3D Printing in Bone Surgery

✍ Scribed by Carmine Zoccali (editor), Pietro Ruggieri (editor), Francesco Benazzo (editor)

Publisher: Springer
Year: 2022
Tongue: English
Leaves: 177
Edition: 1st ed. 2022
Category: Library

No coin nor oath required. For personal study only.

✦ Synopsis

Filling a gap in the literature, this is the first book to comprehensively discuss 3D printing applied to bone surgery. It provides both the scientific basics and practical applications, with a special focus on 3D-printed, custom-made titanium prostheses (3DPCMP) used for bone reconstruction following tumor resection.

Initially applied to pelvic and scapular prostheses – because of their of highly complex anatomy – this technology is increasingly being adopted in other fields of orthopedics, such as limb surgery, traumatology and degenerative diseases. Throughout the book, experts from various fields share their knowledge, describing 3D printing applied to the reconstruction of different bone segments, reviewing each application and comparing it with traditional reconstruction. They also present real-world case studies from their clinical practice.

Uniquely responding to the growing interest surrounding 3D printing for bone reconstruction, this book is invaluable for orthopedic, neuro- , head and neck as well as maxillofacial surgeons wishing to gain insights into this new and promising field.

✦ Table of Contents

Foreword
Preface
Contents
1: Indications: Didactical Use of 3D Printing, Surgical Didactical Use, Surgical Planning, Patient Information, Custom-Made Prosthesis, Spacer and Template, External Prosthesis, Cast
1.1 3D Model Development
1.2 Didactical Use and Patient Information
1.3 Surgical Planning
1.4 Custom-Made Prosthesis
1.5 Conclusions
References
2: The Rationale of 3D Printing in Oncological Orthopaedics
2.1 Introduction
2.1.1 3D Models
2.1.2 Guiding JIGS
2.1.3 3D Prostheses
2.1.3.1 Evolution of Reconstruction Concept and Technology
2.2 Intercalary 3D Prosthesis
2.3 3D Scaffolds
2.4 Conclusion
References
3: The 3D Printing Production Procedure
3.1 Introduction
3.2 From Diagnostic Imaging to the Anatomical Model
3.3 3D Printing Technology Used in Orthopedics
3.3.1 Stereolithography
3.3.2 Selective Laser Sintering
3.3.3 Electron Beam Melting
3.3.4 Selective Laser Melting
3.3.5 Fused Deposition Modeling
3.4 Materials Used to Print Surgical Devices and Implants
3.5 Finishing and Cleaning of the 3D Printed Piece
3.6 Sterilization Methods Available for 3D Printing Materials
3.6.1 Steam Autoclave
3.6.2 Ehylene Oxide Gas
3.6.3 Hydrogen Peroxide Gas Plasma
3.6.4 Gamma Radiation
3.7 Conclusion
References
4: The Engineer’s Point of View
4.1 Introduction
4.2 3D Technologies and Medical Application
4.3 Production Flow of a Custom-Made Medical Device
4.3.1 Image Acquisition
4.3.2 Planning & Design
4.3.2.1 Anatomic Models for Surgical Planning
4.3.2.2 Blood Vessels Visualization
4.3.2.3 Anatomical Cutting Guides
4.3.2.4 Design of Patient-Specific Implant and Instruments
4.4 Intraoperative Execution
4.5 Advantages of 3D-Printed Custom Implants
4.6 Limitations and Potential Future Development
References
5: 3D Pelvis/Hip Prosthesis
5.1 Introduction
5.2 How to Create a Medical 3D-Printed Implant for Pelvic Reconstructions
5.2.1 Step 1: Ideation
5.2.2 Step 2: Image Acquisition
5.2.3 Step 3: Multidisciplinary Work on 3D Virtual Model
5.2.4 Step 4: Printing
5.3 Patient-Specific Tools and Guides
5.4 3D-Printed Prostheses in Pelvic Reconstructions: Revision Surgery
5.5 3D-Printed Prostheses in Pelvic Reconstructions: Tumors
5.6 Conclusions
References
6: Custom Reconstruction Around the Knee
6.1 Introduction
6.1.1 Image Processing
6.1.2 PSIs (Guides)
6.1.3 Tools
6.1.4 Implants
6.1.5 Surgery
6.2 Material and Methods
6.3 Results
6.4 Discussion
6.5 Conclusions
References
7: When the Bone Is Not Enough: The Role of Custom-Made Implants in Cup Revision Surgery
7.1 Acetabular Bone Defects Classifications and Possible Solution
7.1.1 Severe Acetabular Bone Defect
7.1.2 Pelvic Discontinuity
7.1.3 Bone Defect Extended Beyond the Acetabulum
7.2 PreOperative Evaluation
7.3 Design and Construction of the Model
7.4 Surgery
7.5 PostOperative Rehabilitation Program
7.6 PostOperative Evaluation
7.7 Clinical Experience and Failures
References
8: 3D Scapula/Shoulder Prosthesis
8.1 Introduction
8.2 3D-Printed Titanium Custom-Made Prosthesis
8.3 Conclusion
References
9: 3D Vertebral Prosthesis
9.1 Introduction
9.2 3D-Printing in Spine: Review
9.3 En Bloc Resection
9.4 Anterior Column Reconstruction: Goals and Options
9.4.1 Biological Options (Bone Grafts)
9.4.2 Prosthetic Options
9.5 Preoperative Planning and Implant Design
9.6 3D-Printed Reconstruction After Surgery for Spinal Tumors
9.6.1 3D-Printed Vertebral Prosthesis: Pros
9.6.2 3D-Printed Vertebral Prosthesis: Cons
References
10: 3D Skull Prosthesis
10.1 Introduction
10.2 Types of Cranial Prosthesis (Standard Pre-Curved and Custom-Made). 3D Technology
10.3 Indications for Use
10.4 Surgical Procedures
10.5 Comparison Between Custom-Made 3D-Printed Prostheses and Standard Pre-Curved Prostheses
10.6 Single Step Surgery (Resection–Reconstruction)
10.7 Conclusions
References
11: 3D Facial Prosthesis
11.1 Introduction
11.2 Upper Third: Naso-Fronto-Orbital Region
11.3 Middle Third: Maxillary Region
11.4 Lower Third: Mandibular Region
11.5 Maxillo-Mandibular Complex: Orthognathic Surgery
References
12: 3D Carpal (Hand) Prosthesis
12.1 Introduction
12.2 Indications
12.3 Review of Literature
12.4 Discussion
References
13: 3D Tarsal (Foot) Prosthesis
13.1 Introduction
13.2 Indications and Contraindications
13.3 3D Printed Custom Cages
13.4 Total Talar Prosthesis
13.5 Total Calcaneus Prosthesis
13.6 Conclusions
References
14: The Composite Custom-Made Prosthesis
14.1 Introduction
14.2 The Composite Custom-Made Prosthesis
14.3 Exemplificative Case
14.4 Discussion
References
15: 3D-Printed Custom-Made Instruments
15.1 3D-Printed Custom-Made Instrumentations
15.2 Clinical Applications
References
16: Future Developments of 3D Printing in Bone Surgery
16.1 Technical Innovations: New 3D Printers and Materials
16.2 Surgical Applications: Optimization of Constructs
16.3 Bioprinting: 3DP in Regenerative Medicine and Drug Delivery Systems
16.4 Considerations on 4D Printing
16.5 3D Graphy Banking: To Go Over the Patient’s Specific Bio-Modeling
16.6 Conclusions
References

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