
Product details:
ISBN13: | 9780443290664 |
ISBN10: | 04432906611 |
Binding: | Paperback |
No. of pages: | 600 pages |
Size: | 228x152 mm |
Language: | English |
700 |
Category:
Electrospun Biomaterials for Tissue Engineering and Drug Delivery Applications
Publisher: Woodhead Publishing
Date of Publication: 1 May 2025
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Long description:
Electrospun Biomaterials for Tissue Engineering and Drug Delivery Applications introduces the fundamental principles of electrospinning and provides an understanding of the electrospinning process, including the selection of polymers, solvent systems, and processing parameters to achieve desired properties. Tissue engineering applications of electrospun nanofibers across a wide range of tissues and organs is covered, including bone, cartilage, skin, blood vessels, and more. This book also explores the growing role of electrospun biomaterials in wound dressings and controlled drug delivery systems, reviewing a broad selection of material classes such as starch, cellulose, chitosan, and gelatin. “Electrospun Biomaterials for Tissue Engineering and Drug Delivery Applications” is a useful resource for researchers and postgraduate students working in the fields of biomaterials, tissue engineering, and pharmaceutical sciences.
Table of Contents:
Part I Electrospinning
1. An introduction to electrospinning and history of electrospinning
2. Silk fibroin nanofiber in drug delivery applications
3. The influence of electrospinning parameter toward the fiber quality
4. Electrospun nanofiber-based drug delivery system
5. Electrospun patches for drug delivery
6. Electrospun chitosan as a drug delivery system
7. Recent developments in electrospun biomaterials for wound dressing
Part II Electrospinning for tissue engineering applications
8. Relationships between properties of the electrospun nanostructures and parameters used for electrospinning
9. Electrospun scaffolds for soft tissue (muscle, fibrous tissue, blood vessels, and supporting tissue) applications
10. Materials for electrospinning and applications of electrospinning
11. Sodium alginate-based nanofibers in wound dressing
12. Electrospinning in oral drug delivery systems
Part III Electrospinning for wound dressing applications
13. Chitosan-based nanofibers in wound dressing
14. Collagen-based nanofibers in wound dressings
15. Electrospun biomaterial: the future of medical science
16. Electrospun scaffolds for dermal replacement
17. Prospects of urologic tissue engineering
Part IV Electrospinning for drug delivery applications
18. Troubleshooting and challenges of the electrospinning process
19. Gelatin-based nanofibers in wound dressing
20. Bioavailability and toxicity aspects of tissue engineering
21. Successful electrospun product in the market
22. Dextran based electrospun materials for drug delivery system
23. Electrospun soy protein scaffolds for wound dressing applications and tissue regeneration
24. Vascular tissue regeneration
25. Gelatin-based electrospun materials for drug delivery system
26. Collagen-based electrospun materials for drug delivery system
1. An introduction to electrospinning and history of electrospinning
2. Silk fibroin nanofiber in drug delivery applications
3. The influence of electrospinning parameter toward the fiber quality
4. Electrospun nanofiber-based drug delivery system
5. Electrospun patches for drug delivery
6. Electrospun chitosan as a drug delivery system
7. Recent developments in electrospun biomaterials for wound dressing
Part II Electrospinning for tissue engineering applications
8. Relationships between properties of the electrospun nanostructures and parameters used for electrospinning
9. Electrospun scaffolds for soft tissue (muscle, fibrous tissue, blood vessels, and supporting tissue) applications
10. Materials for electrospinning and applications of electrospinning
11. Sodium alginate-based nanofibers in wound dressing
12. Electrospinning in oral drug delivery systems
Part III Electrospinning for wound dressing applications
13. Chitosan-based nanofibers in wound dressing
14. Collagen-based nanofibers in wound dressings
15. Electrospun biomaterial: the future of medical science
16. Electrospun scaffolds for dermal replacement
17. Prospects of urologic tissue engineering
Part IV Electrospinning for drug delivery applications
18. Troubleshooting and challenges of the electrospinning process
19. Gelatin-based nanofibers in wound dressing
20. Bioavailability and toxicity aspects of tissue engineering
21. Successful electrospun product in the market
22. Dextran based electrospun materials for drug delivery system
23. Electrospun soy protein scaffolds for wound dressing applications and tissue regeneration
24. Vascular tissue regeneration
25. Gelatin-based electrospun materials for drug delivery system
26. Collagen-based electrospun materials for drug delivery system