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Essentials of 3D Biofabrication and Translation /
Essentials of 3D Biofabrication and Translation discusses the techniques that are making bioprinting a viable alternative in regenerative medicine. The book runs the gamut of topics related to the subject, including hydrogels and polymers, nanotechnology, toxicity testing, and drug screening platfor...
| Clasificación: | Libro Electrónico |
|---|---|
| Otros Autores: | , |
| Formato: | Electrónico eBook |
| Idioma: | Inglés |
| Publicado: |
London, UK :
Academic Press an imprint of Elsevier,
[2015]
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| Temas: | |
| Acceso en línea: | Texto completo |
Tabla de Contenidos:
- Cover; Title Page; Copyright Page; Dedication; Contents; List of Contributors; Preface; Chapter 1
- Bioprinting Essentials of Cell and Protein Viability; Abstract; Keywords; 1
- An introduction to bioprinting; 1.1
- Printing Modalities; 1.1.1
- Inkjet Printing; 1.1.2
- Scaffold-Free Printing; 1.1.3
- Extrusion-Based Deposition; 1.1.4
- Laser-Induced Forward Transfer; 1.2
- Essential Considerations; 2
- Cell sourcing; 2.1
- Cell Lines; 2.2
- Primary Cells; 2.3
- Stem Cells and Stem Cell-Derived Cells; 3
- Biomaterials and bioinks; 3.1
- Curable Polymers for Structural Support.
- 3.2
- Cell-Supportive Soft Materials and Hydrogels3.2.1
- Synthetic Polymer Hydrogels; 3.2.2
- Collagen; 3.2.3
- Hyaluronic Acid; 3.2.4
- Gelatin; 3.2.5
- Alginate; 3.2.6
- Fibrin; 3.3
- Biomaterial Features; 3.3.1
- Modulation of Mechanical Properties; 3.3.2
- Biochemical Signal Loading; 4
- Integration with biofabrication devices; 4.1
- Pressure and Shear Stress; 4.2
- Temperature; 4.3
- Nutrient Availability; 5
- Maintenance and maturation of constructs; 5.1
- Cellular Self-Organization; 5.2
- Mechanical Stimulation; 6
- Conclusions; Glossary; Abbreviations; References.
- Chapter 2
- Software for BiofabricationAbstract; Keywords; 1
- Introduction; 2
- Concepts of medical image-based research and engineering; 2.1
- The Acquisition of Patient Images; 2.2
- The Creation of a 3D Model from Patient Images; 2.3
- From an Accurate 3D Model to New Results; 2.3.1
- Measure
- Measurements and Population Analysis; 2.3.2
- Design
- CAD on Anatomy and Restoration of Anatomical Defects; 2.3.3
- Model
- Preparation for Numerical Simulations; 2.4
- Preparing and 3D Printing a Model; 3
- "Bioprinting" means many things in 3D printing; 3.1
- Scaffold Printing.
- 3.2
- Cell Printing3.3
- An Additive Manufacturing Definition of "Bioprinting"; 4
- Bioprinting and conventional 3D printing require similar workflows and tools; 4.1
- Preprocessing; 4.2
- Processing; 4.3
- Postprocessing; 5
- A software review; 6
- Medical image-based research and engineering; 7
- Creation of complex scaffolding or porous structures; 8
- Preparation and optimization
- from the final design to the printed object; 8.1
- CAD Design; 8.2
- STL Conversion and Editing; 8.3
- Platform Preparation; 8.4
- Build Processor; 8.5
- Machine Control Software; 8.6
- Postprocessing.
- 9
- Management of a multiple-printer facility10
- Examples of bioprinting applications benefiting from additive manufacturing software; 10.1
- Toward Replicating a Patient's Aorta; 10.2
- Creating Patient-Specific Implants with Resorbable Materials; 10.3
- Designing Scaffolds and Porous Structures for Medical Applications; 10.4
- Implant Design with Optimal Biological Interaction; 11
- Conclusions; Abbreviations; References; Chapter 3
- Design and Quality Control for Translating 3D-Printed Scaffolds; Abstract; Keywords; 1
- Introduction; 2
- Splint design control.
- 2.1
- Design Control Overview.