Essentials of 3D Biofabrication and Translation
Autor Anthony Atala, James J Yooen Limba Engleză Hardback – 28 sep 2015
The book runs the gamut of topics related to the subject, including hydrogels and polymers, nanotechnology, toxicity testing, and drug screening platforms, also introducing current applications in the cardiac, skeletal, and nervous systems, and organ construction.
Leaders in clinical medicine and translational science provide a global perspective of the transformative nature of this field, including the use of cells, biomaterials, and macromolecules to create basic building blocks of tissues and organs, all of which are driving the field of biofabrication to transform regenerative medicine.
- Provides a new and versatile method to fabricating living tissue
- Discusses future applications for 3D bioprinting technologies, including use in the cardiac, skeletal, and nervous systems, and organ construction
- Describes current approaches and future challenges for translational science
- Runs the gamut of topics related to the subject, from hydrogels and polymers to nanotechnology, toxicity testing, and drug screening platforms
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Specificații
ISBN-13: 9780128009727
ISBN-10: 0128009721
Pagini: 440
Ilustrații: 175 illustrations
Dimensiuni: 216 x 276 x 25 mm
Greutate: 1.45 kg
Editura: ELSEVIER SCIENCE
ISBN-10: 0128009721
Pagini: 440
Ilustrații: 175 illustrations
Dimensiuni: 216 x 276 x 25 mm
Greutate: 1.45 kg
Editura: ELSEVIER SCIENCE
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Public țintă
biomedical and bioengineering researchers working in different phases of the development of regenerative medicine tools including cell banking, stem cells and cell therapy, biomaterials, and tissue engineering; and scientific administrators and grad students in biotechnology fieldsCuprins
Preface
1. Bioprinting Essentials of Cell and Protein Viability
2. Software for Biofabrication
3. Design and Quality Control for Translating 3D Printed Scaffolds
4. Inkjet Bioprinting
5. In vivo and in situ Biofabrication by Laser Assisted Bioprinting
6. Stereolithographic 3D Bioprinting for Biomedical Applications
7. Extrusion Bioprinting
8. Indirect Rapid Prototyping for Tissue Engineering
9. Bioprinting Using Aqueous Two Phase System
10. Bioprinting of Organs for Toxicology Testing
11. High Throughput Screening with Biofabrication Platforms
12. Sensors and Bioprinting for Clinical Translation
13. Polymers for Bioprinting
14. Hydrogels for 3D Bioprinting Applications
15. Bioprinting of Organoids
16. Bioprinting of 3D tissues and Organ Constructs
17. Bioprinting of Bone
18. Bioprinting of Cartilage
19. Biofabrication of Vascular Networks
20. Bioprinting of Blood Vessels
21. Bioprinting of Cardiac Tissues
22. Bioprinting of Skin
23. Bioprinting of Nerve
24. Biofabrication: Industrial Perspective
1. Bioprinting Essentials of Cell and Protein Viability
2. Software for Biofabrication
3. Design and Quality Control for Translating 3D Printed Scaffolds
4. Inkjet Bioprinting
5. In vivo and in situ Biofabrication by Laser Assisted Bioprinting
6. Stereolithographic 3D Bioprinting for Biomedical Applications
7. Extrusion Bioprinting
8. Indirect Rapid Prototyping for Tissue Engineering
9. Bioprinting Using Aqueous Two Phase System
10. Bioprinting of Organs for Toxicology Testing
11. High Throughput Screening with Biofabrication Platforms
12. Sensors and Bioprinting for Clinical Translation
13. Polymers for Bioprinting
14. Hydrogels for 3D Bioprinting Applications
15. Bioprinting of Organoids
16. Bioprinting of 3D tissues and Organ Constructs
17. Bioprinting of Bone
18. Bioprinting of Cartilage
19. Biofabrication of Vascular Networks
20. Bioprinting of Blood Vessels
21. Bioprinting of Cardiac Tissues
22. Bioprinting of Skin
23. Bioprinting of Nerve
24. Biofabrication: Industrial Perspective