Multiscale Cell-Biomaterials Interplay in Musculoskeletal Tissue Engineering and Regenerative Medicine
Editat de J. Miguel Oliveira, Rui L. Reis, Sandra Pinaen Limba Engleză Hardback – 30 noi 2023
Given the large number of musculoskeletal disorders and related injuries that can affect muscles, bones and joints and lead to severe complications of the neuromuscular system, it is imperative to develop new treatment strategies to delay or repair associated diseases and to promote optimal long-term health.
- Presents the fundamentals of the complex interplay of cells with biomaterials in musculoskeletal tissue engineering
- Includes coverage of stem cells and cell-based therapies, in vitro and in vivo models, nanotechnology, bioprinting, computational modeling, regulatory and clinical translation, and much more
- Written by global leaders in the field
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Specificații
ISBN-13: 9780323918213
ISBN-10: 0323918212
Pagini: 554
Dimensiuni: 191 x 235 mm
Editura: ELSEVIER SCIENCE
ISBN-10: 0323918212
Pagini: 554
Dimensiuni: 191 x 235 mm
Editura: ELSEVIER SCIENCE
Public țintă
Students, Scientists, Professionals, Undergraduate and Graduate Students in Tissue Engineering, Regenerative Medicine, Biology, Bioengineering, Materials Science, and NanotechnologyCuprins
Section 1: Fundamentals of cell-biomaterials interactions 1. Introduction 2. Fundamentals and mechanisms 3. Cellular signaling processes 4. Cell-protein interactions 5. The microenvironment: Recreate the ECM 6. Surface modifications – topography, porosity 7. Chemotaxis: Soluble morphogens and Growth factors 8. Cell-biomaterials: Vascularization 9. Cell-biomaterials in Immunomodulation 10. Mechanobiology regulation 11. Electrical/Magnetic stimulation
Section 2: Multiscale design, structure/function and processing technologies 12. Introduction 13. Design of polymeric biomaterials at multiscale 14. Design of Calcium phosphates cements: Structure/function 15. Biomimetic micro-/nano- scales design 16. Cells-biomaterials structure-function at different length scales 17. Computational modelling involved in multiscale design 18. Hydrogel systems design: Structure/function 19. Scaffolding design and structure/function: Electrospinning 20. Scaffolding design and structure/function: Advanced manufacturing 21. Scaffolding design and structure/function: Bioprinting 22. Dynamic models for investigating structure/function of biomaterials: Bioreactors 23. Dynamic models for investigating cell-biomaterials interactions: Microfluidics 24. Complex in vitro models for studying cell-biomaterials interactions 25. In vivo animal models 26. Regulatory and clinical translation
Section 2: Multiscale design, structure/function and processing technologies 12. Introduction 13. Design of polymeric biomaterials at multiscale 14. Design of Calcium phosphates cements: Structure/function 15. Biomimetic micro-/nano- scales design 16. Cells-biomaterials structure-function at different length scales 17. Computational modelling involved in multiscale design 18. Hydrogel systems design: Structure/function 19. Scaffolding design and structure/function: Electrospinning 20. Scaffolding design and structure/function: Advanced manufacturing 21. Scaffolding design and structure/function: Bioprinting 22. Dynamic models for investigating structure/function of biomaterials: Bioreactors 23. Dynamic models for investigating cell-biomaterials interactions: Microfluidics 24. Complex in vitro models for studying cell-biomaterials interactions 25. In vivo animal models 26. Regulatory and clinical translation