3D Bioprinting and Bioinks for Regenerative Engineering: Current Concepts and Future Advances
Editat de Anthony Atala, Jeong Ok Limen Limba Engleză Hardback – 2027
Finally, Part V addresses regulatory considerations and offers insights into future perspectives, emphasizing the challenges and opportunities ahead as the field continues to evolve. As the field is on the verge of a new era in engineering tissues, and tissue/body on a chip technologies will play a central role, bioinks are becoming a multidisciplinary field involving materials science, cell biology, biofabrication, and clinical applications. By combining cutting-edge research, practical applications, and expert contributions, this book will become an indispensable resource for both newcomers and experienced professionals.
- Focuses exclusively on bioinks for tissue printing and regenerative medicine
- Includes tissue/body on a chip technologies
- Contains real-world case studies and examples of how bioinks are transforming clinical practice, drug development, and personalized medicine
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Specificații
ISBN-13: 9780443456039
ISBN-10: 0443456038
Pagini: 500
Dimensiuni: 191 x 235 mm
Editura: ELSEVIER SCIENCE
ISBN-10: 0443456038
Pagini: 500
Dimensiuni: 191 x 235 mm
Editura: ELSEVIER SCIENCE
Cuprins
Part I: Introduction
1. History and Evolution of 3D Printing and Bioinks in Regenerative Engineering
Part II: 3D Printing Technologies
2. Extrusion-Based Printing
3. Jetting-Based Printing
4. Light-Based Printing
5. Hybrid Printing
6. Automation and Robotics in Bioprinting
7. Multiphoton Lithography and Emerging Precision
Part III: Fundamentals of Bioinks for 3D Printing
8. Introduction to Bioinks
9. Nature-Derived Hydrogel Bioinks
10. Synthetic Polymer Bioinks
11. Composite Bioinks
12. Bioink Formulations and Design
13. Self-Assembling Bioinks
14. Cellular Aggregates ad Spheroids as Building Blocks
15. Green Processing and Lifecycle Considerations for Bioinks
16. Preservation and Sterilization of Bioinks
17. Manufacturing and Translational Perspectives of Bioinks
Part IV: Printing Tissue and Organ Constructs
18. Skin
19. Cartilage
20. Muscle
21. Bone
22. Kidney
23. Pancreas
24. Liver
25. Lung
26. Trachea
27. Heart
28. Brain
29. Gastrointestinal Structures
30. Craniofacial Structures
31. Oral Cavity
32. Reproductive Structures
33. Urologic Structures
34. Vascular Structures
35. Immune Systems
36. Nerve
Part V: Regulatory Considerations and Future Perspectives
37. Regulatory Pathways for 3D Bioprinted Products
38. Ethical and Societal Dimensions of 3D Printing
39. Innovations in Body-on-a-Chip Systems
40. Bioprinting in Space: Opportunities and Challenges
1. History and Evolution of 3D Printing and Bioinks in Regenerative Engineering
Part II: 3D Printing Technologies
2. Extrusion-Based Printing
3. Jetting-Based Printing
4. Light-Based Printing
5. Hybrid Printing
6. Automation and Robotics in Bioprinting
7. Multiphoton Lithography and Emerging Precision
Part III: Fundamentals of Bioinks for 3D Printing
8. Introduction to Bioinks
9. Nature-Derived Hydrogel Bioinks
10. Synthetic Polymer Bioinks
11. Composite Bioinks
12. Bioink Formulations and Design
13. Self-Assembling Bioinks
14. Cellular Aggregates ad Spheroids as Building Blocks
15. Green Processing and Lifecycle Considerations for Bioinks
16. Preservation and Sterilization of Bioinks
17. Manufacturing and Translational Perspectives of Bioinks
Part IV: Printing Tissue and Organ Constructs
18. Skin
19. Cartilage
20. Muscle
21. Bone
22. Kidney
23. Pancreas
24. Liver
25. Lung
26. Trachea
27. Heart
28. Brain
29. Gastrointestinal Structures
30. Craniofacial Structures
31. Oral Cavity
32. Reproductive Structures
33. Urologic Structures
34. Vascular Structures
35. Immune Systems
36. Nerve
Part V: Regulatory Considerations and Future Perspectives
37. Regulatory Pathways for 3D Bioprinted Products
38. Ethical and Societal Dimensions of 3D Printing
39. Innovations in Body-on-a-Chip Systems
40. Bioprinting in Space: Opportunities and Challenges