Electrospun Biomaterials for Tissue Engineering and Drug Delivery Applications
Erschienen am 21. Mai 2025
600 Seiten
978-0-443-29067-1 (ISBN)
Beschreibung
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, and blood vessels. 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.
- Divided into four distinct sections, this book guides the reader systematically from fundamental principles of electrospinning, through to each specialized application
- Provides troubleshooting for the challenges and toxicity aspects of electrospun biomaterials, as well as reviews successful electrospun products on the market
- Covers a wide range of electrospun materials for tissue engineering and drug delivery, including collagen, dextran, hyaluronic acid and more
Weitere Details
Weitere Ausgaben
Andere Ausgaben
Inamuddin | Tariq Altalhi | Maha Khan
Electrospun Biomaterials for Tissue Engineering and Drug Delivery Applications
Buch
06/2025
Woodhead Publishing
261,50 €
Versand in 15-20 Tagen
Inhalt
Part I Electrospinning 1. An introduction to electrospinning and history of electrospinning2. Silk fibroin nanofiber in drug delivery applications3. The influence of electrospinning parameter toward the fiber quality4. Electrospun nanofiber-based drug delivery system5. Electrospun patches for drug delivery6. Electrospun chitosan as a drug delivery system7. Recent developments in electrospun biomaterials for wound dressingPart II Electrospinning for tissue engineering applications 8. Relationships between properties of the electrospun nanostructures and parameters used for electrospinning9. Electrospun scaffolds for soft tissue (muscle, fibrous tissue, blood vessels, and supporting tissue) applications10. Materials for electrospinning and applications of electrospinning11. Sodium alginate-based nanofibers in wound dressing12. Electrospinning in oral drug delivery systemsPart III Electrospinning for wound dressing applications13. Chitosan-based nanofibers in wound dressing14. Collagen-based nanofibers in wound dressings15. Electrospun biomaterial: the future of medical science16. Electrospun scaffolds for dermal replacement17. Prospects of urologic tissue engineeringPart IV Electrospinning for drug delivery applications18. Troubleshooting and challenges of the electrospinning process19. Gelatin-based nanofibers in wound dressing20. Bioavailability and toxicity aspects of tissue engineering21. Successful electrospun product in the market22. Dextran based electrospun materials for drug delivery system23. Electrospun soy protein scaffolds for wound dressing applications and tissue regeneration24. Vascular tissue regeneration25. Gelatin-based electrospun materials for drug delivery system26. Collagen-based electrospun materials for drug delivery system
