Description
Comprehensive, yet concise, 3D Printing for the Radiologist presents an overview of three-dimensional printing at the point of care. Focusing on opportunities and challenges in radiology practice, this up-to-date reference covers computer-aided design principles, quality assurance, training, and guidance for integrating 3D printing across radiology subspecialties. Practicing and trainee radiologists, surgeons, researchers, and imaging specialists will find this an indispensable resource for furthering their understanding of the current state and future outlooks for 3D printing in clinical medicine.
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Table of contents
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Cover image
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Title page
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Table of Contents
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Copyright
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List of Contributors
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Preface
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Acknowledgments
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Chapter 1. An Abbreviated History of Medical 3D Printing
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Introduction
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1980s—3D Printing Pioneering Work and Earliest 3D Printing in Medicine
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1990s—3D Printed Anatomic Models and Personalized Implants
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2000s—Digital Design, Additive Metals, and Foundations for Future Virtual Work
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2010s—Virtual Surgery and Templates, Hospital-Based 3D Printing, the FDA, Reimbursement
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Chapter 2. Medical Imaging Technologies and Imaging Considerations for 3D Printed Anatomic Models
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Computed Tomography
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Magnetic Resonance Imaging
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Ultrasound
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Imaging Considerations for 3D Printed Anatomic Models
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Discussion
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Chapter 3. Image Segmentation and Nonuniformity Correction Methods
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Introduction
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Nonuniformity Correction for Accurate MRI Segmentation
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Segmentation Software
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After Segmentation
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Chapter 4. Computer-Aided Design Principles for Anatomic Modeling
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Introduction
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CAD Principles
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Design Operations
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Model Analysis and Simulation Through CAD
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Integrating 3D Printing with Simulation Models
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Conclusions
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Chapter 5. 3D Printing Principles and Technologies
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Introduction
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Vat Photopolymerization
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Material Extrusion
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Material Jetting
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Binder Jetting
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Powder Bed Fusion
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Discussion
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Conclusions
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Chapter 6. 3D Printed Anatomic Models and Guides
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Introduction
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Anatomic Models
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Anatomic Guides
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Discussion
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Future Insight
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Chapter 7. Quality Assurance of 3D Printed Anatomic Models
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QA in Radiology
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QA of 3D Printed Parts in Medicine
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Bridging the Gap Between Radiology and Manufacturing
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Verification of the 3D Printed Model
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Caliper Measurements
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Conclusion
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Chapter 8. Documentation and Reimbursement for 3D Printed Anatomic Models and Guides
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Introduction
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Documentation
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Reimbursement
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RSNA-ACR 3D printing registry
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Conclusions
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Chapter 9. Regulatory Perspectives for 3D Printing in Hospitals
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Introduction
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Medical Device Regulations
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Chapter 10. 3D Printing in Radiology Education
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Introduction
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Historical Perspective on 3D Modeling for Medical Education
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3D Printing in Anatomy Education
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3D Printed Models as a Tool in Clinical Radiology Training
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3D Printed Models for Radiological Procedural Planning
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Introducing Training in 3D Printing to Resident Education
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Sample Curriculum for a Hands-On Resident Minicourse in 3D Printing and Visualization
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Conclusions
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Chapter 11. 3D Printing in Interventional Radiology
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Introduction
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3D Printing Workflow
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Clinical Use Cases of 3D Printing in IR
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3D Printing for IR Training
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3D Printing for Patient Education
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The Future of 3D Printing in IR
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Chapter 12. 3D Printing in Nuclear Medicine and Radiation Therapy
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Introduction
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Nuclear Medicine
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3D Printing Techniques to Optimize Radiopharmaceutical Chemistry
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Radiation Therapy
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3D Printing for Radiation Therapy
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3D Printed Bolus
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3D Printed Tissue Compensators
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3D Printed Immobilization Devices
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3D Printing for Brachytherapy
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Surface Treatments
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3D Printing of Anthropomorphic Phantoms
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Conclusion
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Chapter 13. 3D Printing in Forensic Radiology
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Introduction
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Historical Overview
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Forensic Radiologic Imaging
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3D Anatomical Modeling in Forensic Radiology
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Forensic 3D Printing Use Case Scenarios
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Blunt Trauma
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Penetrating Trauma
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Blunt Force Polytrauma
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Nonaccidental (Penetrating and Blunt) Trauma
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Homicide
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Future Directions and Challenges
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Chapter 14. 3D Printed Imaging Phantoms
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Introduction
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Material Properties Pertinent to Major Medical Imaging Modalities
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Imaging Phantoms with Conventional Materials in 3D Printed Containers
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Imaging Phantoms with Conventional Materials Formed in 3D Printed Molds
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3D Printing for Vascular Flow Phantoms
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Mimicking Tissue with 3D Printed Materials
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Summary
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Chapter 15. Considerations for Starting a 3D Printing Lab in the Department of Radiology
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Introduction
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Financial Plan
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Training
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Software Considerations
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3D Printing Operational Considerations
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Conclusions
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Chapter 16. The Future of Medical 3D Printing in Radiology
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Introduction
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Emerging Medical 3D Printing Technologies
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The Case for In-Hospital 3D Printing
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A Word on Sterilization and Quality Manufacturing at the Hospital
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The Next 5Years
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5–10Years Into the Future
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10–20Years Into the Future
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20–30Years Into the Future
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Radiology of the Future
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THE RADIOLOGIST OF THE FUTURE
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Reference Index
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Subject Index
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