A muscle controlled finite-element model of laryngeal abduction and adduction |
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| Authors: | Andreas Gömmel Christoph Butenweg Katrin Bolender Arno Grunendahl |
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| Affiliation: | 1. RWTH Aachen University, Statics and Dynamics , Mies-van-der-Rohe-Str. 1, 52074, Aachen, Germany goemmel@lbb.rwth-aachen.de;3. RWTH Aachen University, Statics and Dynamics , Mies-van-der-Rohe-Str. 1, 52074, Aachen, Germany;4. Fraunhofer Institut für Betriebsfestigkeit und Systemzuverl?ssigkeit LBF , Bartningstr. 47, 64289, Darmstadt, Germany;5. TECOSIM Technische Simulation GmbH , Robert-Bosch-Str. 10, 50769, K?ln, Germany |
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| Abstract: | A three-dimensional finite-element model was developed to simulate the complex movement of the laryngeal cartilages during vocal fold abduction and adduction. The model consists of cricoid and arytenoid cartilages, as well as the intralaryngeal muscles and vocal folds. The active and passive properties of the muscles were idealised by one-dimensional elements based on the Hill theory. Its controlling input value is a time dependent stimulation rate. Optimisation loops have been carried out for the arrangement of the individual stimulation rates. Since in vivo measurements are not feasible, the developed biomechanical model shall be used to analyse the force distribution within the laryngeal muscles during phonatory manoeuvres. Simulations of abduction and adduction in different pitches of voice lead to realistic tensions of the vocal folds. The model is a first step to analyse motional vocal fold diseases and to predict the consequences of phonosurgical interventions. |
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| Keywords: | Larynx model Vocal fold stress Muscle model Hill theory |
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