Initial force systems during bodily tooth movement with plastic aligners and composite attachments: A three-dimensional finite element analysis

To describe, using a three-dimensional finite element (FE) model, the initial force system generated during bodily movement of upper canines with plastic aligners with and without composite attachments. A CAD model of an upper right canine, its alveolar bone and periodontal ligament, thermoformed pl...

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Bibliographic Details
Published in:The Angle orthodontist 2015-05, Vol.85 (3), p.454-460
Main Authors: Gomez, Juan Pablo, Peña, Fabio Marcelo, Martínez, Valentina, Giraldo, Diana C, Cardona, Carlos Iván
Format: Article
Language:English
Subjects:
Alveolar Process - pathology
Biomechanical Phenomena
Composite Resins - chemistry
Computer-Aided Design
Cuspid - pathology
Dental Materials - chemistry
Finite Element Analysis
Humans
Imaging, Three-Dimensional - methods
Original
Orthodontic Appliance Design
Periodontal Ligament - pathology
Plastics - chemistry
Pressure
Stress, Mechanical
Tooth Cervix - pathology
Tooth Movement Techniques - instrumentation
Tooth Root - pathology
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Summary:To describe, using a three-dimensional finite element (FE) model, the initial force system generated during bodily movement of upper canines with plastic aligners with and without composite attachments. A CAD model of an upper right canine, its alveolar bone and periodontal ligament, thermoformed plastic aligner, and two light-cured composite attachments were constructed. A FE model was used to analyze the effects of imposing a distal movement condition of 0.15 mm on the aligner (simulating the mechanics used to produce a distal bodily movement) with and without composite attachments. In terms of tension and compression stress distribution, without composite attachments a compression area in the cervical third of the distal root surface and a tension area in the apical third of the mesial surface were observed. With composite attachments, uniform compression areas in the distal root surface and uniform tension area in the mesial root surface were observed. Compression areas in the active surfaces of the composite attachments were also observed. In terms of movement patterns, an uncontrolled distal inclination, with rotation axis between the middle and cervical root thirds, was observed without composite attachment. Distal bodily movement (translation) was observed with composite attachment. In a three-dimensional FE analysis of a plastic aligner system biomechanically supplementary composite attachments generate the force system required to produce bodily tooth movement; the absence of biomechanically supplementary composite attachments favors the undesired inclination of the tooth during the translation movements.
ISSN:0003-3219
1945-7103
DOI:10.2319/050714-330.1