Biopolymer Applications in 3D Bioprinting for Biomedical Engineering
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Product details:
- Publisher Elsevier Science
- Date of Publication 1 August 2026
- ISBN 9780443342073
- Binding Paperback
- No. of pages750 pages
- Size 235x191 mm
- Weight 450 g
- Language English 700
Categories
Long description:
Biopolymer Applications in 3D Bioprinting for Biomedical Engineering covers the fundamentals of polymer-based bioprinting materials, as well as the latest developments and advancements in 3D bioprinting processes. The book starts with an introduction to the principles of biomedical engineering and discusses the application of additive manufacturing in the biomedical field. This is followed by an overview of cell culture in 3D bioprinting, including in-situ bioprinting and in vitro studies and a review of the use of bio-based polymers and synthetic polymers in 3D bioprinting, with a focus on analyzing their properties and selecting the most suitable polymers for specific 3D bioprinting projects.
The book's final section explores the applications and challenges of 3D bioprinting in various areas, including anatomical structure, organ bioprinting, skin bioprinting, drug delivery, grafts, blood vessels, orthodontics, ocular and neural tissues, and composite tissues. This book is a valuable reference for industrial and academic researchers, advanced students, and R&D professionals looking for an authoritative overview of biopolymer materials and products prepared by 3D bioprinting.
Table of Contents:
Part 1: Principle of Biomedical Engineering
1. Introduction to Biomedical Engineering
2. Physiological System of the Human Body
3. Classification of Scaffold based on Geometry, Biomaterial, and Application
4. Application of Laser-based Additive Manufacturing Technique in the Biomedical Fiel
Part 2: Cell Culture of 3D Bioprinting
5. In-Situ 3D Bioprinting
6. In vitro Studies of 3D Bioprinting for Wound Healing Applications
7. 3D Bioprinting in Development and Testing of in vitro and in vivo
Part 3: Bio-Based Polymers in 3D Bioprinting
8. Silk Fibroin, Chitin and Chitosan in 3D Bioprinting
9. Gellan and Derivatives for 3D Bioprinting
10. 3D Bioprinting of Gelatine-Based Chondroitin and Dermatan Sulphate
11. Bioprinting of Silk Fibroin: From 3D Printing Properties to Biomedical Applications
12. Loss of Tissues and Organs Regeneration of 3D Bioprinting using Chitin and Chitosan
13. Starch and Cellulose-Based Materials in 3D Bioprinting
14. Anionic Polysaccharides for 3D-Bioink in Tissue Engineering
15. Design of Poly-3-hydroxybutyrate (P3HB) Scaffolds by 3D Printing for Applications in Tissue Engineering
Part 4: Synthetic Polymer in 3D Bioprinting
16. Synthetic Polymers in 3D Bioprinting
17. Biocompatible Synthetic Polymers and Composites in 3D Bioprinting
18. Bioactive Glass and Reinforcement in 3D Bioprinting
Part 5: Applications and Challenges of 3D Bioprinting
19. Applications of 3D Bioprinting in Structural and Anatomical Models
20. 3D Bioprinting in Organs
21. 3D Bioprinting in Skin
22. 3D Bioprinting in Drug Delivery
23. 3D Bioprinting in Grafts
24. Processing of 3D Bioprinting in Blood Vessels and Orthodontics
25. 3D Bioprinting in Ocular, Neural, and Composite Tissues
26. Post-Printing Processes in 3D Bioprinting
27. Orthopedic Implant Materials: Processing, Applications, Challenges, and Possible Solutions
28. Applications, Challenges, and Future Perspectives of Synthetic Polymers and Composites in 3D Bioprinting
