This handbook provides an in-depth exploration of the materials utilized in 3D bioprinting, shedding light on their properties, applications, and advancements, and focuses on the fundamental principles underpinning additive manufacturing techniques, offering readers a comprehensive understanding of this innovative field.
This handbook provides an in-depth exploration of the materials utilized in 3D bioprinting, shedding light on their properties, applications, and advancements, and focuses on the fundamental principles underpinning additive manufacturing techniques, offering readers a comprehensive understanding of this innovative field.Hinweis: Dieser Artikel kann nur an eine deutsche Lieferadresse ausgeliefert werden.
Mohamad Zaki Hassan is Senior Lecturer in the Faculty of Artificial Intelligence, Universiti Teknologi Malaysia. R. A. Ilyas is Senior Lecturer at the Universiti Teknologi Malaysia and holds Fellowships with the Institute of Advanced Materials, Sweden and the International Society for Development and Sustainability, Japan. A.N. Aufa is with the Faculty of Artificial Intelligence, Universiti Teknologi Malaysia.
Inhaltsangabe
0. Prelims. 1. Fundamental Concepts Of Additive Manufacturing In The Biomedical Field. 2. Additive Manufacturing of Biocompatible Polymers and their future trend in biomedical field. 3. Materials in Biomedical Additive Manufacturing and their Challenges. 4. Current trend of additive manufacturing in biomedical applications. 5. Applications of 3D Bioprinting in Anatomical Structure. 6. In Vivo Studies of 3D Bioprinting. 7. In vitro studies of 3D printing and 3D bioprinting in drug delivery. 8. Development of 3D Printable Collagen, Gelatin, and Chondroitin Sulfate Hydrogels for Implantable Tissue Applications. 9. Development of Gelatin, Collagen and Chondroitin as Bioink in 3D Bioprinting. 10. Utilization of Gelatin, Collagen, and Chondroitin Sulfate in 3D Bioprinting. 11. Silk fibroin nanofiber, nano-chitin, and Chitosan: Promising Biomaterials in 3D Biofabrication. 12. Bioink Technology In 3d Bioprinting and Their Improvement. 13. Polysaccharide-based bioinks and hydrogel technology in 3D bioprinting. 14. Innovation and Patentability of Biopolymers for 3D Bioprinting in Biomedical Applications. 15. 3D Bioprinting Technique of Synthetic Polymers. 16. Synthetic Composites for 3D bioprinting applications. 17. 3D Bioprinting in orthodontics. 18. The Emergence Of Bioink 3d Printing In Dental Orthodontics. 19. Pellet Extrusion Additive Manufacturing of Carbon Nanotube Reinforced PEEK-based Composites for Biomedical Applications. 20. Clinical Status, Manufacturing Issue, Laws, and Future Perspectives.
0. Prelims. 1. Fundamental Concepts Of Additive Manufacturing In The Biomedical Field. 2. Additive Manufacturing of Biocompatible Polymers and their future trend in biomedical field. 3. Materials in Biomedical Additive Manufacturing and their Challenges. 4. Current trend of additive manufacturing in biomedical applications. 5. Applications of 3D Bioprinting in Anatomical Structure. 6. In Vivo Studies of 3D Bioprinting. 7. In vitro studies of 3D printing and 3D bioprinting in drug delivery. 8. Development of 3D Printable Collagen, Gelatin, and Chondroitin Sulfate Hydrogels for Implantable Tissue Applications. 9. Development of Gelatin, Collagen and Chondroitin as Bioink in 3D Bioprinting. 10. Utilization of Gelatin, Collagen, and Chondroitin Sulfate in 3D Bioprinting. 11. Silk fibroin nanofiber, nano-chitin, and Chitosan: Promising Biomaterials in 3D Biofabrication. 12. Bioink Technology In 3d Bioprinting and Their Improvement. 13. Polysaccharide-based bioinks and hydrogel technology in 3D bioprinting. 14. Innovation and Patentability of Biopolymers for 3D Bioprinting in Biomedical Applications. 15. 3D Bioprinting Technique of Synthetic Polymers. 16. Synthetic Composites for 3D bioprinting applications. 17. 3D Bioprinting in orthodontics. 18. The Emergence Of Bioink 3d Printing In Dental Orthodontics. 19. Pellet Extrusion Additive Manufacturing of Carbon Nanotube Reinforced PEEK-based Composites for Biomedical Applications. 20. Clinical Status, Manufacturing Issue, Laws, and Future Perspectives.
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