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1. | EXECUTIVE SUMMARY |
1.1. | The seven different types of 3D printing processes |
1.2. | 3D printing in healthcare: regulatory perspectives |
1.3. | 3D printing as a surgical tool |
1.4. | Why use models to improve patient care, standards and efficiency |
1.5. | 3D printing custom plates, implants, valves and stents |
1.6. | Adoption outlook of orthopaedic implants from 2019 to 2029 |
1.7. | Digital dentistry and 3D printing |
1.8. | The digital dentistry workflow |
1.9. | Other medical devices |
1.10. | 3D printing pharmaceuticals |
1.11. | What Can Tissue Engineering Do? |
1.12. | 3D Bioprinting Process |
1.13. | 3D Scaffold: Requirements |
1.14. | 3D printing is poised for widespread adoption |
1.15. | Overall 3D Bioprinting Market Forecast 2019 - 2029 |
1.16. | Annual revenue from 3D printing for medical devices |
1.17. | Annual revenue from medical and dental 3D printing |
2. | INTRODUCTION |
2.1. | Glossary: common acronyms for reference |
2.2. | The seven different types of 3D printing processes |
2.3. | Major material-process relationships |
2.4. | Why adopt 3D printing? |
2.5. | In-house or outsource? |
2.6. | 3D printing in healthcare: regulatory perspectives |
3. | 3D PRINTING TECHNOLOGIES: HARDWARE |
3.1. | Extrusion: Thermoplastics (TPE) |
3.2. | Vat photopolymerisation: Stereolithography (SLA) |
3.3. | Vat photopolymerisation: Digital Light Processing (DLP) |
3.4. | Material jetting |
3.5. | Powder bed fusion: Selective Laser Sintering (SLS) |
3.6. | Powder bed fusion: Direct Metal Laser Sintering (DMLS) |
3.7. | Powder bed fusion: Electron Beam Melting (EBM) |
4. | 3D BIOPRINTING TECHNOLOGIES |
4.1. | 3D Bioprinting: Inkjet |
4.2. | 3D Bioprinting: Extrusion |
4.3. | 3D Bioprinting: Laser-Induced Forward Transfer |
4.4. | 3D Bioprinting: Microvalve |
5. | 3D PRINTING TECHNOLOGIES: SOFTWARE |
5.1. | Overview of 3D printing software segments |
5.2. | Relationship between 3D printing hardware and software |
5.3. | Computer Aided Design (CAD) |
5.4. | Computer Aided Engineering (CAE): Topology |
5.5. | Computer Aided Manufacture (CAM): Build preparation |
5.6. | .STL files |
5.7. | Converting DICOM scans to a 3D printed device |
6. | APPLICATIONS |
6.1. | Applications: Surgical tools, guides and models |
6.1.1. | 3D printing as a surgical tool |
6.1.2. | Motivation for adoption |
6.1.3. | Why use models to improve patient care, standards and efficiency |
6.1.4. | 3D printing for surgical application and radiography |
6.1.5. | .STL libraries of anatomical models |
6.1.6. | 3D printing as a surgical planning and determination tool |
6.1.7. | 3D printing processes and materials for surgical applications |
6.1.8. | Photosensitive resins |
6.1.9. | Photosensitive resins |
6.1.10. | Pathfinder ACL guide |
6.1.11. | Cost effective and agile preprocedural surgical models |
6.1.12. | Case study: pre-procedural simulation for brain aneurysm |
6.1.13. | Regulatory overview |
6.2. | Applications: Implantable devices |
6.2.1. | 3D printing custom plates, implants, valves and stents |
6.2.2. | Motivation for adoption |
6.2.3. | Titanium alloy powders |
6.2.4. | Titanium alloy powders |
6.2.5. | High temperature thermoplastic filaments and powders |
6.2.6. | High temperature thermoplastic filaments and powders |
6.2.7. | PMI Polymers and Filaments for scaffolds and stents |
6.2.8. | Case study: hip replacement revision surgery |
6.2.9. | Case study: canine cranial plate in titanium |
6.2.10. | Regulatory overview |
6.2.11. | Adoption outlook of orthopaedic implants from 2019 to 2029 |
6.3. | Applications: Dental tools, models and prosthetics |
6.3.1. | Digital dentistry and 3D printing |
6.3.2. | Motivation for adoption |
6.3.3. | The digital dentistry workflow |
6.3.4. | 3D printing processes and materials for dental applications |
6.3.5. | Key 3D printer providers |
6.3.6. | Photosensitive resins |
6.3.7. | Photosensitive resins |
6.3.8. | Key dental photosensitive resin developers |
6.3.9. | Metal powders |
6.3.10. | Metal powders |
6.3.11. | Case study: The Invisalign Story |
6.3.12. | Case study: mandibular reconstructive surgery |
6.3.13. | Case study: "Orthoprint, or How I Open-Sourced My Face" |
6.3.14. | Company profile: Digital Smile Design |
6.3.15. | Regulatory overview |
6.4. | Applications: Orthoses, prostheses and other medical devices |
6.4.1. | Other medical devices |
6.4.2. | Motivations for adoption |
6.4.3. | Applications: hearing aids |
6.4.4. | Applications: orthotic braces |
6.4.5. | Applications: orthotic insoles |
6.4.6. | Applications: prosthetics |
6.4.7. | Dad designs son's 3D printed prosthetic arm |
6.4.8. | Applications: eyewear |
6.4.9. | Applications: wheelchair |
6.4.10. | Applications: respiration masks |
6.5. | Applications:Pharmaceuticals |
6.5.1. | 3D printing pharmaceuticals |
6.5.2. | Motivations for adoption |
6.5.3. | Material/Method Overview - Jetting |
6.5.4. | Jetting - Advantages and Disadvantages |
6.5.5. | Material/Method Overview - Thermoplastic |
6.5.6. | Thermoplastic - Advantages and Disadvantages |
6.5.7. | Applications: Novel Dissolution Profiles |
6.5.8. | Novel Pill Architectures |
6.5.9. | Applications: Personalized Medication |
6.5.10. | Applications: Novel Drugs and Drug Testing |
6.5.11. | Key players |
6.5.12. | Aprecia Pharmaceuticals |
6.5.13. | Regulatory overview |
6.6. | Applications:Living tissues |
6.6.1. | What Can Tissue Engineering Do? |
6.6.2. | Motivations for adoption |
6.6.3. | 3D Bioprinting Process |
6.6.4. | 3D Scaffold: Requirements |
6.6.5. | 3D Scaffold: Process |
6.6.6. | Material Overview - Hydrogel |
6.6.7. | Hydrogel - Advantages and Disadvantages |
6.6.8. | Material Overview - Polymer Scaffold |
6.6.9. | Polymer Scaffold - Advantages and Disadvantages |
6.6.10. | Applications: Product Testing |
6.6.11. | Applications: Drug Screening |
6.6.12. | Applications: Personalized Medicine |
6.6.13. | Applications: Cell-Based Biosensors |
6.6.14. | Applications: Food and Animal Products |
6.6.15. | Applications: Aesthetics |
6.6.16. | Case Study: Aesthetics |
6.6.17. | Applications: Regenerative Medicine |
6.6.18. | Case Study: Regenerative Medicine |
6.6.19. | Regulatory - In Vivo Applications |
6.6.20. | Key Players |
6.6.21. | 3D Bioprinting Players |
6.6.22. | Relevant IDTechEx Research |
7. | REGULATORY PERSPECTIVES |
7.1. | Medical Grade Materials |
7.2. | Medical Grade Materials |
7.3. | Medical Device Pathways |
7.4. | FDA Medical Device Classifications |
7.5. | FDA Medical Device Timelines |
7.6. | FDA Drug and Biologics Pathways |
8. | MARKET ANALYSIS AND FORECAST |
8.1. | 3D bioprinting: Market barriers |
8.2. | Growing 3D Bioprinting Market |
8.3. | Overall 3D Bioprinting Market Forecast 2019 - 2029 |
8.4. | The state of the market for 3D printed medical devices |
8.5. | Annual revenue from 3D printing for medical devices |
8.6. | Annual revenue from medical and dental 3D printing |
9. | CONCLUSIONS |
9.1. | Outlook: Surgical tools, guides and models |
9.2. | Outlook: Implants |
9.3. | Outlook: Dental appliances, models and tools |
9.4. | Outlook: Other medical devices |
9.5. | Outlook: 3D printed pharmaceuticals |
9.6. | Outlook: 3D living tissues |
9.7. | 3D printing is poised for widespread adoption |
9.8. | 3D Printing Research |
10. | COMPANY PROFILES |
10.1. | 3D Bioprinting Solutions/ Vivax Bio |
10.2. | 3D Biotek |
10.3. | 3D Ceram |
10.4. | 3D Systems |
10.5. | 3Dynamic Systems (3DS) |
10.6. | Aether |
10.7. | Allevi |
10.8. | Arcam AB |
10.9. | Aspect Biosystems |
10.10. | BellaSeno |
10.11. | BioDan Group |
10.12. | BIOLIFE4D |
10.13. | Carbon3D |
10.14. | Cellbricks |
10.15. | Cellenion |
10.16. | Cellink |
10.17. | Cyfuse Biomedical |
10.18. | Cytosurge |
10.19. | Digilab |
10.20. | DiHeSys - Digital Health System |
10.21. | EOS GmbH |
10.22. | Formlabs |
10.23. | GeSiM |
10.24. | Materialise |
10.25. | Microdrop Technologies |
10.26. | MicroFab Technologies |
10.27. | Oxford Performance Materials |
10.28. | Peptigeldesign |
10.29. | Photocentric |
10.30. | Poietis |
10.31. | Prellis Biologics |
10.32. | Regemat 3D |
10.33. | RegenHU |
10.34. | Ricoh |
10.35. | SE3D |
10.36. | Sichuan Revotek |
10.37. | Stratasys |
10.38. | SunP Biotech International |
幻灯片 | 283 |
---|---|
Companies | 38 |
预测 | 2029 |