Medical Modelling The Application of Advanced Design and Rapid Prototyping Techniques in Medicine 2nd Edition by Richard Bibb, Dominic Eggbeer, Abby Paterson ISBN 1782423001 9781782423003
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ISBN 10: 1782423001
ISBN 13: 9781782423003
Author: Richard Bibb, Dominic Eggbeer, Abby Paterson
Medical modelling and the principles of medical imaging, Computer Aided Design (CAD) and Rapid Prototyping (also known as Additive Manufacturing and 3D Printing) are important techniques relating to various disciplines – from biomaterials engineering to surgery. Building on the success of the first edition, Medical Modelling: The application of Advanced Design and Rapid Prototyping techniques in medicine provides readers with a revised edition of the original text, along with key information on innovative imaging techniques, Rapid Prototyping technologies and case studies. Following an overview of medical imaging for Rapid Prototyping, the book goes on to discuss working with medical scan data and techniques for Rapid Prototyping. In this second edition there is an extensive section of peer-reviewed case studies, describing the practical applications of advanced design technologies in surgical, prosthetic, orthotic, dental and research applications.
Medical Modelling The Application of Advanced Design and Rapid Prototyping Techniques in Medicine 2nd Table of contents:
1. Introduction
1.1. Background
1.2. The human form
1.3. Basic anatomical terminology
1.4. Technical terminology
2. Medical imaging
2.1. Introduction to medical imaging
2.2. Computed tomography (CT)
2.3. Cone beam CT (CBCT)
2.4. Magnetic resonance (MR)
2.5. Noncontact surface scanning
2.6. Medical scan data
2.7. Point cloud data
2.8. Media
3. Working with medical scan data
3.1. Pixel data operations
3.2. Using CT data: a worked example
3.3. Point cloud data operations
3.4. Two-dimensional formats
3.5. Pseudo 3D formats
3.6. True 3D formats
3.7. File management and exchange
4. Physical reproduction
4.1. Background to rapid prototyping
4.2. Stereolithography
4.3. Digital light processing
4.4. Fused deposition modelling
4.5. Laser sintering
4.6. Powder bed 3D printing
4.7. Material jetting technology
4.8. Laminated object manufacture
4.9. Computer numerical controlled machining
4.10. Cleaning and sterilising medical models
5. Case Studies
Implementation
5.1. Implementation case study 1
5.2. Implementation case study 2: the development of a collaborative medical modelling service – organisational and technical considerations
5.3. Implementation case study 3: medical rapid prototyping technologies – state of the art and current limitations for application in oral and maxillofacial surgery
Surgical applications
5.4. Surgical applications case study 1
5.5. Surgical applications case study 2: rapid manufacture of custom-fit surgical guides
5.6. Surgical applications case study 3: use of a reconstructed three-dimensional solid model from computed tomography to aid in the surgical management of a total knee arthroplasty
5.7. Surgical applications case study 4: custom-made titanium orbital floor prosthesis in reconstruction for orbital floor fractures
5.8. Surgical applications case study 5: use of three-dimensional technology in the multidisciplinary management of facial disproportion
5.9. Surgical applications case study 6: appropriate approach to computer-aided design and manufacture of reconstructive implants
5.10. Surgical applications case study 7: computer-aided planning and additive manufacture for complex, mid-face osteotomies
Maxillofacial rehabilitation
5.11. Maxillofacial rehabilitation case study 1
5.12. Maxillofacial rehabilitation case study 2: producing burns therapy conformers using noncontact scanning and rapid prototyping
5.13. Maxillofacial rehabilitation case study 3: an appropriate approach to computer-aided design and manufacture of cranioplasty plates
5.14. Maxillofacial rehabilitation case study 4: evaluation of advanced technologies in the design and manufacture of an implant retained facial prosthesis
5.15. Maxillofacial rehabilitation case study 5: rapid prototyping technologies in soft-tissue facial prosthetics – current state of the art
5.16. Maxillofacial rehabilitation case study 6: evaluation of direct and indirect additive manufacture of maxillofacial prostheses using 3D printing technologies
5.17. Maxillofacial rehabilitation case study 7: computer-aided methods in bespoke breast prosthesis design and fabrication
Orthotic rehabilitation applications
5.18. Orthotic rehabilitation applications case study 1
5.19. Orthotic rehabilitation applications case study 2: comparison of additive manufacturing systems for the design and fabrication of customised wrist splints
5.20. Orthotic rehabilitation applications case study 3: evaluation of a digitised splinting approach with multiple-material functionality using additive manufacturing technologies
5.21. Orthotic rehabilitation applications case study 4: digitisation of the splinting process – development of a CAD strategy for splint design and fabrication
5.22. Orthotic rehabilitation applications case study 5: evaluation of a refined 3D CAD workflow for upper extremity splint design to support AM
Dental applications
5.23. Dental applications case study 1
5.24. Dental applications case study 2: trial fitting of an RDP framework made using CAD and RP techniques
5.25. Dental applications case study 3: direct additive manufacture of RPD frameworks
5.26. Dental applications case study 4: a comparison of plaster, digital and reconstructed study model accuracy
5.27. Dental applications case study 5: design and fabrication of a sleep apnoea device using CAD/AM technologies
5.28. Dental applications case study 6: computer-aided design, CAM and AM applications in the manufacture of dental appliances
Research applications
5.29. Research applications case study 1
5.30. Research applications case study 2: recreating skin texture relief using computer-aided design and rapid prototyping
5.31. Research applications case study 3: comparison of additive manufacturing materials and human tissues in computed tomography scanning
5.32. Research applications case study 4: producing physical models from computed tomography scans of ancient Egyptian mummies
5.33. Research applications case study 5: trauma simulation of massive lower limb/pelvic injury
5.34. Research applications case study 6: three-dimensional bone surrogates for assessing cement injection behaviour in cancellous bone
6. Future developments
6.1. Background
6.2. Scanning techniques
6.3. Data fusion
6.4. Rapid prototyping
6.5. Tissue engineering
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Tags: Richard Bibb, Dominic Eggbeer, Abby Paterson, Techniques, Medical Modelling