Dynamic modeling and jaw biomechanics

Author– Hannam AG Bioengineered simulations of dynamic events in the human masticatory system are relatively new. A primary advantage is their ability to integrate structure and function in cause‐and‐effect scenarios. By permitting detailed analyses of these interactions, and the prototyping of pros...

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Bibliographic Details
Published in:Orthodontics & craniofacial research 2003-08, Vol.6 (s1), p.59-65
Main Author: Hannam, AG
Format: Article
Language:English
Subjects:
Biomechanical Phenomena
Computer Simulation
Dentistry
dynamic models
Elasticity
Humans
Imaging, Three-Dimensional
Jaw - anatomy & histology
Jaw - physiology
jaw biomechanics
jaw movements
jaw muscles
Masticatory Muscles - anatomy & histology
Masticatory Muscles - physiology
Models, Biological
Movement
Tomography, X-Ray Computed
User-Computer Interface
Viscosity
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Summary:Author– Hannam AG Bioengineered simulations of dynamic events in the human masticatory system are relatively new. A primary advantage is their ability to integrate structure and function in cause‐and‐effect scenarios. By permitting detailed analyses of these interactions, and the prototyping of prosthetic additions, the models generate working hypotheses. Significant issues in their use include the importation and measurement of structural geometry, the choice of parameters affecting dynamics (e.g. inertial properties and viscoelasticities) and the nature of the modeling process (e.g. whether models are kinetically driven by muscle contraction, or kinematically defined by movement channels). Presently, there are few accepted standards or conventions for managing these computational data in the human jaws, and the data used are often derived from multiple and disparate sources. This review focuses on the approaches, assumptions, and key applications of dynamic modeling in the human masticatory system. It considers the role of imaging, the restrictions imposed by assumptions of unknown or unverifiable data, and how modeling can be a useful research technique despite these hurdles. The review concludes with a comment on creating virtual models for educational purposes.
ISSN:1601-6335
1601-6343
DOI:10.1034/j.1600-0544.2003.236.x