A new way of analyzing tooth movement using universal coordinate system geometry single point superposition in a 3D model

A new way of analyzing tooth movement using universal coordinate system geometry single point superposition in a 3D model

ABSTRACT Introduction: Superposing 3D models is an imminent need. However, current methods rely on marking multiple points on the maxilla and mandible, which could increase point marking and overlapping errors. Objective: This study aimed at developing a method for superimposing 3D models of the max...

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Published in:Dental press journal of orthodontics Vol. 28; no. 4; p. e232333
Main Authors: SOUZA, Rodrigo Xavier Silveira de, SOUZA, Gustavo Almeida Silveira de, COLARES, João Pacheco, IANNI, Tânia Mara de Souza, MAGALHÃES, Cláudia Silami de, GUERRERO-VARGAS, José Alejandro, MONTALVANY-ANTONUCCI, Carina Cristina, MACARI, Soraia
Format: Journal Article
Language:English
Published: Maringa Dental Press International 2023
Dental Press Editora
Subjects:
3-dimensional diagnosis and treatment planning
Accuracy
DENTISTRY, ORAL SURGERY & MEDICINE
Digital models
Jaw
Medical diagnosis
Original
Orthodontics
Reproducibility
Reproducibility of results
Software
Teeth
Three dimensional imaging
United States > US
Diagnóstico e plano de tratamento 3D
Reproducibility of results
Modelos digitais
Reprodutibilidade de resultados
3-dimensional diagnosis and treatment planning
Digital models
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Abstract ABSTRACT Introduction: Superposing 3D models is an imminent need. However, current methods rely on marking multiple points on the maxilla and mandible, which could increase point marking and overlapping errors. Objective: This study aimed at developing a method for superimposing 3D models of the maxillary and mandibular arches with Autodesk Inventor® engineering software, using a single universal coordinate system (UCS) point superposition. Methods: A total of 104 STL (stereolithography) models of the maxillary and mandibular arches exported from My iTero® platform were retrospectively selected, in which T0 and T1 were the initial and refinement periods, respectively (n=26 per group). The X, Y, and Z coordinates associated with a single point in each arch were inserted into the models with SlicerCMF® software for model orientation. The arch models with UCS registration were transferred to Autodesk Inventor® for superimposition and to measure tooth movements performed during Invisalign® treatment. Arch expansion, intrusion and rotation were analyzed by two examiners. The statistics were performed using intraclass correlation coefficients (ICC), Dahlberg’s formula, and t-test (p<0.05). Results: A reliable method of superimposing 3D digital models using a single UCS point in the maxilla and mandible was developed. ICC showed excellent intra- and inter-examiner correlation (ICC>0.90). A systematic error was not found concerning linear and angular measurements (<1mm and <1.5°, respectively). Digital dental movements could be analyzed, including arch expansion, dental intrusion, and tooth rotation. Conclusions: The developed method was proven reliable and reproducible for superimposing 3D models of the maxillary and mandibular arches by using UCS system. RESUMO Introdução: A sobreposição de modelos 3D é uma necessidade iminente. No entanto, os métodos atuais dependem da marcação de múltiplos pontos na maxila e na mandíbula, o que pode aumentar a incorporação de erros no processo de sobreposição. Objetivo: O objetivo desse estudo foi desenvolver um método para sobrepor modelos 3D das arcadas superior e inferior utilizando o software de engenharia Autodesk Inventor®, por meio da marcação de um único ponto em cada arcada, usando o sistema de coordenadas universal (UCS). Métodos: No total, 104 modelos STL das arcadas superior e inferior exportados da plataforma My iTero® foram selecionados retrospectivamente, onde T0 foi o período inicial e T1, o de refinamento (n=26 por grupo). As coordenadas X, Y e Z associadas a um único ponto em cada arcada foram inseridas nos modelos usando o software SlicerCMF®. Os modelos com os pontos UCS demarcados foram transferidos para o software Autodesk Inventor® para realizar a sobreposição e medir os movimentos dentários realizados durante o tratamento com Invisalign®. Os movimentos de expansão, intrusão e rotação foram analisados por dois examinadores. A análise estatística foi realizada usando os coeficientes de correlação intra-classe (ICC), fórmula de Dahlberg e teste t (p<0,05). Resultados: Foi desenvolvido um método confiável de sobreposição de modelos digitais 3D usando um único ponto UCS na maxila e mandíbula. O ICC apresentou excelente correlação intra e inter-avaliadores (ICC>0,90). Não foi encontrado erro sistemático nas medidas lineares e angulares (<1mm e <1,5°, respectivamente). Os movimentos dentários puderam ser analisados por meio do método proposto, incluindo expansão da arcada, intrusão e rotação dentária. Conclusão: O método desenvolvido provou ser confiável e reprodutível para sobreposição de modelos 3D das arcadas superior e inferior usando o sistema UCS com marcação de ponto único.
AbstractList INTRODUCTIONSuperposing 3D models is an imminent need. However, current methods rely on marking multiple points on the maxilla and mandible, which could increase point marking and overlapping errors. OBJECTIVEThis study aimed at developing a method for superimposing 3D models of the maxillary and mandibular arches with Autodesk Inventor® engineering software, using a single universal coordinate system (UCS) point superposition. METHODSA total of 104 STL (stereolithography) models of the maxillary and mandibular arches exported from My iTero® platform were retrospectively selected, in which T0 and T1 were the initial and refinement periods, respectively (n=26 per group). The X, Y, and Z coordinates associated with a single point in each arch were inserted into the models with SlicerCMF® software for model orientation. The arch models with UCS registration were transferred to Autodesk Inventor® for superimposition and to measure tooth movements performed during Invisalign® treatment. Arch expansion, intrusion and rotation were analyzed by two examiners. The statistics were performed using intraclass correlation coefficients (ICC), Dahlberg's formula, and t-test (p<0.05). RESULTSA reliable method of superimposing 3D digital models using a single UCS point in the maxilla and mandible was developed. ICC showed excellent intra- and inter-examiner correlation (ICC>0.90). A systematic error was not found concerning linear and angular measurements (<1mm and <1.5°, respectively). Digital dental movements could be analyzed, including arch expansion, dental intrusion, and tooth rotation. CONCLUSIONSThe developed method was proven reliable and reproducible for superimposing 3D models of the maxillary and mandibular arches by using UCS system.
ABSTRACT Introduction: Superposing 3D models is an imminent need. However, current methods rely on marking multiple points on the maxilla and mandible, which could increase point marking and overlapping errors. Objective: This study aimed at developing a method for superimposing 3D models of the maxillary and mandibular arches with Autodesk Inventor® engineering software, using a single universal coordinate system (UCS) point superposition. Methods: A total of 104 STL (stereolithography) models of the maxillary and mandibular arches exported from My iTero® platform were retrospectively selected, in which T0 and T1 were the initial and refinement periods, respectively (n=26 per group). The X, Y, and Z coordinates associated with a single point in each arch were inserted into the models with SlicerCMF® software for model orientation. The arch models with UCS registration were transferred to Autodesk Inventor® for superimposition and to measure tooth movements performed during Invisalign® treatment. Arch expansion, intrusion and rotation were analyzed by two examiners. The statistics were performed using intraclass correlation coefficients (ICC), Dahlberg’s formula, and t-test (p<0.05). Results: A reliable method of superimposing 3D digital models using a single UCS point in the maxilla and mandible was developed. ICC showed excellent intra- and inter-examiner correlation (ICC>0.90). A systematic error was not found concerning linear and angular measurements (<1mm and <1.5°, respectively). Digital dental movements could be analyzed, including arch expansion, dental intrusion, and tooth rotation. Conclusions: The developed method was proven reliable and reproducible for superimposing 3D models of the maxillary and mandibular arches by using UCS system.
ABSTRACT Introduction: Superposing 3D models is an imminent need. However, current methods rely on marking multiple points on the maxilla and mandible, which could increase point marking and overlapping errors. Objective: This study aimed at developing a method for superimposing 3D models of the maxillary and mandibular arches with Autodesk Inventor® engineering software, using a single universal coordinate system (UCS) point superposition. Methods: A total of 104 STL (stereolithography) models of the maxillary and mandibular arches exported from My iTero® platform were retrospectively selected, in which T0 and T1 were the initial and refinement periods, respectively (n=26 per group). The X, Y, and Z coordinates associated with a single point in each arch were inserted into the models with SlicerCMF® software for model orientation. The arch models with UCS registration were transferred to Autodesk Inventor® for superimposition and to measure tooth movements performed during Invisalign® treatment. Arch expansion, intrusion and rotation were analyzed by two examiners. The statistics were performed using intraclass correlation coefficients (ICC), Dahlberg’s formula, and t-test (p<0.05). Results: A reliable method of superimposing 3D digital models using a single UCS point in the maxilla and mandible was developed. ICC showed excellent intra- and inter-examiner correlation (ICC>0.90). A systematic error was not found concerning linear and angular measurements (<1mm and <1.5°, respectively). Digital dental movements could be analyzed, including arch expansion, dental intrusion, and tooth rotation. Conclusions: The developed method was proven reliable and reproducible for superimposing 3D models of the maxillary and mandibular arches by using UCS system. RESUMO Introdução: A sobreposição de modelos 3D é uma necessidade iminente. No entanto, os métodos atuais dependem da marcação de múltiplos pontos na maxila e na mandíbula, o que pode aumentar a incorporação de erros no processo de sobreposição. Objetivo: O objetivo desse estudo foi desenvolver um método para sobrepor modelos 3D das arcadas superior e inferior utilizando o software de engenharia Autodesk Inventor®, por meio da marcação de um único ponto em cada arcada, usando o sistema de coordenadas universal (UCS). Métodos: No total, 104 modelos STL das arcadas superior e inferior exportados da plataforma My iTero® foram selecionados retrospectivamente, onde T0 foi o período inicial e T1, o de refinamento (n=26 por grupo). As coordenadas X, Y e Z associadas a um único ponto em cada arcada foram inseridas nos modelos usando o software SlicerCMF®. Os modelos com os pontos UCS demarcados foram transferidos para o software Autodesk Inventor® para realizar a sobreposição e medir os movimentos dentários realizados durante o tratamento com Invisalign®. Os movimentos de expansão, intrusão e rotação foram analisados por dois examinadores. A análise estatística foi realizada usando os coeficientes de correlação intra-classe (ICC), fórmula de Dahlberg e teste t (p<0,05). Resultados: Foi desenvolvido um método confiável de sobreposição de modelos digitais 3D usando um único ponto UCS na maxila e mandíbula. O ICC apresentou excelente correlação intra e inter-avaliadores (ICC>0,90). Não foi encontrado erro sistemático nas medidas lineares e angulares (<1mm e <1,5°, respectivamente). Os movimentos dentários puderam ser analisados por meio do método proposto, incluindo expansão da arcada, intrusão e rotação dentária. Conclusão: O método desenvolvido provou ser confiável e reprodutível para sobreposição de modelos 3D das arcadas superior e inferior usando o sistema UCS com marcação de ponto único.
ABSTRACTIntroduction: Superposing 3D models is an imminent need. However, current methods rely on marking multiple points on the maxilla and mandible, which could increase point marking and overlapping errors. Objective: This study aimed at developing a method for superimposing 3D models of the maxillary and mandibular arches with Autodesk Inventor® engineering software, using a single universal coordinate system (UCS) point superposition. Methods: A total of 104 STL (stereolithography) models of the maxillary and mandibular arches exported from My iTero® platform were retrospectively selected, in which T0 and T1 were the initial and refinement periods, respectively (n=26 per group). The X, Y, and Z coordinates associated with a single point in each arch were inserted into the models with SlicerCMF® software for model orientation. The arch models with UCS registration were transferred to Autodesk Inventor® for superimposition and to measure tooth movements performed during Invisalign® treatment. Arch expansion, intrusion and rotation were analyzed by two examiners. The statistics were performed using intraclass correlation coefficients (ICC), Dahlberg’s formula, and t-test (p<0.05). Results: A reliable method of superimposing 3D digital models using a single UCS point in the maxilla and mandible was developed. ICC showed excellent intra- and inter-examiner correlation (ICC>0.90). A systematic error was not found concerning linear and angular measurements (<1mm and <1.5°, respectively). Digital dental movements could be analyzed, including arch expansion, dental intrusion, and tooth rotation. Conclusions: The developed method was proven reliable and reproducible for superimposing 3D models of the maxillary and mandibular arches by using UCS system.
Author MACARI, Soraia
IANNI, Tânia Mara de Souza
SOUZA, Gustavo Almeida Silveira de
COLARES, João Pacheco
GUERRERO-VARGAS, José Alejandro
MAGALHÃES, Cláudia Silami de
SOUZA, Rodrigo Xavier Silveira de
MONTALVANY-ANTONUCCI, Carina Cristina
AuthorAffiliation 3 Universidad ECCI, Faculty of Engineering, Department of Mechanical Engineering (Bogotá, Colombia)
1 Federal University of Minas Gerais, Faculty of Dentistry, Department of Restorative Dentistry (Belo Horizonte/MG, Brazil)
2 Federal University of São João del Rei, Department of Telecommunications and Mechatronics Engineering (Ouro Branco/MG, Brazil)
AuthorAffiliation_xml – name: 2 Federal University of São João del Rei, Department of Telecommunications and Mechatronics Engineering (Ouro Branco/MG, Brazil)
– name: 1 Federal University of Minas Gerais, Faculty of Dentistry, Department of Restorative Dentistry (Belo Horizonte/MG, Brazil)
– name: 3 Universidad ECCI, Faculty of Engineering, Department of Mechanical Engineering (Bogotá, Colombia)
– name: Universidade Federal de Minas Gerais
– name: Universidad Nacional de Colombia
– name: Universidade Federal de São João del-Rei
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  givenname: Rodrigo Xavier Silveira de
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  organization: Federal University of São João del Rei, Brazil
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  givenname: João Pacheco
  orcidid: 0009-0002-4615-1683
  surname: COLARES
  fullname: COLARES, João Pacheco
  organization: Federal University of Minas Gerais, Brazil
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  givenname: Tânia Mara de Souza
  orcidid: 0000-0002-3437-6765
  surname: IANNI
  fullname: IANNI, Tânia Mara de Souza
  organization: Federal University of Minas Gerais, Brazil
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  givenname: Cláudia Silami de
  orcidid: 0000-0002-5101-8089
  surname: MAGALHÃES
  fullname: MAGALHÃES, Cláudia Silami de
  organization: Federal University of Minas Gerais, Brazil
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  givenname: José Alejandro
  orcidid: 0000-0002-7425-2097
  surname: GUERRERO-VARGAS
  fullname: GUERRERO-VARGAS, José Alejandro
  organization: Federal University of Minas Gerais, Brazil; Universidad ECCI, Colombia
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  givenname: Carina Cristina
  orcidid: 0000-0002-4977-2752
  surname: MONTALVANY-ANTONUCCI
  fullname: MONTALVANY-ANTONUCCI, Carina Cristina
  organization: Federal University of Minas Gerais, Brazil
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  givenname: Soraia
  orcidid: 0000-0001-7643-6589
  surname: MACARI
  fullname: MACARI, Soraia
  organization: Federal University of Minas Gerais, Brazil
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Issue 4
Keywords Diagnóstico e plano de tratamento 3D
Reproducibility of results
Modelos digitais
Reprodutibilidade de resultados
3-dimensional diagnosis and treatment planning
Digital models
Language English
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  article-title: Accuracy and reliability of palatal superimposition of three-dimensional digital models
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  contributor:
    fullname: Choi, DS; Jeong, YM; Jang, I; Jost-Brinkmann, PG; Cha, BK
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Snippet ABSTRACT Introduction: Superposing 3D models is an imminent need. However, current methods rely on marking multiple points on the maxilla and mandible, which...
ABSTRACTIntroduction: Superposing 3D models is an imminent need. However, current methods rely on marking multiple points on the maxilla and mandible, which...
INTRODUCTIONSuperposing 3D models is an imminent need. However, current methods rely on marking multiple points on the maxilla and mandible, which could...
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SubjectTerms 3-dimensional diagnosis and treatment planning
Accuracy
DENTISTRY, ORAL SURGERY & MEDICINE
Digital models
Jaw
Medical diagnosis
Original
Orthodontics
Reproducibility
Reproducibility of results
Software
Teeth
Three dimensional imaging
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Title A new way of analyzing tooth movement using universal coordinate system geometry single point superposition in a 3D model
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