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Library of Orthodontic appliances. Module 2: digital protocols
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Stefano Negrini
Dettagli del corso
Lezioni del corso
Lezioni del corso
Lettori
ADA CERP
Dettagli
9 lezioni
6.75 CE Credits
Inglese
Descrizione
Online library of digital protocols for manufacturing the most popular orthodontic appliances: all in one place!
Training model: "tell-show-do". Detailed video protocols for manufacturing of appliances are waiting for you, which you can return to at any time:
– RME appliances
– TwinBlock
– Herbst appliances
– Beneslider by direct and indirect methods
– Bone Borne RME by direct and indirect methods
– Mesialslider by direct and indirect methods.
Lezione 1.RME appliances: manufacturing methods in a digital protocol
– Receive and prepare scans with model bases
– Clean models preparing for design (if necessary)
– Design custom bands and arms
– Select and add different screws
– Finish the design and prepare for manufacturing.
Recommended for: Orthodontists, Dental technicians.
Time: 1 h 15 min
Lezione 2.TwinBlock: manufacturing methods in a digital protocol
– Receive and prepare scans with model bases
– Clean models preparing for design (if necessary)
– Design base for TwinBlock
– Select and add bite block for TwinBlock
– Finish the design and prepare for manufacturing.
Recommended for: Orthodontists, Dental technicians.
Time: 1 h 15 min
Lezione 3.Herbst appliances: manufacturing methods in a digital protocol
– Receive and prepare scans with model bases
– Clean models preparing for design (if necessary)
– Design custom bands for Herbst (different options)
– Select and add different screws and attachments for Herbst arms
– Finish the design and prepare for manufacturing.
Recommended for: Orthodontists, Dental technicians.
Time: 1 h 15 min
Lezione 4.Beneslider: direct manufacturing method in a digital protocol
– Receive and prepare scans with model bases
– Clean models preparing for design (if necessary)
– Combine STL files and CBCT files
– Planning TADs positions and designing the insertion guide
– Design full Beneslider in 3D
– Finish the design and prepare for manufacturing.
Recommended for: Orthodontists, Dental technicians.
Time: 35 min
Lezione 5.Beneslider: indirect manufacturing method in a digital protocol
– Receive and prepare scans with model bases
– Clean models preparing for design (if necessary)
– Combine STL files and CBCT files
– Planning TADs positions and designing the insertion guide
– The Doctor inserts in place TADs and takes a scan with ScanBody
– Prepare STL files and combine them with scanbody
– Design full Beneslider in 3D
– Finish the design and prepare for manufacturing.
Recommended for: Orthodontists, Dental technicians.
Time: 35 min
Lezione 6.Mesiaslider: direct manufacturing method in a digital protocol
– Receive and prepare scans with model bases
– Clean models preparing for design (if necessary)
– Combine STL files and CBCT files
– Planning TADs positions and designing the insertion guide
– Design full Mesialslider in 3D
– Finish the design and prepare for manufacturing.
Recommended for: Orthodontists, Dental technicians.
Time: 35 min
Lezione 7.Mesiaslider: indirect manufacturing method in a digital protocol
– Receive and prepare scans with model bases
– Clean models preparing for design (if necessary)
– Combine STL files and CBCT files
– Planning TADs positions and designing the insertion guide
– The Doctor inserts in place TADs and takes a scan with scanbody
– Prepare STL files and combine them with scanbody
– Design full Mesialslider in 3D
– Finish the design and prepare for manufacturing.
Recommended for: Orthodontists, Dental technicians.
Time: 35 min
Lezione 8.Bone Borne RME: direct manufacturing method in a digital protocol
– Receive and prepare scans with model bases
– Clean models preparing for design (if necessary)
– Combine STL files and CBCT files
– Planning TADs positions and designing the insertion guide
– Design full Bone Borne RME in 3D
– Finish the design and prepare for manufacturing.
Recommended for: Orthodontists, Dental technicians.
Time: 35 min
Lezione 9.Bone Borne RME: indirect manufacturing method in a digital protocol
– Receive and prepare scans with model bases
– Clean models preparing for design (if necessary)
– Combine STL files and CBCT files
– Planning TADs positions and designing the insertion guide
– The doctor inserts in place TADs and takes a scan with scanbody
– Prepare STL files and combine them scanbody
– Design full Bone Borne RME in 3D
– Finish the design and prepare for manufacturing.
Recommended for: Orthodontists, Dental technicians.
Time: 35 min
Il corso include le seguenti lezioni:
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Orthodontics
Treatment methods
General questions
Functional Dentistry
Treatment methods
Lettori 1
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Certified Dental Technician specializing in digital orthodontics, CAD/CAM orthodontic appliances, indirect bonding solutions, and clear aligner technology. CEO and Founder of Ortodonzia Estense Ltd in Ferrara, Italy, an orthodontic dental laboratory, education center, and product development company focused on innovative digital orthodontic technologies.
Over 30 years of experience in orthodontic laboratory techniques with transition from traditional analog methods to comprehensive digital workflows. Pioneer in digital orthodontics in Italy, developing systematic protocols for 3D-printed and milled orthodontic appliances including functional appliances (Herbst, Fränkel, Twin Block), retainers, indirect bonding trays, and clear aligner systems. Expert in digital design software and decision-making between milling versus 3D printing for different appliance types.
Chairman of ORTEC (Association of Italian Orthodontic Technicians, 2015-2016). Recipient of the Aldridge Medal Award from the OTA Orthodontic Technicians Association, United Kingdom (2018), recognizing outstanding contributions to orthodontic technology. Key Opinion Leader (KOL) for 3Shape since 2009. International lecturer and educator presenting throughout Europe, Asia, and Americas on digital orthodontic workflows, appliance design, and laboratory-clinician collaboration. Author of multiple articles in orthodontic technology journals on digital solutions and innovative appliance fabrication.
Certified Dental Technician. Master's degree in Orthodontic Laboratory Techniques (SDT - Specialista in Dispositivi di Tecnica Ortodontica) from University of L'Aquila, Italy (2011-2012). Master's degree in Digital Dental Solutions from Marconi University, Rome, Italy (2015-2016). Founder of Ortodonzia Estense in 1992, initially specializing in fixed, removable, functional, and orthopedic appliances before transitioning to digital-focused practice.
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