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3D printing in oral health science : applications and future directions / / edited by Prabhat Kumar Chaudhari, Dinesh Bhatia, Jitendra Sharan



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Titolo: 3D printing in oral health science : applications and future directions / / edited by Prabhat Kumar Chaudhari, Dinesh Bhatia, Jitendra Sharan Visualizza cluster
Pubblicazione: Cham, Switzerland : , : Springer, , [2022]
©2022
Descrizione fisica: 1 online resource (325 pages)
Disciplina: 617.69
Soggetto topico: Dental implants
Implants dentals
Impressió 3D
Soggetto genere / forma: Llibres electrònics
Persona (resp. second.): ChaudhariPrabhat Kumar
BhatiaDinesh
SharanJitendra
Nota di bibliografia: Includes bibliographical references.
Nota di contenuto: Intro -- Preface -- Contents -- Editors and Contributors -- About the Editors -- Contributors -- 1: An Introduction to Three-Dimensional (3D) Printing in Oral Health Science -- 1.1 What Is 3D Printing (3DP)? -- 1.2 How Does 3D Printing Process Work? -- 1.2.1 3D Digital Model Acquisition -- 1.2.2 3D Digital Image Processing -- 1.2.3 The 3D Printing -- 1.2.4 Post-processing -- 1.3 Brief History of 3D Printing Development -- 1.4 Contemporary Applications and Limitations of 3D Printing in Oral Health Science -- 1.5 Summary -- References -- 2: Principles and Applications of Various 3D Scanning Methods for Image Acquisition for 3D Printing Applications in Oral Health Science -- 2.1 Noninvasive, Nonionizing Surface Imaging -- 2.1.1 Intraoral Scanning -- 2.1.1.1 An Introduction to Intraoral Scanners Including Its Advantages and Disadvantages -- Advantages and Disadvantages -- 2.1.1.2 Various Intraoral (IOS) Scanning Technologies and Principles -- Tabletop vs. Intraoral Scanners (Fig. 2.1) -- 2.1.1.3 Accuracy of Intraoral Scanning Technology -- In Vitro Trueness (Fig. 2.5a) -- In Vivo Trueness (Fig. 2.5b) -- Precision -- Effect of Software Versions on Intraoral Scanner Accuracy -- 2.1.1.4 The Various Commercially Available Intraoral Scanners -- 2.1.1.5 Application of Intraoral Scanning in Various Fields of Dentistry Including 3D Printing -- Digital Orthodontics -- 3D Printed Dentures (Fig. 2.11) -- Dental Implants (Fig. 2.12) -- 2.1.2 Desktop Scanning -- 2.1.2.1 An Introduction of Desktop Scanning Including Advantages and Disadvantages -- 2.1.2.2 Technical Characteristics of Some Commercially Available Desktop Scanners -- 2.1.2.3 Application of Desktop Scanning in Various Field of Dentistry Including 3D Printing -- 2.1.3 Facial Scanning -- 2.1.3.1 An Introduction to Facial Scanning Including Advantages and Disadvantages.
2.1.3.2 Various Facial Scanning Technologies -- 2.1.3.3 Accuracy of Facial Scanning Technology -- 2.1.3.4 Technical Characteristics of Some Commercially Available Facial Scanning Devices -- 2.1.3.5 Application of Facial Scanning in Various Fields of Dentistry -- 2.2 Ionizing Surface Imaging -- 2.2.1 Cone Beam Computed Tomography Imaging -- 2.2.1.1 Basic Principle of CBCT Imaging -- 2.2.1.2 3D Printing with CBCT Imaging -- 2.2.1.3 Advantages of CBCT Over CT -- 2.2.1.4 Limitations of CBCT -- 2.2.1.5 Application of CBCT Data for 3D Printing in Various Field of Dentistry -- References -- 3: Commonly Used 3D Printing Technologies in Oral Health Science -- 3.1 Introduction -- 3.2 Brief History -- 3.3 Basic Terminologies -- 3.3.1 2D Printing -- 3.3.2 3D Printing -- 3.3.3 Additive Manufacturing -- 3.3.4 Subtractive Manufacturing (Computer-Aided Manufacturing or Milling) -- 3.3.5 Intraoral Scanning -- 3.3.6 Desktop Scanning -- 3.3.7 STL File (Stereolithographic File or Standard Tessellation Language File) -- 3.3.8 Stereolithography (SLA) -- 3.3.9 Stereophotogrammetry -- 3.3.10 Computer-Aided Design (CAD) -- 3.3.11 Resolution -- 3.3.11.1 Horizontal Resolution -- 3.3.11.2 Vertical Resolution -- 3.3.12 Accuracy -- 3.4 Various 3D Printing Technologies for Oral Health Applications: Principles and Applications -- 3.4.1 Stereolithography (SLA) -- 3.4.2 Digital Light Processing (DLP) -- 3.4.3 Fused Deposition Modeling (FDM) -- 3.4.4 Inkjet 3D Printing/PolyJet Photopolymerization (PPP) -- 3.4.5 Selective Laser Melting (SLM) and Selective Laser Sintering (SLS) -- 3.4.6 Electron-Beam Melting (EBM) -- 3.4.7 Laminated Object Manufacturing (LOM) -- 3.5 Commonly Used 3D Printers in Different Branches of Oral Health Science -- 3.5.1 Oral and Maxillofacial Surgery -- 3.5.2 Orthodontics -- 3.5.3 Implantology and Prosthodontics.
3.5.4 Restorative Dentistry -- 3.5.5 Endodontics -- 3.5.6 Periodontics -- 3.6 Summary and Key Points -- References -- 4: An Overview of 3D Printable Materials for Dental and Craniofacial Applications -- 4.1 Introduction to 3D Printed Materials -- 4.2 Classification of 3D Printing Materials -- 4.2.1 Liquid-Based Materials -- 4.2.2 Powder-Based Materials -- 4.2.3 Solid-Based Materials -- 4.2.4 AM Technologies and Materials Matrix -- 4.3 Digital Dentistry with 3D Printed Materials: A Broad Perspective -- 4.3.1 Prominent Use Cases for Dental Applications in Additive Manufacturing -- 4.3.1.1 Oral Maxillofacial Surgery -- 4.3.1.2 Prosthodontics -- 4.3.1.3 Orthodontics -- 4.3.1.4 Endodontics -- 4.3.1.5 Periodontics -- 4.3.2 Factors for Adopting 3D Printed Materials in Digital Dentistry -- 4.4 Liquid-Based Materials -- 4.4.1 Introduction to Liquid Material-Based 3D Printing Technologies -- 4.4.1.1 Stereolithography (SLA) -- 4.4.1.2 Material Jetting (MJ) -- 4.4.1.3 Digital Light Processing (DLP) -- 4.4.2 Dental Applications of Liquid-Based Materials -- 4.4.2.1 Clear Aligners -- 4.4.2.2 Splints and Occlusal Guards -- 4.4.2.3 Digital Dentures -- 4.4.2.4 Crown and Bridges -- 4.4.2.5 Castable Wax -- 4.4.2.6 Impression Trays -- 4.4.2.7 Surgical Guides -- 4.4.2.8 Indirect Bonding Trays -- 4.4.2.9 Gingiva Masks -- 4.5 Powder-Based Materials -- 4.5.1 Introduction to Powder Material-Based 3D Printing Technologies -- 4.5.1.1 Selective Laser Sintering (SLS) -- 4.5.1.2 Multi Jet Fusion (MJF) -- 4.5.1.3 Direct Metal Laser Sintering (DMLS) and Selective Laser Melting (SLM) -- 4.5.2 Dental Applications of Powder-Based Materials -- 4.5.2.1 Crowns and Bridges -- 4.5.2.2 Oral Maxillofacial Implants -- 4.5.2.3 Dental and Aligner Models -- 4.6 Solid-Based Materials -- 4.6.1 Introduction to Solid Material-Based 3D Printing Technologies.
4.6.1.1 Fused Deposition Modeling (FDM) -- 4.6.2 Dental Applications of Solid Materials -- 4.6.2.1 Dental and Anatomical Models -- 4.7 Advancements in Materials for Oral Healthcare -- 4.7.1 Biomaterials with AM for Dental Applications -- 4.7.2 3D Printed Ceramics for Dental Applications -- 4.7.3 Other Novel Materials: PEEK, Nitinol -- 4.8 Summary -- References -- 5: Fundamentals of Computer-Aided Design (CAD) in Dental Healthcare: From Basics to Beyond -- 5.1 Introduction -- 5.1.1 A Brief History of Computer-Aided Designing and Computer-Aided Manufacturing (CAD/CAM) -- 5.2 CAD/CAM Workflow in Dentistry -- 5.2.1 Open vs. Closed Systems -- 5.2.2 3D File Formats -- 5.2.3 Chairside vs. Laboratory CAD/ CAM -- 5.3 3D Surface Data Acquisition for Computer-Aided Designing -- 5.3.1 Laboratory Desktop Scanners -- 5.3.2 Chairside Intraoral Scanners -- 5.3.3 Scanning of Edentulous Jaws -- 5.4 Computer-Aided Designing (CAD) for Dental Applications -- 5.4.1 Exocad -- 5.4.2 3Shape -- 5.4.3 CEREC Software and inLab CAD Software -- 5.4.4 Implant Planning Software -- 5.4.5 Virtual Articulator -- 5.4.6 Jaw Motion Tracking -- 5.4.7 Digital Smile Design -- 5.4.8 Digital Orthodontics -- 5.4.9 Digital Denture Design -- 5.5 Computer-Aided Manufacturing for Dental Applications -- 5.5.1 Chairside vs. Laboratory CAM -- 5.5.2 Dry and Wet Milling -- 5.5.3 Material Processing -- 5.6 Summary -- References -- 6: 3D Printing and Its Applications in Maxillofacial Surgery -- 6.1 Introduction -- 6.2 Virtual Surgical Planning (VSP) -- 6.3 3 Dimensional Printing (3D Printing) -- 6.4 Types of 3D-Printed Models -- 6.4.1 Training Models -- 6.4.2 Planning Models -- 6.4.3 Simulation Models -- 6.4.4 Patient-Specific Surgical Guides -- 6.5 Patient-Specific Implants (Custom Implants) -- 6.6 Limitations and Areas of Research.
6.7 Future Perspectives and Summary -- References -- 7: Applications of 3D Printing in Periodontal Tissue Regeneration -- 7.1 Introduction -- 7.2 Methodology -- 7.2.1 Protocol -- 7.2.2 Literature Search Strategy -- 7.2.3 Selection Criteria for Inclusion/Exclusion of Studies -- 7.2.4 Data Extraction -- 7.2.5 Quality Assessment of Animal Studies -- 7.2.6 Outcomes Evaluation -- 7.3 Results -- 7.3.1 Animal Studies -- 7.3.1.1 Study Selection -- 7.3.1.2 Study Characteristics -- 7.3.1.3 Risk of Bias -- 7.3.2 Human Studies -- 7.4 Discussion -- 7.4.1 Overview of Reported Studies -- 7.4.2 Scaffold Materials and Design -- 7.4.3 Biomolecules -- 7.4.4 Printing Technologies -- 7.4.5 Periodontal Tissue Regeneration -- 7.4.6 Merits and Demerits -- 7.4.7 Summary and Future Prospects -- References -- 8: Contemporary Applications of 3D Printing in Prosthodontics -- 8.1 3D Printing Applications in Prosthodontics -- 8.2 3D Printing for Complete Denture Fabrication -- 8.2.1 Procedural Details of 3D Printing in Removable Complete Dental Prosthodontics -- 8.2.1.1 Clinical Visit I: Impression Making (Two-Staged or Single-Staged) and Bite Registration -- Laboratory Procedure I -- Step 1: Preparation of Virtual Study Models -- Step 2: Designing of Denture -- Step 3: Nesting and Incorporation of Supports -- Step 4: Printing -- Step 5: Post-processing -- Step 6: Assembly -- Step 9: Post-cure -- 8.2.1.2 Clinical Visit II -- Laboratory Procedure II -- 8.2.1.3 Clinical Visit III -- Take-Home Points Regarding 3D Printed Removable Complete Denture -- 8.3 Fixed Prosthodontics -- 8.3.1 3D Printed Casts and Dies -- 8.3.2 Metal Frameworks of Tooth-Supported and Implant-Borne FDPs -- 8.3.2.1 Direct Metal Laser Sintering (DMLS) -- 8.3.2.2 Electron Beam Melting -- 8.3.3 Prosthesis Fabricated in Ceramics and Zirconia.
8.3.4 Provisional Crowns/Bridges Fabrication by 3D Printing.
Titolo autorizzato: 3D printing in oral health science  Visualizza cluster
ISBN: 3-031-07369-X
Formato: Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione: Inglese
Record Nr.: 9910616205003321
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