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3D Printing: Applications in Medicine and Surgery [Minkštas viršelis]

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  • Formatas: Paperback / softback, 352 pages, aukštis x plotis: 235x191 mm, weight: 360 g
  • Išleidimo metai: 25-Nov-2019
  • Leidėjas: Elsevier - Health Sciences Division
  • ISBN-10: 0323661645
  • ISBN-13: 9780323661645
Kitos knygos pagal šią temą:
3D Printing: Applications in Medicine and SurgeryDidesnis paveikslėlis
  • Formatas: Paperback / softback, 352 pages, aukštis x plotis: 235x191 mm, weight: 360 g
  • Išleidimo metai: 25-Nov-2019
  • Leidėjas: Elsevier - Health Sciences Division
  • ISBN-10: 0323661645
  • ISBN-13: 9780323661645
Kitos knygos pagal šią temą:
Pastovi nuoroda: https://www.kriso.lt/db/9780323661645.html
Raktažodžiai:

Recent advances and technologies in 3D printing have improved and expanded applications for surgery, biomedical engineering, and nanotechnology. In this concise new title, Drs. Georgios Tsoulfas, Petros I. Bangeas, and Jasjit S. Suri synthesize state-of-the-art information on 3D printing and provide guidance on the optimal application in today's surgical practice, from evaluation of the technology to virtual reality and future opportunities.

  • Includes expert guidance on the challenges, opportunities, and limitations of 3D printing in the field of surgery.

  • Covers patient and surgical education, ethics and intellectual property, quality and safety, 3D printing as it relates to nanotechnology, tissue engineering, virtual augmented reality, and more.
  • Consolidates today's available information in this rapidly growing area into a single convenient resource.

Contributors ix
Chapter 1 Introduction: the role of 3D printing in surgery
1(6)
Georgios Tsoulfas
Petros I. Bangeas
Jasjit S. Suri
Vasileios N. Papadopoulos
Introduction
1(1)
History of 3D printing
2(1)
3D printing in surgery
2(2)
Conclusion
4(1)
References
4(3)
Chapter 2 The long and winding road from CT and MRI images to 3D models
7(14)
Vassilios Tsioukas
Ion-Anastasios Karolos
Georgios Tsoulfas
Jasjit S. Suri
Christos Pikridas
Basic processing
7(2)
Best practices
9(10)
3D slicer
9(1)
MiTK
10(9)
Conclusions
19(1)
References
20(1)
Chapter 3 3D printing: shedding light into the surgical education
21(30)
Georgios Lales
Elissavet Anestiadou
Vasiliki Bisbinas
Jasjit S. Suri
Georgios Tsoulfas
Technical background
21(1)
General surgery
22(11)
Neurosurgery
30(3)
Orthopedic and spine surgery
33(2)
ENT surgery
35(1)
Esthetic, reconstructive, and craniomaxillofacial plastic surgery
36(2)
Cardiovascular surgery
38(2)
Urology
40(2)
Other surgical fields
42(2)
Conclusion
44(1)
References
44(7)
Chapter 4 3D printing and bioprinting: ethical and legal issues
51(18)
Takis Vidalis
Introduction
51(1)
Ethical issues
52(7)
Safety
52(1)
Consent
53(1)
Genuine consent and the role of patient education
54(2)
Enhancement
56(1)
Cell donors' data processing
56(1)
Reproductive material
57(1)
Access
58(1)
Regulation and law
59(6)
Clinical trials
60(1)
Transplantations
61(1)
Human reproduction
62(1)
Data protection
63(1)
Commercialization
64(1)
Conclusions
65(1)
Endnotes
66(3)
Chapter 5 Quality and safety in medical 3D printing
69(16)
Georgios Georgantis
Evanthia Kostidi
Ioannis Dagkinis
Dimitrios Papachristos
Nikitas Nikitakos
Introduction
69(3)
Quality assurance in medical 3D printing
72(3)
Safety in medical 3D printing
75(1)
Legal considerations for medical 3D printing
76(4)
EU regulations for medical 3D printing products
80(2)
Conclusions
82(1)
References
82(3)
Chapter 6 Economics in 3D printing
85(12)
Nikitas Nikitakos
Ioannis Dagkinis
Dimitrios Papachristos
Georgios Georgantis
Evanthia Kostidi
Introduction
85(1)
Additive manufacturing (3D printing) technology
85(2)
The market structure of additive manufacturing (3D printing) industry
87(3)
The economic growth of additive manufacturing (3D printing) industry
90(1)
3D printing in health market
91(1)
Conclusion---further research
92(2)
References
94(1)
Further reading
95(2)
Chapter 7 Three-dimensional (3D) printing and liver transplantation
97(20)
Ioannis A. Ziogas
Nizar N. Zein
Cristiano Quintini
Charles M. Miller
Georgios Tsoulfas
Introduction
97(1)
3D printing technologies
98(1)
Medical education and training
99(5)
Preoperative surgical planning
104(4)
Tissue engineering and bioprinting
108(2)
Conclusion
110(1)
References
111(6)
Chapter 8 3D printing in cardiac surgery
117(8)
Kyriakos Anastasiadis
Georgios I. Tagarakis
Cardiac surgery
118(3)
Evolution of cardiac surgery
118(1)
Applications of 3D printing in cardiac surgery
119(2)
Conclusions
121(1)
References
122(3)
Chapter 9 3D printing in vascular surgery
125(8)
Georgios Koufopoulos
Konstantinos Skarentzos
Efstratios Georgakarakos
3D printing for preoperative planning
125(2)
Bioprinting
127(1)
Training and education
128(1)
Postoperative studies and academic purposes
129(1)
Conclusion
129(1)
References
130(3)
Chapter 10 3D printing in orthopedic surgery
133(10)
Anastasios-Nektarios Tzavellas
Eustathios Kenanidis
Michael Potoupnis
Eleftherios Tsiridis
Introduction
133(1)
Anatomic models
133(3)
Operative planning
133(3)
Educational applications
136(1)
Doctor---patient communication
136(1)
Patient-specific implants and instruments
136(1)
Casts and orthotics
137(2)
Tissue engineering
139(1)
Future perspectives
139(1)
References
140(3)
Chapter 11 The role of 3D printing in ENT surgery
143(8)
Marios Stavrakas
Petros D. Karkos
Jannis Constantinidis
Introduction
143(1)
Applications in otolaryngology
143(2)
Education and training
145(2)
Surgical planning and patient education
147(1)
Tissue engineering and prosthetics
147(1)
Future perspectives
148(1)
References
148(3)
Chapter 12 Challenges, opportunities, and limitations in 3D printing
151(6)
Vassilios Tsioukas
Christos Pikridas
Ion-Anastasios Karolos
Computer-aided design---cost production
151(1)
Types of materials---strength-printing techniques
151(1)
Customer satisfaction---after market services
152(1)
Challenges in 3D printing
152(2)
Organ models
153(1)
Prosthetic parts---personalized plaster (proplasma)
153(1)
3D printing biomaterials
153(1)
Opportunities in 3D printing
154(1)
Further reading
155(2)
Index 157
Dr. Jasjit Suri, PhD, MBA, is a renowned innovator and scientist. He received the Director General's Gold Medal in 1980 and is a Fellow of several prestigious organizations, including the American Institute of Medical and Biological Engineering and the Institute of Electrical and Electronics Engineers. Dr. Suri has been honored with lifetime achievement awards from Marcus, NJ, USA, and Graphics Era University, India. He has published nearly 300 peer-reviewed AI articles, 100 books, and holds 100 innovations/trademarks, achieving an H-index of nearly 100 with about 43,000 citations. Dr. Suri has served as chairman of AtheroPoint, IEEE Denver section, and as an advisory board member to various healthcare industries and universities globally.