Tridimensional finite element analysis of teeth movement induced by different headgear forces View Full Text


Ontology type: schema:ScholarlyArticle      Open Access: True


Article Info

DATE

2016-12

AUTHORS

Ivan Toshio Maruo, Hiroshi Maruo, Armando Yukio Saga, Dauro Douglas de Oliveira, Marco André Argenta, Orlando Motohiro Tanaka

ABSTRACT

BACKGROUND: This study aimed to simulate the actions of low-pull (LP), high-pull (HP), and combined pull (CP) headgears (HGs) and to analyze tooth movement tendencies through finite element analysis. METHODS: Tomographic slices of a human maxilla with complete permanent dentition were processed by reconstruction software, and the triangular surface mesh was converted into non-uniform rational B-spline (NURBS) curves. An HG facial bow was also modulated in 3D. The teeth and bone were considered to have isotropic and linear behavior, whereas the periodontal ligament was considered to have non-linear and hyperelastic behavior. Data regarding the application points, directions and magnitudes of forces were obtained from the literature and from a dolichofacial patient with class II, division 1 malocclusion, who was treated with a CP HG. RESULTS: The CP HG promoted 37.1 to 41.1 %, and the HP HG promoted 19.1 to 31.9 % of LP distalization. The HP HG presented the highest intrusion, and the LP HG presented the highest extrusion of the first molar. The LP HG contracted the distal side, and the HP and CP HGs contracted the lingual and distobuccal roots of the second molar to a lesser degree. CONCLUSIONS: The LP HG promotes the greatest distalization, followed by the CP and HP HGs; the LP HG causes greater extrusion of the first molar, and the HP HG causes greater intrusion of the first molar. The LP HG causes greater contraction of the second molar than the HP HG. More... »

PAGES

18

References to SciGraph publications

  • 2015-12. Computational fluid dynamics analysis of the upper airway after rapid maxillary expansion: a case report in PROGRESS IN ORTHODONTICS
  • 2014-12. Evaluation of stresses developed in different bracket-cement-enamel systems using finite element analysis with in vitro bond strength tests in PROGRESS IN ORTHODONTICS
  • 2014-12. 3D FEM comparison of lingual and labial orthodontics in en masse retraction in PROGRESS IN ORTHODONTICS
  • 2015-12. The efficacy of maxillary protraction protocols with the micro-implant-assisted rapid palatal expander (MARPE) and the novel N2 mini-implant—a finite element study in PROGRESS IN ORTHODONTICS
  • 2016-12. Stress distribution patterns at mini-implant site during retraction and intrusion—a three-dimensional finite element study in PROGRESS IN ORTHODONTICS
  • 2016-12. Stresses in the midpalatal suture in the maxillary protraction therapy: a 3D finite element analysis in PROGRESS IN ORTHODONTICS
  • 2013-12. Effects of crown-root angle on stress distribution in the maxillary central incisors’ PDL during application of intrusive and retraction forces: a three-dimensional finite element analysis in PROGRESS IN ORTHODONTICS
  • 2014-12. The effect of vertical bracket positioning on torque and the resultant stress in the periodontal ligament—a finite element study in PROGRESS IN ORTHODONTICS
  • 2014-12. The effects of micro-implant assisted rapid palatal expansion (MARPE) on the nasomaxillary complex—a finite element method (FEM) analysis in PROGRESS IN ORTHODONTICS
  • Identifiers

    URI

    http://scigraph.springernature.com/pub.10.1186/s40510-016-0130-4

    DOI

    http://dx.doi.org/10.1186/s40510-016-0130-4

    DIMENSIONS

    https://app.dimensions.ai/details/publication/pub.1052780816

    PUBMED

    https://www.ncbi.nlm.nih.gov/pubmed/27264500


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        "description": "BACKGROUND: This study aimed to simulate the actions of low-pull (LP), high-pull (HP), and combined pull (CP) headgears (HGs) and to analyze tooth movement tendencies through finite element analysis.\nMETHODS: Tomographic slices of a human maxilla with complete permanent dentition were processed by reconstruction software, and the triangular surface mesh was converted into non-uniform rational B-spline (NURBS) curves. An HG facial bow was also modulated in 3D. The teeth and bone were considered to have isotropic and linear behavior, whereas the periodontal ligament was considered to have non-linear and hyperelastic behavior. Data regarding the application points, directions and magnitudes of forces were obtained from the literature and from a dolichofacial patient with class II, division 1 malocclusion, who was treated with a CP HG.\nRESULTS: The CP HG promoted 37.1 to 41.1\u00a0%, and the HP HG promoted 19.1 to 31.9\u00a0% of LP distalization. The HP HG presented the highest intrusion, and the LP HG presented the highest extrusion of the first molar. The LP HG contracted the distal side, and the HP and CP HGs contracted the lingual and distobuccal roots of the second molar to a lesser degree.\nCONCLUSIONS: The LP HG promotes the greatest distalization, followed by the CP and HP HGs; the LP HG causes greater extrusion of the first molar, and the HP HG causes greater intrusion of the first molar. The LP HG causes greater contraction of the second molar than the HP HG.", 
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