asymmetric outer bow length and cervical headgear force system: 3d analysis using finite element method
نویسندگان
چکیده
o bjectives: this study sought to assess distal and lateral forces and moments of asymmetric headgears by variable outer bow lengths. materials and methods : four 3d finite element method (fem) models of a cer- vical headgear attached to the maxillary first molars were designed in solidworks2010 software and transferred to ansys workbench ver. 11 software. modelscontained the first molars, their periodontal ligament (pdl), cancellous and cor- tical bones, a mesiodistal slice of the maxillae and the headgear. models were the same except for the outer bow length in headgears. the headgear was symmetric in model 1. in models 2 to 4, the headgears were asymmetric in length with dif- ferences of 5mm, 10mm and 15mm, respectively. a 2.5 n force in horizontal plane was applied and the loading manner of each side of the outer bow was cal- culated trigonometrically using data from a volunteer. r esults: the 15mm difference in outer bow length caused the greatest difference in lateral (=0.21 n) and distal (= 1.008 n) forces and also generated moments (5.044 n.mm). c onclusion: as the difference in outer bow length became greater, asymmetric effects increased. greater distal force in the longer arm side was associated with greater lateral force towards the shorter arm side and more net yawing moment. clinical relevance: a difference range of 1mm to 15 mm of length in cervical headgear can be consi-dered as a safe length of outer bow shortening in clinical use.
منابع مشابه
Asymmetric Outer Bow Length and Cervical Headgear Force System: 3D Analysis Using Finite Element Method
OBJECTIVES This study sought to assess distal and lateral forces and moments of asymmetric headgears by variable outer bow lengths. MATERIALS AND METHODS Four 3D finite element method (FEM) models of a cervical headgear attached to the maxillary first molars were designed in SolidWorks 2010 software and transferred to ANSYS Workbench ver. 11 software. Models contained the first molars, their ...
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متن کاملUnilateral Outer Bow Expanded Cervical Headgear Force System: 3D Analysis Using Finite Element Method
OBJECTIVES Headgears are among the effective orthodontic appliances to achieve treatment goals. Unilateral molar distal movement is sometimes needed during an orthodontic treatment, which can be achieved by an asymmetric headgear. Different unilateral headgears have been introduced. The main goal of this study was to analyze the force system of unilateral expanded outer bow asymmetric headgears...
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عنوان ژورنال:
journal of dentistry, tehran university of medical sciencesجلد ۱۲، شماره ۳، صفحات ۲۱۶-۲۲۵
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