Volume 3 is brand new for 2020! Volume 3, our most recent update, has great new information on the newest developments in scanning, printing, software, and now… milling!

Are you perplexed by 3D printing? Does the prospect of being fully digital frighten you? Have you ever wished to create your own surgical guides or crowns? Have you spoken with sales representatives from dental firms and been irritated by how much it costs to start printing in your own practice/lab?

This fascinating training will answer all of your digital questions and handle your digital worries by covering everything you, your assistants, and your laboratory need to know about 3D printing! We cover the fundamentals of intraoral and optical scanning techniques, free software for editing dental models, 3D printing procedures, and different ways for generating surgical guides, all the way up to higher level approaches. We educate with low-cost, desktop 3D printers that cost less than $4,000 for a printer, dental models that cost roughly $1-2 apiece, and surgical guides that cost $4-5 each! We also teach proven procedures for printing and milling occlusal guards and crowns utilizing low-cost laboratory printing and milling equipment!!

UNLV School of Dental Medicine also provides up to 46 continuing education credits. When finished, the course gives hours of video-based learning credits as well as independent study CE credits for your dental boards and AGD!

This course makes use of learning strategies and instructional information that is 10% projection slides and 90% video-based. We stress “LIVE” video-based simulation approaches to show the utilization of scanners, printers, software, and surgical guide manufacture and presentation. Files including DICOM and STL files of exhibited examples will be given for you to follow along with. Finally, we give a variety of “cheat-sheet” handouts for you to print in your clinic to help you and your assistants understand all of these technologies!

This course is divided into five sections to provide the greatest education possible:

Section I: 3D Dentistry Fundamentals & Intraoral Optical Scanning

Covering all of the fundamentals of digital dentistry, including how to combine low-cost intraoral scanning techniques and a comparison of various scanners on the market.

Topics covered include:

A Historical Overview of 3D Dentistry A Market Review of Scanners Cost Analysis
Scanner Accuracy in Scanning Workflows
Intraoral Scanning Implementation Strategies in Clinical Practice
Scanner-Based Clinical Examples

Section II: Making Use of 3D Printers and Open-Source Computer-Aided Design (CAD) Software

This part covers the fundamentals of utilizing intraoral scans, exporting STL files, and dealing with the files, including modeling and basic smoothing techniques. We show you how to download the program, open STL files, and work with them. Also covered are how to set up the Formlabs, Sprintray, and Nextdent desktop 3D printers, install cartridges, and successfully print simple objects!

Topics covered include:

Software Downloading and Installation
STL file export from an intraoral scanner
In Open Source CAD Software Packages, open STL files.
Basic and Advanced Dental Model Editing
Using Multiple STL Layers
Model Export to STL Files
Clay Modeling Fundamentals, Boolean Procedures, and Parametric Designs
Installing Resin Cartridges and Tanks on Formlabs, Sprintray, and Nextdent 3D Printers
Printing Dental Models using 3D Printer Software
Understanding Post-Processing Techniques, Including Dr. Scherer’s One-Of-A-Kind “Contemporary Wash Station Design”
UV Curing Techniques and Equipment Options for 3D Printed Models
Dental Model Finishing and UV Curing

Section III: Restorative Dentistry Using 3D Printing and Free/Open-Source Computer Aided Design (CAD) Techniques

A thorough introduction and in-depth discussion of using free software acquired from the internet to assist with issues ranging from basic to sophisticated restorative dentistry. We encourage the use of a free bespoke virtual tooth library, virtual wax-up teeth, wax-up for cosmetic restorations, and the creation of clear aligners for missing teeth!

Topics covered include:

Fundamentals of Digital Restorative Dentistry
3D Printing Bleaching Trays
Models for printing, fishing, UV curing, and vacuum forming trays
Meshmixer is used to modify and virtually extract teeth.
Meshmixer Virtual Tooth Library Construction
Denture Teeth Intraoral Scanning
3D Print a Temporary Retainer (Essix®) Printing the Temporary Retainer with a Virtual Tooth Library, Finishing and UV Curing the Models, Vacuum Forming, and Making Teeth in the Temporary Retainer with Composite Resin
Basic Meshmixer Digital Wax-up Techniques for Esthetic Dentistry
Crown and Bridge Dentistry Using Advanced Digital Waxing
Temporary Crown and Bridge Dentistry Printing Models, Vacuum Forming Matrix, and Clinical Examples of Digital Crown and Bridge Dentistry

Section IV: Medical and Dental Modeling Using 3D Printing

This segment is both interesting and entertaining! We go through the fundamentals of CBCT scanning, including how to position patients for scanning, how to execute scans, how to process DICOM data, and how to convert DICOM to STL files for 3D printing. Finally, we will discuss exciting new developments in scanning denture teeth, dental models, and other items – your CBCT scanner to use in restorative dentistry and printing procedures!

Topics covered include:

Using a CBCT Scanner to Understand Radiographic Options for Dental Applications: Understanding Voxels, Patient Positioning, and Field of View
Isolation of Soft Tissue
Getting a Patient Ready for a CBCT Scan
Making a CBCT Scan and Working with DICOM Files
Software Options for Converting DICOM to STL
Demonstrating Multiple Software Methods for Converting DICOM to STL Using Open Source CAD Software to Clean-Up Medical Models Prior to Printing
Medical Model Printing
Medical Model Finishing, UV Curing, and Polishing
A CBCT Scanner for Scanning Dental Models
A CBCT Scanner is used to scan dentures and denture teeth.

Section V: Using Blue Sky Plan for Implant Dentistry and 3D Printing Surgical Guides

3D printable guidelines for guided implant surgery are a fantastic method to practice! This fascinating part covers everything you’ll need to get started, including 3D printing your own bio-compatible surgical guides in your office for a few dollars rather than hundreds at the laboratory! We go through everything from the fundamentals to advanced ideas, as well as actual procedures and techniques for inserting dental implants – guided surgery equipment.

Topics covered include:

Background, Terminology, Techniques, Understanding Trajectory and Detph Control During Surgery are the fundamentals of guided surgery.
Blue Sky Plan Fundamentals: Importing DICOMs and Important Planning Techniques
Options for Optical Scanning for STL File Fabrication for Surgical Planning
Importing Optical Scans and Fusing Them With A CBCT Scan For Implant Planning
Advanced Model Registration Methods: Manual Manipulation Techniques, Matching Teeth, Point by Point
Indirect, Model-Based Surgical Guides Universal Guide Tubes and Surgical Guide Design
Modeling, Guide Tube Fitting, Vacuum Forming, Polishing, Clinical Examples of Indirect Surgical Guides
Model Resin Tanks and Cartridges vs. Surgical Guides
Pilot Guide – Blue Sky Bio Drills: Direct, Digital-Based Surgical Guides
Surgical Guide Printing, Cleaning & Finishing, Guide Tube Fitting, UV Curing Pilot Guided Surgery Case Studies
Fully-Guided Surgical Guides: Direct, Digital-Based Surgical Guides
Surgical Guide Printing, Cleaning & Finishing, Guide Tube Fitting, UV Curing, Clinical Examples of Fully-Guided Surgery

Advanced Full-Arch Implantology and Surgical Guide Design

Section VI focuses on full-arch implantology, soft tissue supported guides, partial extraction situations, guide pins, and operating – more sophisticated designs than Section V! We cover everything from full-arch guidelines to advanced ideas, and we demonstrate – video-recorded procedures and techniques for implant placement.

Topics covered include:

Background, Terminology, and Techniques of Full-Arch Guided Surgery
Partially-Edentulous Full-Arch Guides in Use
Extraction of Teeth and Use of Partially Tooth Supported/Tissue Supported Guides for Full-Arch Dentistry with “Crown-Down” Treatment Planning
Guide Stabilization Pins in Action
Understanding the Role of Soft Tissues in CBCT Radiopaque PVS Impression Technique Using Fiduciary Markers and Scan Appliances – CBCT Using Intraoral Scanning – Scan Appliances
Impression Inversion Techniques & Fabricating Guides from Inverted Models CBCT Scanning and PVS Fiduciary Markers
Working – Full-Arch Creative Design

Clinical and Laboratory Workflows – 3Shape, Exocad, Printing, and Milling

NEW IN 2020!! This fantastic new area is designed for physicians who want to go a little more “serious” – digital! We are focusing on establishing the “in-office integrated clinical-laboratory digital practice,” as well as how the role of 3D printing is increasing – milling and how we can make ceramic restorations, occlusal guards, and other interesting things – in our offices! We cover everything from how to set up laboratory digital equipment to 3Shape Dental Systems, exocad, and Blue Sky Plan software ideas. We go through clinical and laboratory procedures step by step to create production cases for clinical-laboratory practice success!

Topics covered include:

Imagining a Clinical/Laboratory Hybrid Practice Model
How Should I Begin?
An Overview of Dental CAD Software
Medit i500 and 3Shape TRIOS Scanners for Crown and Bridge Scanning
Modeling and Designing a Restoration Using 3Shape/Exocad Software
Using Exocad Software to Design a Restoration and Models
Nextdent 5100, Sprintray Pro 3D Printing Models and Prototyping Restorations
Restorations Using Monolithic Zirconia Milling
Despruing, Sintering, Post-Sintering, Staining, and Glazing of Monolithic Zirconia
Monolithic Zirconia Restoration Delivery
Introduction to Digital Occlusal Guards, as well as Material and Manufacturing Options
Intraoral Scanning using the Medit i500 and 3Shape TRIOS Scanner for an Occlusal Guard
Using Exocad to Create an Occlusal Guard
Modeling the Occlusal Guard using exocad Model Creator and 3Shape Model Builder
Milling the Occlusal Guard Laboratory Adjustment 3D Printing the Occlusal Guard and Models using the Nextdent 5100 and Sprintray Pro 3D Printers Milled Occlusal Guard Procedures
Cleaning and Maintaining 3D Printers Providing the Occlusal Guard
Cleaning and Upkeep of the Milling Machine

Credits for Continuing Education are given by:

This activity was organized and carried out in compliance with the guidelines of the Academy of General Dentistry Program Permission for Continuing Education (PACE) through the UNLV School of Dental Medicine and Dr. Scherer’s joint program provider approval. The UNLV School of Dental Medicine has been allowed to grant FAGD/MAGD credit. Pace Provider AGD 213111. From 6/1/2017 until 5/31/2021, it is nationally approved.

The UNLV School of Dental Medicine is an ADA CERP provider. The American Dental Association’s CERP program assists dental professionals in locating appropriate continuing dental education providers. The ADA CERP does not recognize or recommend specific courses or teachers, nor does it indicate that credit hours will be accepted by dental boards.

Michael Scherer, your instructor

Dr. Michael Scherer is an Assistant Clinical Professor at Loma Linda University, a Clinical Instructor at the University of Nevada – Las Vegas, and a dentist in Sonora, California who specializes in prosthodontics and implant dentistry. He is a member of the American College of Prosthodontists and has written publications on implant dentistry, clinical prosthodontics, and digital technologies, with a focus on implant overdentures. Dr. Scherer’s interest in digital implant dentistry has prompted him to develop and use new technologies – CAD/CAM surgical systems, interactive CBCT implant planning, and out-of-the-box radiographic imaging concepts – as an ardent technology and computer hobbyist. Dr. Scherer also has multiple YouTube channels, including “LearnLOCATOR,” “LearnLODI,” “LearnSATURNO,” “The 3D Dentist,” and “LearnF-Tx,” which are popular for regular and narrow diameter dental implant treatments, as well as digital dentistry.

Curriculum of the Course

Section I – 3D Dentistry Fundamentals & Optical Scanning

Begin with Chapter 1: Introduction and Course Overview (13:34)

Begin Chapter 2: Why Digital When PVS Will Do? (5:32)

Begin with Chapter 3: Introduction to 3D Dentistry; Historical Overview (7:32)

Begin by reading Chapter 4: Traditional vs. Digital Workflows (13:02)

Begin by reading Chapter 5: Intraoral Scanning – Scanner Systems, Techniques, Accuracy, and Scanning Workflows (57:51)

Begin by reading Chapter 6: Intraoral Scanning with the 3M TrueDefinition Scanner (7:53)

Begin with Chapter 7: Laboratory Scanning – Benchtop Scanning of a Dental Model Using the 3M True Definition Scanner (6:15)

Begin with Chapter 8: Intraoral Scanning Using the 3Shape TRIOS Scanner (10:17)

Begin with Chapter 9: Laboratory Scanning – Benchtop Scanning of a Dental Model Using the 3Shape TRIOS Scanner (6:56)

Begin with Chapter 10: Intraoral Scanning Using the Medit i500 Scanner (14:08)

Begin with Chapter 11: Laboratory Scanning – Benchtop Scanning of a Dental Model Using the Medit i500 Scanner (11:46)

Begin with Chapter 12: Laboratory Scanning – Benchtop Scanning a PVS Impression Using the Medit i500 Scanner (5:17)

Begin by reading Chapter 13: The Economic Reality of Digital Dentistry (12:56)

Begin with Chapter 14: Intraoral Scanning in Clinical Practice: Success Strategies (22:48)

Begin with Chapter 15: Clinical Applications of Intraoral Scanning (11:35)

Begin with Chapter 16: UNLV CE Credit Assessment – Section I Section II – Using 3D Printers and the Fundamentals of Computer Aided Design (CAD) Software

Begin with Chapter 1: An Introduction to 3D Printing: What Exactly Is a 3D Printer and How Does It Work? (42:25)

Begin with Chapter 2: Computer-Aided Design (CAD) Software (4:50)

Begin with Chapter 3: Recognizing the Differences Between STL and PLY/OBJ Files (19:51)

Begin with Chapter 4: Obtaining and Installing Free CAD Software (6:01)

Begin Chapter 5: Obtaining STL Files from the 3M TrueDefinition Scanner (3:32)

Begin Chapter 6: Working – 3Shape TRIOS STL Files (2:48)

Begin by reading Chapter 7: Exporting STL/OBJ/PLY Files from the Medit i500 Scanner (10:18)

Begin with Chapter 8: Opening STL Files in Meshmixer and Important Software Techniques (15:40)

Begin Chapter 9: Basic Dental Model Editing (14:36)

Begin Chapter 10: Advanced Editing and Working – Difficult Models (11:22)

Begin Chapter 11: Working with Multiple STLs: Layers and Articulating Dental Models (7:36)

Begin with Chapter 12: Exporting Digital Models as STL Files (4:25)

Begin Chapter 13: Moving and Reorienting Digital Models, Clay Modeling Fundamentals, and Creating Printing Removal Notches (12:30)

Begin with Chapter 14: Basics of Using Boolean Procedures – Meshmixer (16:53)

Begin Chapter 15: Creatively Using Primitives and Parametric Shapes (30:34)

Begin with Chapter 16: 3D Printers: Design and Material Options (29:34)

Begin with Chapter 17: Configuring the 3D Printer and Installing Resin Cartridges and Tanks (6:45)

Begin with Chapter 18: Plugging in, Turning on, and Basic Printer Operation (3:01)

Begin with Chapter 19: Changing Resin Tanks/Cartridges and Preparing for 3D Printing (7:14)

Begin with Chapter 20: Using 3D Printer Software, Moving Models, and Adding Supports (13:53)

Begin with Chapter 21: Printing Dental Models Using Preform Software (0:37)

Begin Chapter 22: Vertically Reorienting and Printing Dental Models (9:03)

Begin by reading Chapter 23: Preparing the SprintRay Printer for Printing (6:45)

Begin by reading Chapter 24: Using Rayware Software and Printing Models on the SprintRay Pro (7:41)

Begin with Chapter 25: Configuring the 3D Systems Nextdent 5100 3D Printer (15:56)

Begin with Chapter 26: Using 3D Sprint Software (26:40)

Begin Chapter 27: Model Printing on the Nextdent 5100 3D Printer (4:59)

Begin with Chapter 28: The Role of Post-Processing, UV Curing, and Establishing a Wash Station (45:50)

Begin Chapter 29: Configuring the Formlabs Finishing Station (3:02)

Begin Chapter 30: Completing Dental Models (Classic Approach) (4:03)

Begin with Chapter 31′: Using Flush Cutters to Remove Dental Models From the Build Platform (1:52)

Begin Chapter 32: FormWash Configuration (16:55)

Begin Chapter 33: Finishing Dental Models – A Modern Approach (16:01)

Begin Chapter 34: Finishing Printed Models Using the SprintRay Pro (8:42)

Begin with Chapter 35: Cleaning and Maintaining Your SprintRay Pro 3D Printer (7:32)

Begin Chapter 36: Finishing Printed Models On the Nextdent 5100 3D Printer (17:33)

Begin with Chapter 37: Cleaning and Maintaining Your SprintRay Pro 3D Printer (12:16)

Section II Section III – 3D Printing and Computer Aided Design (CAD) for Restorative Dentistry

Introduction to 3D Printing for Restorative Dentistry (Chapter 1) (14:39)

Begin with Chapter 2: Digital Restorative Fundamentals: Creating Virtual Bleaching Recesses and Exporting STLs to Print Bleaching Trays (5:10)

Begin Chapter 3: Importing Bleaching Tray Models into 3D Printer Software and Printing Preparation (1:38)

Begin printing Bleaching Tray Models in Chapter 4. (0:42)

Begin Chapter 5: Finishing and UV Curing 3D Printed Models (2:54)

Begin by reading Chapter 6: Vacuum Forming Bleaching Trays on 3D Printed Models (7:31)

Begin Chapter 7: Clinical Applications of 3D-Printed Bleach Trays (2:43)

Begin Chapter 8: Modifying and Virtually Extracting Teeth using Meshmixer (10:21)

Begin with Chapter 9: Creating a Virtual Teeth Library in Meshmixer (5:04)

Begin Chapter 10: Scan Denture Teeth with a 3M TrueDefinition Scanner for a Custom Virtual Tooth Library (5:44)

Begin Chapter 11: Scan Denture Teeth with the 3Shape TRIOS Scanner (12:00)

Begin Chapter 12: Intraoral Scans of Denture Teeth and Creating a Custom Library (6:39)

Begin Chapter 13: Using Meshmixer to Create an Essix® Type Temporary Retainer for Extraction and Implant Surgery (19:16)

Begin by reading Chapter 14: Importing Temporary Retainer Models into 3D Printer Software and Printing Models (1:41)

Begin by reading Chapter 15: Printing Temporary Retainer Models (0:39)

Begin Chapter 16: Finishing and UV Curing 3D Printed Temporary Retainer Models (2:22)

Begin by reading Chapter 17: Vacuum Forming Temporary Retainers on 3D Printed Models (1:57)

Begin with Chapter 18: Completing the Temporary Retainer – Composite Resin and 3D Printed Models (15:10)

Begin with Chapter 19: Clinical Applications of 3D-Printed Temporary Retainers (1:36)

Begin with Chapter 20: Fundamental Digital Waxing Technique – Meshmixer for Esthetic Dentistry (22:22)

Begin by reading Chapter 21: Advanced Digital Waxing Technique – Meshmixer for Crown and Bridge Dentistry (23:24)

Begin by reading Chapter 22: Importing a Digital Waxup Model into 3D Printing Software (1:37)

Begin Chapter 23: Advanced Digital Waxup Model Printing (2:21)

Begin Chapter 24: Advanced Digital Waxup Model Finishing and UV Curing (2:21)

Begin by reading Chapter 25: Vacuum Forming Temporary Matrix for Crown and Bridge Dentistry (1:25)

Start
Chapter 26: Clinical Examples of 3D Printed Advanced Digital Waxing – Crown & Bridge (6:55)

Start
Chapter 27: UNLV CE Credit Assessment – Section III
Section IV – Working – CBCT Scanners and 3D Printing for Medical and Dental Modeling

Start
Chapter 1: Understanding Radiographic Options for Dental Applications (13:57)

Start
Chapter 2: Using a CBCT Scanner: Positioning, Voxel Sizes, Field of View (21:26)

Start
Chapter 3: The Role of Soft Tissue Isolation in CBCT Imaging (3:20)

Start
Chapter 4: Preparing a Patient for a CBCT Scan (3:32)

Start
Chapter 5: Making a CBCT Scan: Patient Demonstration (4:12)

Start
Chapter 6: Processing DICOM Files (1:07)

Start
Chapter 7: Converting DICOM into STL: Software Options (5:27)

Start
Chapter 8: Downloading and Installing Invesalius (1:35)

Start
Chapter 9: Downloading and Installing Blue Sky Plan (1:56)

Start
Chapter 10: Using Invesalius to Convert DICOM to STL (9:19)

Start
Chapter 11: Using Blue Sky Plan to Convert DICOM to STL (6:42)

Start
Chapter 12: Using CBCT Acquisition Software to Convert DICOM to STL (0:41)

Start
Chapter 13: Using Meshmixer to Clean Up the Medical Model for Printing; Exporting the STL (5:24)

Start
Chapter 14: Importing the Medical Model into 3D printer Software and Preparing for Printing (8:38)

Start
Chapter 15: Printing the Medical Model (0:50)

Start
Chapter 16: Removing the Medical Model from the Printer and Finishing & Polishing (6:10)

Start
Chapter 17: Scanning Dental Models – a CBCT Scanner and Converting to STL (10:36)

Start
Chapter 18: Scanning Denture Teeth – a CBCT Scanner and Converting to STL (1:22)

Start
Chapter 19: A Little Fun: CBCT Scanning and 3D Printing Toys & Mechanical Parts (10:05)

Start
Chapter 20: UNLV CE Credit Assessment – Section IV
Section V – 3D Printing and Computer Aided Design (CAD) Software for Implant Dentistry & Guided Surgery

Start
Chapter 1: Introduction to Digital Implant Dentistry (20:37)

Start
Chapter 2: Fundamentals of Guided Surgery: Background, Terminology, and Techniques (55:19)

Start
Chapter 3: Blue Sky Plan Basics: Importing DICOMS & Essential Planning Technique (34:40)

Start
Chapter 4: Intraoral Optical Scanning for Fabricating STL Files for Implant Surgical Planning (7:47)

Start
Chapter 5: Importing the Optical Scan STL, Fusing on CBCT Scan (10:43)

Start
Chapter 6: Advanced Methods of Model Registration: Matching Teeth, Point by Point, Manual Manipulation (15:27)

Start
Chapter 7: Universal Guide Tube Design: Understanding Trajectory, Guide Tube Offset, and How to Work – a Universal Drill and Tube (11:45)

Start
Chapter 8: Model-Based Indirectly Fabricated Surgical Guides: Designing a Pilot Surgical Guide (21:12)

Start
Chapter 9: Importing Indirect Surgical Guide into 3D Printer Software for Printing (6:53)

Start
Chapter 10: Printing Indirect Surgical Guide Models (1:36)

Start
Chapter 11: Removing and Finishing Surgical Guide Models (2:43)

Start
Chapter 12: Vacuum Matrix Fabrication and Surgical Guide Fabrication Techniques (16:57)

Start
Chapter 13: Clinical Case Examples of Indirect Surgical Guides (7:12)

Start
Chapter 14: Changing Resin Cartridges & Tanks (1:57)

Start
Chapter 15: Directly Designed & 3D Printed Surgical Guides – Designing Surgical Guides – Pilot Guide – Blue Sky Bio Drills (41:42)

Start
Chapter 16: Import Surgical Guide into 3D Printer Software, Adding Supports and Preparing for Printing (10:37)

Start
Chapter 17: Printing the Directly Fabricated Surgical Guide (1:46)

Start
Chapter 18: Finishing the Directly Printed Pilot Surgical Guide: Alcohol Rinse and Ultrasonic Cleaning (2:39)

Start
Chapter 19: Finishing the Directly Printed Pilot Surgical Guide: Placing the Guide Tube & UV Curing (6:22)

Start
Chapter 20: Finishing the Directly Printed Pilot Surgical Guide: Removing Supports & Polishing (10:01)

Start
Chapter 21: Finishing the Directly Printed Pilot Surgical Guide: Autoclaving / Sterilizing the Guide (3:40)

Start
Chapter 22: Clinical Demonstration: Guided Surgery Using a 3D Printed Pilot Surgical Guide (4:16)

Start
Chapter 23: Clinical Demonstration: Post-Implant Placement Intraoral Scan for Final Restoration (7:10)

Start
Chapter 24: Digitally Designed & 3D Printed Direct Surgical Guides: Full Template Assistance Guides (39:29)

Start
Chapter 25: Importing Full Template Assistance Surgical Guide STL File into 3D Printer Software (6:51)

Start
Chapter 26: Printing the Full Template Assistance Surgical Guide (1:37)

Start
Chapter 27: Finishing the Directly Printed Full Template Assistance Surgical Guide: Alcohol Rinse and Ultrasonic Cleaning (2:16)

Start
Chapter 28: Finishing the Directly Printed Full Template Assistance Surgical Guide: Placing the Guide Tube & UV Curing (5:26)

Start
Chapter 29: Finishing the Directly Printed Full Template Assistance Surgical Guide: Removing Supports & Polishing (12:56)

Start
Chapter 30: Finishing the Directly Printed Full Template Assistance Surgical Guide: Autoclaving / Sterilizing the Guide (4:18)

Start
Chapter 31: Clinical Demonstration: Guided Surgery Using a 3D Printed Full Template Assisted Surgical Guide (6:07)

Start
Chapter 32: Digitally Designed & 3D Printed Direct Keyless Surgical Guides: Full Template Assistance Guides -out Metal Sleeves (20:55)

Start
Chapter 33: Extracting a Single Tooth – CAD Software for Immediate Single Implants (6:37)

Start
Chapter 34: Finalizing Digitally Designed & 3D Printed Direct Keyless Surgical Guide (10:55)

Start
Chapter 35: Using CAD Software to Prepare a Surgical Guide for Support-Free Printing (6:38)

Start
Chapter 36: Importing Full Template Assistance Keyless Surgical Guide STL File into 3D Printer Software & Printing (4:44)

Start
Chapter 37: Finishing the Directly Printed Full Template Assistance Sleeveless Surgical Guide: Alcohol Rinse and UV Curing (3:14)

Start
Chapter 38: Finishing the Directly Printed Full Template Assistance Sleeveless Surgical Guide: Polishing, Disinfecting, and Reviewing Keyless Surgical Technique (6:13)

Start
Chapter 39: Clinical Demonstration: Guided Surgery Using a 3D Printed Full Template Assisted Sleeveless Surgical Guide (8:04)

Start
Chapter 40: Review & Summary of Surgical Guide Designs (1:44)

Start
Chapter 41: UNLV CE Credit Assessment – Section V
Section VI – Advanced Full-Arch Implantology & Surgical Guide Concepts

Start
Chapter 1: Introduction to Full-Arch Implantology & Surgical Guide Design: Part 1 (26:34)

Start
Chapter 2: Technique Demonstration: Traditional Radiographic Guide Fabrication (44:04)

Start
Chapter 3: Introduction to Full-Arch Implantology & Surgical Guide Design: Part 2 (14:29)

Start
Chapter 4: Partially-Edentulous Full-Arch Guides: Importing Full-Arch Case into Implant Planning Software & Implant Planning (20:23)

Start
Chapter 5: Scanning Master Cast Model – 3M TrueDefinition Scanner (6:07)

Start
Chapter 6: Using Scanned Model “Crown-Down” Restorative Technique to Finalize Implant Planning Software Case (19:06)

Start
Chapter 7: Extracting Multiple Teeth – CAD Software and Creating a Model (19:26)

Start
Chapter 8: Merging Extracted Tooth Model into Implant Planning Software (7:07)

Start
Chapter 9: Working – Guide Fixation Pins (11:23)

Start
Chapter 10: Planning Full-Arch Pilot Guide: Guide Fixation Pins & Finalizing Design (49:39)

Start
Chapter 11: Importing Partially-Edentulous Full-Arch Surgical Guide into 3D Printer Softwar

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