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   1. < dc:title lang =" en-US " > Contribution of Digital Technology to the Surgical Technique of Miniscrew Insertion: A Literature Review </ dc:title >

   2. < dc:creator > El Honsali, Yasmina </ dc:creator >

   3. < dc:creator > Ben Mohimd, Hajar </ dc:creator >

   4. < dc:creator > Zaoui, Fatima </ dc:creator >

   5. < dc:creator > Benyahia, Hicham </ dc:creator >

   6. < dc:subject lang =" en-US " > Workflow </ dc:subject >

   7. < dc:subject lang =" en-US " > Orthodontics </ dc:subject >

   8. < dc:subject lang =" en-US " > Orthodontic Anchorage Procedures </ dc:subject >

   9. < dc:subject lang =" en-US " > Cone-Beam Computed Tomography </ dc:subject >

   10. < dc:subject lang =" pt-BR " > Fluxo de Trabalho </ dc:subject >

   11. < dc:subject lang =" pt-BR " > Ortodontia </ dc:subject >

   12. < dc:subject lang =" pt-BR " > Procedimentos de Ancoragem Ortodôntica </ dc:subject >

   13. < dc:subject lang =" pt-BR " > Tomografia Computadorizada de Feixe Cônico </ dc:subject >

   14. < dc:description lang =" en-US " > Orthodontic miniscrews are used to achieve absolute anchorage. Their insertion technique is simple but must be precise to avoid intra- and postoperative complications. This study aimed to review the literature on the role of digital technology in the precise placement of miniscrews and to describe the different stages of the insertion guide manufacturing chain. The databases used were PubMed, Science Direct, and Google Scholar, including the following English descriptors: “Orthodontic Anchorage Procedures,” “Cone Beam Computed Tomography.” Digital technology improves the accuracy of miniscrew placement by using 3D imaging to assess the quantity and quality of bone and the proximity of anatomical structures in the area to be implanted. By combining 3D imaging with the new techniques of 3D printing and virtual planning, the orthodontist can obtain a personalized placement guide for the patient using computer-aided design and manufacturing techniques. A digitally-assisted miniscrew insertion system is a promising technique for precise and safe miniscrew insertion but cannot be used routinely. Therefore, large-scale studies are needed to map miniscrew insertion in different areas, considering ethnicity, gender, and different anatomical characteristics. </ dc:description >

   15. < dc:description lang =" pt-BR " > Mini-implantes ortodônticos são usados ​​para obter uma ancoragem segura. Sua técnica de inserção é simples, mas deve ser precisa para evitar complicações intra e pós-operatórias. Este estudo teve como objetivo revisar a literatura sobre o papel da tecnologia digital na colocação precisa de mini-implantes e descrever as diferentes etapas da cadeia de fabricação do guia de inserção. As bases de dados utilizadas foram PubMed, Science Direct e Google Scholar, incluindo os seguintes descritores em inglês: “Orthodontic Anchorage Procedures”, “Cone Beam Computed Tomography”. A tecnologia digital melhora a precisão da colocação dos mini-implantes usando imagens 3D para avaliar a quantidade e qualidade do osso e a proximidade das estruturas anatômicas na área a ser implantada. Ao combinar imagens 3D com as novas técnicas de impressão 3D e planejamento virtual, o ortodontista pode obter um guia de posicionamento personalizado para o paciente usando técnicas de design e fabricação auxiliadas por computador. Um sistema de inserção de mini-implantes assistido digitalmente é uma técnica promissora, mas não pode ser usado rotineiramente. Portanto, são necessários estudos em larga escala para mapear a inserção dos mini-implantes em diferentes áreas, considerando etnia, gênero e diferentes características anatômicas. </ dc:description >

   16. < dc:publisher lang =" pt-BR " > MARINHA DO BRASIL (BRAZILIAN NAVY) - Odontoclínica Central da Marinha (Naval Dental Center- OCM) </ dc:publisher >

   17. < dc:date > 2023-10-19 </ dc:date >

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   21. < dc:identifier > https://www.portaldeperiodicos.marinha.mil.br/index.php/odontoclinica/article/view/5013 </ dc:identifier >

   22. < dc:identifier > 10.22491/25149.50-2-4 </ dc:identifier >

   23. < dc:source lang =" en-US " > Naval Dental Jounal; Vol 50 No 2 (2023): Naval Dental Journal; 31-38 </ dc:source >

   24. < dc:source lang =" pt-BR " > Revista Naval de Odontologia; v. 50 n. 2 (2023): Revista Naval de Odontologia; 31-38 </ dc:source >

   25. < dc:source > 1983-7550 </ dc:source >

   26. < dc:source > 0102-7506 </ dc:source >

   27. < dc:language > eng </ dc:language >

   28. < dc:relation > https://www.portaldeperiodicos.marinha.mil.br/index.php/odontoclinica/article/view/5013/4883 </ dc:relation >

   29. < dc:rights lang =" pt-BR " > Copyright (c) 2023 Revista Naval de Odontologia </ dc:rights >

   30. < dc:rights lang =" pt-BR " > https://creativecommons.org/licenses/by-nc-nd/4.0 </ dc:rights >

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   20. < abstract > Mini-implantes ortodônticos são usados ​​para obter uma ancoragem segura. Sua técnica de inserção é simples, mas deve ser precisa para evitar complicações intra e pós-operatórias. Este estudo teve como objetivo revisar a literatura sobre o papel da tecnologia digital na colocação precisa de mini-implantes e descrever as diferentes etapas da cadeia de fabricação do guia de inserção. As bases de dados utilizadas foram PubMed, Science Direct e Google Scholar, incluindo os seguintes descritores em inglês: “Orthodontic Anchorage Procedures”, “Cone Beam Computed Tomography”. A tecnologia digital melhora a precisão da colocação dos mini-implantes usando imagens 3D para avaliar a quantidade e qualidade do osso e a proximidade das estruturas anatômicas na área a ser implantada. Ao combinar imagens 3D com as novas técnicas de impressão 3D e planejamento virtual, o ortodontista pode obter um guia de posicionamento personalizado para o paciente usando técnicas de design e fabricação auxiliadas por computador. Um sistema de inserção de mini-implantes assistido digitalmente é uma técnica promissora, mas não pode ser usado rotineiramente. Portanto, são necessários estudos em larga escala para mapear a inserção dos mini-implantes em diferentes áreas, considerando etnia, gênero e diferentes características anatômicas. </ abstract >

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