Features: Includes clinical applications, regulatory hurdles, and a risk-benefit analysis of each technology . Assists readers in selecting the best materials and how to identify the right parameters for printing . Includes the advantages of integrating 3D printing and nanotechnology in order to improve the safety of nano-scale materials for biomedical applications
Features: Includes clinical applications, regulatory hurdles, and a risk-benefit analysis of each technology . Assists readers in selecting the best materials and how to identify the right parameters for printing . Includes the advantages of integrating 3D printing and nanotechnology in order to improve the safety of nano-scale materials for biomedical applications
Dr. Zhang received the Early Career Award from the International Journal of Nanomedicine, the John Haddad Young Investigator Award by American Society for Bone and Mineral Research, Ralph E. Powe Junior Faculty Enhancement Award by the Oak Ridge Associated Universities Organization, Joukowsky Family Foundation Outstanding Dissertation Award at Brown and the Sigma Xi Award. Dr. Zhang's research areas include 3D bioprinting, nanobiomaterials, complex tissue engineering, stem cell engineering, drug delivery and breast cancer bone metastasis
Inhaltsangabe
Part I: Principles 1. Nanotechnology: A toolkit for cell behaviour 2. 3D printing and nanomanufacturing 3. 3D bioprinting techniques 4. 4D Printing Smart Multi-responsive Structure 5. The power of CAD/CAM laser bioprinting at the single cell level: evlution of printing 6. Engineering 2D and 3D cellular microenvironments using laser direct-write 7. Cells for Bioprinting 8. Biomaterials for 3D Bioprinting 9. 4D Printing Biomaterials Part II: Applications: Nanotechnology and 3D Bioprinting for Tissue/Organ Regeneration 10. 3D/4D printing functional biomedical devices 11. Blood vessel regeneration 12. 3D Printing and Patterning Vasculature in Engineered Tissues 13. 3D Printing for Cardiac and Heart Regeneration 14. Craniofacial and dental tissue (metal printing focus) 15. Craniofacial Bone 16. Additive manufacturing for bone load bearing applications 17. 3D printing for cartilage 18. Integrating 3D printing with Ultrasound for Musculoskeletal Regeneration 19. Bioprinting for Skin 20. 3D Printing and Nanotechnology for Neural Tissue Regeneration 21. 3D Printing for Liver Regeneration 22. Organ printing 23. 3D Printing for Cancer Studies 24. 3D Bioprinting, Nanotechnology and Intellectual Property 25. Clinical Translation and Future Directions
Part I: Principles 1. Nanotechnology: A toolkit for cell behaviour 2. 3D printing and nanomanufacturing 3. 3D bioprinting techniques 4. 4D Printing Smart Multi-responsive Structure 5. The power of CAD/CAM laser bioprinting at the single cell level: evlution of printing 6. Engineering 2D and 3D cellular microenvironments using laser direct-write 7. Cells for Bioprinting 8. Biomaterials for 3D Bioprinting 9. 4D Printing Biomaterials Part II: Applications: Nanotechnology and 3D Bioprinting for Tissue/Organ Regeneration 10. 3D/4D printing functional biomedical devices 11. Blood vessel regeneration 12. 3D Printing and Patterning Vasculature in Engineered Tissues 13. 3D Printing for Cardiac and Heart Regeneration 14. Craniofacial and dental tissue (metal printing focus) 15. Craniofacial Bone 16. Additive manufacturing for bone load bearing applications 17. 3D printing for cartilage 18. Integrating 3D printing with Ultrasound for Musculoskeletal Regeneration 19. Bioprinting for Skin 20. 3D Printing and Nanotechnology for Neural Tissue Regeneration 21. 3D Printing for Liver Regeneration 22. Organ printing 23. 3D Printing for Cancer Studies 24. 3D Bioprinting, Nanotechnology and Intellectual Property 25. Clinical Translation and Future Directions
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