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Digital orthodontics 2021
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Giorgio Fiorelli
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Nearchos Panayi
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Stefano Negrini
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Simon Graf
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Daniel Souza Pinto Ramos
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Emanuele Paoletto
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Asta Abuneviciute
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Александр Плаксин
Detalhes do curso
Aulas do curso
Aulas do curso
Palestrante
Comentarios
Detalhes
11 aulas (16h 46m)
inglês
Descrição
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Aula 1.3D metal printed Orthodontic appliances
– Step by step the virtual planing, printing and сlinical insertion of a 3D metal printed rapid-palatal expansion device;
– Ideas and possibilities from 3D printed appliance in regards of variability and different aspects for clinical use.
Aula 2.3D metal printed orthodontic appliances + TADs
– How to join 3D metal printed appliances with Mini-Implants and TADs;
– Different types of distalising and mesialising devices on TADs;
– CAD/CAM planned, designed and produced bonded retention wires.
Aula 3.Impact of a 3D technologies in palatal skeletal anchorage: MAPA APPROACH
– New possibilities for miniscrews application; – MAPA Approach to integrate skeletal anchorage in daily orthodontic treatment; – 3D analysis: digital planning for miniscrew insertion appliance design; – Digital workflow with LMF and DLP technology; – Skeletal devices for class II and III and hybrid expanders; – ONE VISIT” protocol : miniscrews insertion and appliance delivery in one appointment; – TSE: New efficient expander device for Adult Palatal Expansion.
Aula 4.Why facially driven digital interdisciplinary treatment planning?
– Introduction to the Digital Smile Design concept;
– Increasing Ortho acceptance in the Interdisciplinary workflow;
– Design-plan-present-promote-control: the full digital workflow demonstration through clinical cases;
– Emotional Presentation: the power of the Storytelling and visual communication.
Aula 5.Why facially driven digital orthodontics with aligners?
– Increasing your Ortho case acceptance by understanding your patient needs;
– Fully incorporate your ortho to the facially driven digital workflow;
– Aligners becoming the Plan A to my patients;
– The benefits of incorporating acceleration in your Orthodontic Treatments;
– Clinical cases: from simple to complex.
Aula 6.Digital imaging and biological limits in orthodontics
– How to get the necessary information from CBCT?
– Evaluation of symmetry in 3D space;
– Measurement of the maxilla skeletal width;
– Limits of teeth movement and periodontal assessment;
– Features of the TMJ visualization;
– What programs will help orthodontist get the necessary reformats?
– The main functions and features of Invivo Anatomge, Horos Viewer, Diagnocat.
Aula 7.Digital orthodontic office
– The basic principles of 3D intraoral scanning; – The basic principles of 3D manufacturing (3D printing and milling); – How to organize a digital orthodontic office; – The various kinds of Orthodontic and non-Orthodontic CAD software; – How to design in-house Orthodontic aligners; – The basic principles of the innovative technique of direct aligner printing performed in-office using CAD software and 3D printer; – How to 3D design and print customized Orthodontic appliances using a CAD free software; – The workflow and basic tools of a new Orthodontic CAD software for in-office 3D designing and printing of Customized lingual and labial orthodontic brackets; – The digital future of Orthodontics (new software, printers, artificial intelligence etc).
Aula 8.Fix & removable appliances: milling vs printing
– 2d vs 3d; – Fix appliances removable appliances; – Materials; – S.L.M. milling and printing system; – Software overview.
Aula 9.The Occlusogram - software for the implementation of orthodontic biomechanics (with Asta Abuneviciute)
– Determination of dental arch shape length and width and estimation of space conditions; – Analysis and determination of symmetry; – Determination of tooth movements in all three planes of space; – Estimation of anchorage requirements; – Estimation of necessary force systems; – How to plan a cases where movement of the mandible is required or predicted; – How to transfer a mandible into a new position in the software; – Visualization of several treatment plan options; – Treatment plan mechanics; – The hard parts and obstacles in the treatment plan before the start.
Aula 10.The Occlusogram - software for the implementation of orthodontic biomechanics (with Giorgio Fiorelli)
– Determination of dental arch shape length and width and estimation of space conditions;
– Analysis and determination of symmetry;
– Determination of tooth movements in all three planes of space;
– Estimation of anchorage requirements;
– Estimation of necessary force systems;
– How to plan a cases where movement of the mandible is required or predicted;
– How to transfer a mandible into a new position in the software;
– Visualization of several treatment plan options;
– Treatment plan mechanics;
– The hard parts and obstacles in the treatment plan before the start.
Aula 11.Digital design of Herbst, Frankel, TwinBlock, retainers
– Digital Design Of The Appliances; – Fix. Rme - Herbst - Retainer - Carriere; – Removable. Twin Block - Splint - Cervera - Frankel; – Tip Trics.
O curso inclui aulas:
conferências 8
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Creator of the software T3do and DMA for Orthodontic treatment planning and mechanics design.
Dr. Fiorelli obtained his medical, dental, and orthodontic postgraduate degrees at the University of Siena in Italy.
He has also co-published with Prof. Birte Melsen the “Biomechanics in Orthodontics” multimedia software.
His main professional interests are orthodontic biomechanics, use of computers within the orthodontic practice, segmented arch technique and adult orthodontic treatment.
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Ortodontista Especialista. Fundador e Diretor do Dr. Nearchos Panayi Orthodontic Center, Limassol, Chipre. Assistant Professor de Ortodontia na European University Cyprus (EUC), Zurique. Especialista líder em ortodontia digital e design de aparelhos ortodônticos baseado em CAD.
Mais de 24 anos de experiência clínica desde graduação em escola dental em 2002. Especialista em gestão de consultório ortodôntico digital, princípios e aplicações de escaneamento intraoral 3D, tecnologias de impressão 3D e fresagem para ortodontia, impressão de alinhadores em consultório usando software CAD e impressoras 3D, design digital e impressão de aparelhos ortodônticos personalizados, sistemas de braquetes linguais e labiais autoligáveis projetados com software CAD, e fluxos de trabalho ortodônticos digitais abrangentes. Pioneiro na implementação de prática ortodôntica totalmente digital eliminando materiais de moldagem tradicionais e dependências de laboratório. Conhecido por abordagens inovadoras integrando tecnologia com ortodontia clínica.
Palestrante internacional apresentando extensivamente por toda Europa e mundialmente sobre tópicos incluindo configuração e gestão de consultório ortodôntico digital, princípios de escaneamento intraoral 3D para ortodontia, princípios de impressão 3D e aplicações de fresagem em ortodontia, técnicas inovadoras de impressão de alinhadores em consultório, software CAD gratuito para design 3D de aparelhos ortodônticos personalizados, fluxo de trabalho e ferramentas para novo software CAD ortodôntico para projetar e imprimir braquetes linguais e labiais autoligáveis personalizados, e futuro da ortodontia digital incluindo novo software, impressoras, aplicações de inteligência artificial, e tecnologias emergentes. Educador enfatizando implementação prática de tecnologias digitais para melhorar eficiência, precisão, e experiência do paciente. Instrutor ensinando ortodontistas mundialmente como aproveitar ferramentas digitais para resultados de tratamento superiores e eficiência de prática.
DDS pela University of Athens, Grécia (2002). DOrth, MOrth (Master of Orthodontics) pela Tel-Aviv University, Israel. Nomeação de Assistant Professor na European University Cyprus e ensino no campus de Zurique.
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Técnico Dental Certificado especializando-se em ortodontia digital, aparelhos ortodônticos CAD/CAM, soluções de colagem indireta e tecnologia de alinhadores transparentes. CEO e Fundador da Ortodonzia Estense Ltd em Ferrara, Itália, um laboratório dental ortodôntico, centro educacional e empresa de desenvolvimento de produtos focada em tecnologias ortodônticas digitais inovadoras.
Mais de 30 anos de experiência em técnicas de laboratório ortodôntico com transição de métodos analógicos tradicionais para fluxos de trabalho digitais abrangentes. Pioneiro em ortodontia digital na Itália, desenvolvendo protocolos sistemáticos para aparelhos ortodônticos impressos em 3D e fresados incluindo aparelhos funcionais (Herbst, Fränkel, Twin Block), contenções, bandejas de colagem indireta e sistemas de alinhadores transparentes. Especialista em software de design digital e tomada de decisões entre fresagem versus impressão 3D para diferentes tipos de aparelhos.
Chairman da ORTEC (Association of Italian Orthodontic Technicians, 2015-2016). Receptor do Aldridge Medal Award da OTA Orthodontic Technicians Association, Reino Unido (2018), reconhecendo contribuições excepcionais à tecnologia ortodôntica. Key Opinion Leader (KOL) para 3Shape desde 2009. Palestrante internacional e educador apresentando na Europa, Ásia e Américas sobre fluxos de trabalho ortodônticos digitais, design de aparelhos e colaboração laboratório-clínico. Autor de múltiplos artigos em revistas de tecnologia ortodôntica sobre soluções digitais e fabricação inovadora de aparelhos.
Técnico Dental Certificado. Master's degree em Ortodontic Laboratory Techniques (SDT - Specialista in Dispositivi di Tecnica Ortodontica) pela University of L'Aquila, Itália (2011-2012). Master's degree em Digital Dental Solutions pela Marconi University, Roma, Itália (2015-2016). Fundador da Ortodonzia Estense em 1992, inicialmente especializando-se em aparelhos fixos, removíveis, funcionais e ortopédicos antes de transicionar para prática focada em digital.
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