Hydrogels for Tissue Engineering and Regenerative Medicine: From Fundamentals to Applications
Editat de J. Miguel Oliveira, Joana Silva-Correia, Rui L. Reisen Limba Engleză Hardback – 17 sep 2023
- Reviews the fundamentals and recent advances of hydrogels in tissue engineering and regenerative medicine applications
- Presents state-of-the-art methodologies for the synthesis and processing of different types of hydrogels
- Includes contributions by leading experts in engineering, the life sciences, microbiology and clinical medicine
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Specificații
ISBN-13: 9780128239483
ISBN-10: 0128239484
Pagini: 850
Ilustrații: 420 illustrations (180 in full color)
Dimensiuni: 191 x 235 mm
Greutate: 1.66 kg
Editura: ELSEVIER SCIENCE
ISBN-10: 0128239484
Pagini: 850
Ilustrații: 420 illustrations (180 in full color)
Dimensiuni: 191 x 235 mm
Greutate: 1.66 kg
Editura: ELSEVIER SCIENCE
Public țintă
Academicians, especially the researchers and students who work in tissue engineering and/or the regenerative medicine fieldCuprins
1. Fundamentals of hydrogels I - mechanical characterization
2. Fundamentals of hydrogels II - architecture and biodegradability
3. Natural Hydrogels: synthesis, composites, and prospects in delayed wounds
4. Elastin-like hydrogels as tissue regeneration scaffolds
5. In silico simulation for designing hydrogels
6. Hydrogel functionalisation and crosslinking strategies for biomedical applications
7. Sterilization methods
8. Patents and regulatory issues
9. Ionic- and photo-crosslinked hydrogels
10. Enzymatic-crosslinked hydrogels
11. Thermo-responsive hydrogels
12. pH-responsive hydrogels: synthesis and physico-chemical properties
13. Conductive Hydrogels
14. Self-assembling hydrogels based on polymer networks
15. Memory-shape hydrogels
16. Hydrogels formed by polyelectrolyte complexation
17. Interpenetrating polymer networks (IPN) hydrogels
18. Biocomposites hydrogel-based scaffolds in Tissue Engineering and Regeneration
19. DNA based programmable hydrogels for tissue engineering and regenerative medicine
20. Hydrogels as 3D scaffolds materials in tissue engineering and as organoid platforms
21. Hydrogels as filler materials
22. Hydrogels as tissue barriers
23. Hydrogels as stents
24. Silk Hydrogel Based Delivery of Cell and Bioactive Molecules for Osteochondral Tissue Engineering Applications
25. Hydrogels for development of bioinks
26. Hydrogel-inorganic filler composites for 3D bioprinting
27. Hydrogels for microfluidics
28. Hydrogels for 3D TE models
29. Hydrogels for imaging
30. Hydrogels as dynamic networks for skin repair
31. Hydrogels for cancer treatment
32. Natural-based injectable hydrogels for osteoarthritis treatment
33. Hydrogels as biologics/gene delivery systems
34. Current design and advances of hydrogel for retinal tissue engineering and regenerative medicine
35. Hydrogels for dental applications
36. Biological applications of hydrogel coatings
37. Hydrogels for immunomodulation
2. Fundamentals of hydrogels II - architecture and biodegradability
3. Natural Hydrogels: synthesis, composites, and prospects in delayed wounds
4. Elastin-like hydrogels as tissue regeneration scaffolds
5. In silico simulation for designing hydrogels
6. Hydrogel functionalisation and crosslinking strategies for biomedical applications
7. Sterilization methods
8. Patents and regulatory issues
9. Ionic- and photo-crosslinked hydrogels
10. Enzymatic-crosslinked hydrogels
11. Thermo-responsive hydrogels
12. pH-responsive hydrogels: synthesis and physico-chemical properties
13. Conductive Hydrogels
14. Self-assembling hydrogels based on polymer networks
15. Memory-shape hydrogels
16. Hydrogels formed by polyelectrolyte complexation
17. Interpenetrating polymer networks (IPN) hydrogels
18. Biocomposites hydrogel-based scaffolds in Tissue Engineering and Regeneration
19. DNA based programmable hydrogels for tissue engineering and regenerative medicine
20. Hydrogels as 3D scaffolds materials in tissue engineering and as organoid platforms
21. Hydrogels as filler materials
22. Hydrogels as tissue barriers
23. Hydrogels as stents
24. Silk Hydrogel Based Delivery of Cell and Bioactive Molecules for Osteochondral Tissue Engineering Applications
25. Hydrogels for development of bioinks
26. Hydrogel-inorganic filler composites for 3D bioprinting
27. Hydrogels for microfluidics
28. Hydrogels for 3D TE models
29. Hydrogels for imaging
30. Hydrogels as dynamic networks for skin repair
31. Hydrogels for cancer treatment
32. Natural-based injectable hydrogels for osteoarthritis treatment
33. Hydrogels as biologics/gene delivery systems
34. Current design and advances of hydrogel for retinal tissue engineering and regenerative medicine
35. Hydrogels for dental applications
36. Biological applications of hydrogel coatings
37. Hydrogels for immunomodulation