Handbook of Surgical Planning and 3D Printing
-10%
portes grátis
Handbook of Surgical Planning and 3D Printing
Applications, Integration, and New Directions
Gargiulo, Paolo
Elsevier Science & Technology
03/2023
466
Mole
Inglês
9780323908504
15 a 20 dias
Descrição não disponível.
SECTION I: 3D printing in healthcare
1. State of the art in 3D printing
2. Imaging modalities and parameters for 3DP
3. From medical images to 3D model: processing and segmentation
SECTION II: Surgical planning applications
4. 20 years of 3D printing in surgical planning of distraction osteogenesis
5. 3D printing to advance neurosurgery planning
6. Heart surgery: septal defect
7. 3D printing in dentistry
8. Laser sintering in dentistry
SECTION III: Clinical implementation of 3DP service
9. How to make a 3D printing service available for a hospital
10. Legal and regulatory implications of 3D printing in surgery
SECTION IV: New directions and future applications
11. 3D-printed anatomical phantoms
12. Future solutions for osteoarthritis using 3D bioprinting of articular cartilage
13. 3D printing in tissue engineering: design of bioreactor systems
14. Implantable 3D-printed devices-technologies and applications
15. New directions for preoperative planning: further impact from current and future 3D technologies
1. State of the art in 3D printing
2. Imaging modalities and parameters for 3DP
3. From medical images to 3D model: processing and segmentation
SECTION II: Surgical planning applications
4. 20 years of 3D printing in surgical planning of distraction osteogenesis
5. 3D printing to advance neurosurgery planning
6. Heart surgery: septal defect
7. 3D printing in dentistry
8. Laser sintering in dentistry
SECTION III: Clinical implementation of 3DP service
9. How to make a 3D printing service available for a hospital
10. Legal and regulatory implications of 3D printing in surgery
SECTION IV: New directions and future applications
11. 3D-printed anatomical phantoms
12. Future solutions for osteoarthritis using 3D bioprinting of articular cartilage
13. 3D printing in tissue engineering: design of bioreactor systems
14. Implantable 3D-printed devices-technologies and applications
15. New directions for preoperative planning: further impact from current and future 3D technologies
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
3D bioprinting; 3D computer models; 3D modeling; 3D printing; 3D printing parameters; 3D rendering; 3D surface rendering; 3DP; Abdominal aorta aneurysm; Additive manufacturing; Advance neurosurgery planning; Anatomical phantoms; Anatomy segmentation; Augmented reality; Bioprinting techniques; Bioreactors; Bone regeneration; Cartilage; Characteristics of 3D model; Chondrocytes; Computer-aided design; Custom-made device; DICOM; Dentistry; Design on anatomy; Diffusion tensor imaging; Distraction osteogenesis; Electron beam melting; Fiber tract extrapolation; Fixed dental prostheses; Guided bone regeneration; Healthcare; Heart surgery; Horizontal and vertical bone defects; Hospital use exemption; Icelandic group; Image modality; Imaging quality; Immersive technologies; Implantable 3D-printed devices; In vitro diagnostic regulation; In-house; Intended purpose; Laser sintering; Magnetic resonance imaging; Materialise; Maxillofacial; Maxillofacial surgery and neurosurgery; Medical device legislation; Medical device regulation; Medical image analysis; Medical imaging; Micrognathia; Mixed reality; Monolithic zirconia; Orthodontic devices; Osteoarthritis; Overdentures; POC; Patient-centered; Patient-specific implants; Personalized care; Point of care; Population anatomy; Preoperative planning; Public hospital; Removable partial dentures; STL; Segmentation; Segmentation process; Septal defect; Surgical guides; Surgical planning; Tissue engineering; Valvular structural heart disease; Virtual reality; Volume rendering
SECTION I: 3D printing in healthcare
1. State of the art in 3D printing
2. Imaging modalities and parameters for 3DP
3. From medical images to 3D model: processing and segmentation
SECTION II: Surgical planning applications
4. 20 years of 3D printing in surgical planning of distraction osteogenesis
5. 3D printing to advance neurosurgery planning
6. Heart surgery: septal defect
7. 3D printing in dentistry
8. Laser sintering in dentistry
SECTION III: Clinical implementation of 3DP service
9. How to make a 3D printing service available for a hospital
10. Legal and regulatory implications of 3D printing in surgery
SECTION IV: New directions and future applications
11. 3D-printed anatomical phantoms
12. Future solutions for osteoarthritis using 3D bioprinting of articular cartilage
13. 3D printing in tissue engineering: design of bioreactor systems
14. Implantable 3D-printed devices-technologies and applications
15. New directions for preoperative planning: further impact from current and future 3D technologies
1. State of the art in 3D printing
2. Imaging modalities and parameters for 3DP
3. From medical images to 3D model: processing and segmentation
SECTION II: Surgical planning applications
4. 20 years of 3D printing in surgical planning of distraction osteogenesis
5. 3D printing to advance neurosurgery planning
6. Heart surgery: septal defect
7. 3D printing in dentistry
8. Laser sintering in dentistry
SECTION III: Clinical implementation of 3DP service
9. How to make a 3D printing service available for a hospital
10. Legal and regulatory implications of 3D printing in surgery
SECTION IV: New directions and future applications
11. 3D-printed anatomical phantoms
12. Future solutions for osteoarthritis using 3D bioprinting of articular cartilage
13. 3D printing in tissue engineering: design of bioreactor systems
14. Implantable 3D-printed devices-technologies and applications
15. New directions for preoperative planning: further impact from current and future 3D technologies
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
3D bioprinting; 3D computer models; 3D modeling; 3D printing; 3D printing parameters; 3D rendering; 3D surface rendering; 3DP; Abdominal aorta aneurysm; Additive manufacturing; Advance neurosurgery planning; Anatomical phantoms; Anatomy segmentation; Augmented reality; Bioprinting techniques; Bioreactors; Bone regeneration; Cartilage; Characteristics of 3D model; Chondrocytes; Computer-aided design; Custom-made device; DICOM; Dentistry; Design on anatomy; Diffusion tensor imaging; Distraction osteogenesis; Electron beam melting; Fiber tract extrapolation; Fixed dental prostheses; Guided bone regeneration; Healthcare; Heart surgery; Horizontal and vertical bone defects; Hospital use exemption; Icelandic group; Image modality; Imaging quality; Immersive technologies; Implantable 3D-printed devices; In vitro diagnostic regulation; In-house; Intended purpose; Laser sintering; Magnetic resonance imaging; Materialise; Maxillofacial; Maxillofacial surgery and neurosurgery; Medical device legislation; Medical device regulation; Medical image analysis; Medical imaging; Micrognathia; Mixed reality; Monolithic zirconia; Orthodontic devices; Osteoarthritis; Overdentures; POC; Patient-centered; Patient-specific implants; Personalized care; Point of care; Population anatomy; Preoperative planning; Public hospital; Removable partial dentures; STL; Segmentation; Segmentation process; Septal defect; Surgical guides; Surgical planning; Tissue engineering; Valvular structural heart disease; Virtual reality; Volume rendering
