/education-service/media/default/41024/7c6a78e8.jpg)
Library of Orthodontic appliances. Module 2: digital protocols
/education-service/media/default/25701/975a0cb1.jpg)
Stefano Negrini
Детали курса
Уроки курса
Уроки курса
Лекторы
ADA CERP
Детали
9 уроков
6.75 CE Credits
Английский
Описание
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.
Урок 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
Урок 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
Урок 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
Урок 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
Урок 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
Урок 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
Урок 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
Урок 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
Урок 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
Курс включает в себя уроки:
/education-service/media/default/43811/c5ec4e59.jpg)
/education-service/media/default/43812/d0d5c5a9.jpg)
/education-service/media/default/43813/7bd8382b.jpg)
/education-service/media/default/43814/ed4d9a60.jpg)
Ортодонтия
Методы лечения
Общие вопросы
Функциональная стоматология
Методы лечения
Лекторы 1
/education-service/media/default/25701/975a0cb1.jpg)
Сертифицированный зубной техник, специализирующийся на цифровой ортодонтии, ортодонтических аппаратах CAD/CAM, решениях непрямого бондинга и технологии прозрачных элайнеров. CEO и основатель Ortodonzia Estense Ltd в Ферраре, Италия, ортодонтической зуботехнической лаборатории, образовательного центра и компании по разработке продуктов, сосредоточенной на инновационных цифровых ортодонтических технологиях.
Более 30 лет опыта в ортодонтических лабораторных техниках с переходом от традиционных аналоговых методов к комплексным цифровым рабочим процессам. Пионер цифровой ортодонтии в Италии, разрабатывающий систематические протоколы для 3D-печатных и фрезерованных ортодонтических аппаратов, включая функциональные аппараты (Herbst, Fränkel, Twin Block), ретейнеры, лотки для непрямого бондинга и системы прозрачных элайнеров. Эксперт в программном обеспечении цифрового дизайна и принятии решений между фрезерованием и 3D-печатью для различных типов аппаратов.
Председатель ORTEC (Ассоциация итальянских ортодонтических техников, 2015-2016). Обладатель Aldridge Medal Award от OTA Orthodontic Technicians Association, Великобритания (2018), признающей выдающиеся вклады в ортодонтическую технологию. Key Opinion Leader (KOL) для 3Shape с 2009. Международный лектор и преподаватель, представляющий доклады в Европе, Азии и Америке о цифровых ортодонтических рабочих процессах, дизайне аппаратов и сотрудничестве лаборатории и клинициста. Автор множественных статей в журналах ортодонтической технологии о цифровых решениях и инновационном изготовлении аппаратов.
Сертифицированный зубной техник. Степень магистра по ортодонтическим лабораторным техникам (SDT - Specialista in Dispositivi di Tecnica Ortodontica) University of L'Aquila, Италия (2011-2012). Степень магистра по Digital Dental Solutions Marconi University, Рим, Италия (2015-2016). Основатель Ortodonzia Estense в 1992, изначально специализирующийся на несъемных, съемных, функциональных и ортопедических аппаратах перед переходом к практике, ориентированной на цифровые технологии.
Организатор
OHI-S
4.71 (25178 оценок)
OHI-S is the world's leading educational platform for dentists worldwide!
Our core product is training led by the top global speakers in all branches of dentistry. On our platform, you will find courses covering every dental specialty. We offer a comprehensive range of educational formats: congresses, seminars, hands-on workshops, and online courses.
We provide education in 7 languages: English, Spanish, Portuguese, German, French, Ukrainian, Russian.
Our offline projects take place in the most picturesque locations around the world: Kyoto, Florence, Rome, Bologna, Vienna, Berlin, and Prague. Our clients always have a unique opportunity to combine acquiring valuable knowledge with experiencing rich cultural environments.
OHI-S is not just a platform, it’s an entire ecosystem for professionals. Our mobile application, marketplace, and specialized social network connect dentists from all corners of the globe, creating a powerful community for knowledge exchange and collective growth.