A finite element model of apical force distribution from orthodontic tooth movement

This study was undertaken to determine the types of orthodontic forces that cause high stress at the root apex. A 3-dimensional finite element model of a maxillary central incisor, its periodontal ligament (PDL), and alveolar bone was constructed on the basis of average anatomic morphology. The maxi...

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Published in	The Angle orthodontist Vol. 71; no. 2; pp. 127 - 131
Main Authors	Rudolph, D J, Willes PMG, Sameshima, G T
Format	Journal Article
Language	English
Published	United States 01.04.2001
Subjects	Alveolar Process - physiology Computer Simulation Dental Enamel - physiology Dentin - physiology Dentistry Finite Element Analysis Humans Incisor - physiology Maxilla Models, Biological Periodontal Ligament - physiology Root Resorption - physiopathology Rotation Stress, Mechanical Tooth Apex - physiology Tooth Movement Techniques Tooth Root - physiology
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Abstract	This study was undertaken to determine the types of orthodontic forces that cause high stress at the root apex. A 3-dimensional finite element model of a maxillary central incisor, its periodontal ligament (PDL), and alveolar bone was constructed on the basis of average anatomic morphology. The maxillary central incisor was chosen for study because it is one of the teeth at greatest risk for apical root resorption. The material properties of enamel, dentin, PDL, and bone and 5 different load systems (tipping, intrusion, extrusion, bodily movement, and rotational force) were tested. The finite element analysis showed that purely intrusive, extrusive, and rotational forces had stresses concentrated at the apex of the root. The principal stress from a tipping force was located at the alveolar crest. For bodily movement, stress was distributed throughout the PDL; however, it was concentrated more at the alveolar crest. We conclude that intrusive, extrusive, and rotational forces produce more stress at the apex. Bodily movement and tipping forces concentrate forces at the alveolar crest, not at the apex.
AbstractList	This study was undertaken to determine the types of orthodontic forces that cause high stress at the root apex. A 3-dimensional finite element model of a maxillary central incisor, its periodontal ligament (PDL), and alveolar bone was constructed on the basis of average anatomic morphology. The maxillary central incisor was chosen for study because it is one of the teeth at greatest risk for apical root resorption. The material properties of enamel, dentin, PDL, and bone and 5 different load systems (tipping, intrusion, extrusion, bodily movement, and rotational force) were tested. The finite element analysis showed that purely intrusive, extrusive, and rotational forces had stresses concentrated at the apex of the root. The principal stress from a tipping force was located at the alveolar crest. For bodily movement, stress was distributed throughout the PDL; however, it was concentrated more at the alveolar crest. We conclude that intrusive, extrusive, and rotational forces produce more stress at the apex. Bodily movement and tipping forces concentrate forces at the alveolar crest, not at the apex.
Author	Rudolph, D J Willes PMG Sameshima, G T
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BackLink	https://www.ncbi.nlm.nih.gov/pubmed/11302589$$D View this record in MEDLINE/PubMed
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SubjectTerms	Alveolar Process - physiology Computer Simulation Dental Enamel - physiology Dentin - physiology Dentistry Finite Element Analysis Humans Incisor - physiology Maxilla Models, Biological Periodontal Ligament - physiology Root Resorption - physiopathology Rotation Stress, Mechanical Tooth Apex - physiology Tooth Movement Techniques Tooth Root - physiology
Title	A finite element model of apical force distribution from orthodontic tooth movement
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