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Bioprinting : techniques and risks for regenerative medicine /

Innovation is added value to a known process. Bioprinting: Techniques and Risks for Regenerative Medicine aims to stimulate a scientifically grounded, interdisciplinary, multiscale debate and exchange of ideas using the techniques described in the book. 3D printing and additive manufacturing evolved...

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Detalles Bibliográficos
Clasificación:Libro Electrónico
Autor principal: Mitchell, Maika G. (Autor)
Formato: Electrónico eBook
Idioma:Inglés
Publicado: London : Academic Press, an imprint of Elsevier, [2017]
Temas:
Acceso en línea:Texto completo
Tabla de Contenidos:
  • Front Cover; Bioprinting; Copyright Page; Dedication; Contents; 1 Biomanufacturing: The Definition and Evolution of a New Genre; What Is 3D Printing?; The History of 3D Printing; Overview of Current Applications; Commercial Uses; Consumer Uses; Examples of Technical Aspects of 3D Printing/Bioprinting; MOD-t From New Matter (@NewMatter): Cost 399 USD; Flashforge Dreamer: Cost 1299 USD; iBox Nano: Cost 400-700 USD; References; Online Resources on Biomanufacturing; 2 Reproducing Cells Is Nothing New-A Historical Prospective; Use in Research.
  • 2D and 3D Cell Culture Applications Leading to BioprintingCharacteristics of 3D Cell Cultures Versus Traditional 2D Cell Cultures; Growth Conditions, Cell Morphology, and Populations in 2D and 3D Cultures; References; 3 Bioprinting Versus 3D Printing; 3D Printers (and Types) I Personally Own and Use; Micro3D (Cost in June 2015: USD 250); Technical Specifications; Software; Human Heart File From Thingiverse; iBox Nano (Cost in July 2015: USD 499); Slic3r File Converter Procedure for iBox Nano Printer; Select the Platter Tab; FlashForge Dreamer (Cost in December 2015; USD 1300).
  • The Technique3D Printing Process; Micro 3D Heart 3D Print; iBox Nano Heart 3D Print; FlashForge Dreamer Heart 3D Print; The 3D History of Bioprinting; Just Like an Inkjet Printer, Sort Of; Bioprinter Basic Parts; Steps to Personalized Medicine; Made-to-Order Human Organs; Conventional Steps Proposed for 3D Bioprinting Human Organs; Uses for 3D Organs; Further Reading; 4 Bioprinters in Use Today; Inkjet-Based Bioprinting; Laser-Assisted Bioprinting; Organovo; NovoGen MMX Bioprinter"! Microextrusion-Based Bioprinting; BioBots; References; 5 Materials for Use in Bioprinting; Bioink Materials.
  • 3D Printing Biodegradable PolymersThermogels/Gel Formers; How Does It Work?; Thermpolymers for 3D Printing; Medical Implants; Scaffolds; Biobots; Poloxamer 407; Gelatin Type A 300 Bloom; Gelatin Type A 300 Bloom + Poloxamer 407; 4D Printing; References; 6 CT Scans Function Like a CAD Design; Get the Scan Data; Get the Scan Data Into Osirix; Clinical Image Data in 2D/3D View; Export of DICOM Image Scan as 3D Printable Model; 3D Printing/Bioprinting the Scanned Image; Other Uses for DICOM Images; MicroDicom Shell Extension; Preparing for 3D Printing; References.
  • 7 Additive Manufacturing and 3D Bioprinting for Pharmaceutical TestingTissue Engineering; 3D Scaffold Fabrication by Lithography and Printing Techniques; A New 3D Printer Design for Tissues, Using a Microfluidic Chip; References; 8 Advances in Personalized Medicine: Bioprinted Tissues and Organs; FDA Final Guidance on 3D Printing and Understanding the Specific Regulatory Challenges; Overview; File-Format Conversions; Digital Device Design; Build Volume Placement; Build Paths; Machine Parameters and Environmental Conditions; Material Controls; Postprocessing.