal; Musculoskeletal disease; Musculoskeletal tissue engineering; Nanoparticles; Organ-on-a-chip; Osteoarthritis; Pericellular matrix; Proteoglycan; Regeneration; Regenerative engineering; Scaffold; Scaffold architecture; Scaffolds; Signaling molecules; Skeletal muscle; Skeletal muscles; Smart biomaterials; Stem cell; Stem cells; Tendon; Three-dimensional printing; Three-dimensional scaffolds; Tissue chip; Tissue engineering