Occlusal loading during biting from an experimental and simulation point of view

Occlusal loading during clenching and biting is achieved by the action of the masticatory system, and forms the basis for the evaluation of the functional performance of prosthodontic and maxillofacial components. This review provides an overview of (i) current bite force measurement techniques and...

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Bibliographic Details
Published in:Dental materials 2018-01, Vol.34 (1), p.58-68
Main Authors: Röhrle, Oliver, Saini, Harnoor, Ackland, David C.
Format: Article
Language:English
Subjects:
Biomechanical Phenomena
Biomechanics
Bite Force
Bite force measurement
Bite force simulation
Biting
Computation
Computer applications
Computer Simulation
Dental Models
Dental Occlusion
Dental Stress Analysis - methods
Dentistry
Evaluation
Finite element method
Force measurement
Gauges
Humans
Mastication
Mastication - physiology
Mathematical models
Maxillofacial
Measurement techniques
Occlusal loads
Simulation
Strain gauges
Three dimensional models
Virtual testing
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Summary:Occlusal loading during clenching and biting is achieved by the action of the masticatory system, and forms the basis for the evaluation of the functional performance of prosthodontic and maxillofacial components. This review provides an overview of (i) current bite force measurement techniques and their limitations and (ii) the use of computational modelling to predict bite force. A brief simulation study highlighting the challenges of current computational dental models is also presented. Appropriate studies were used to highlight the development and current bite force measurement methodologies and state-of-the-art simulation for computing bite forces using biomechanical models. While a number of strategies have been developed to measure occlusal forces in three-dimensions, the use of strain-gauges, piezo-electric sensors and pressure sheets remain the most widespread. In addition to experimental-based measurement techniques, bite force may be also estimated using computational models of the masticatory system. Simulations of different bite force models clearly show that the use of three-dimensional force measurements enriches the evaluation of masticatory functional performance. Hence, combining computational modelling with three-dimensional force measurement techniques can significantly improve the evaluation of masticatory system and the functional performance of prosthodontic components.
ISSN:0109-5641
1879-0097
DOI:10.1016/j.dental.2017.09.005