1. A Computational Model Quantifies the Effect of Anatomical Variability on Velopharyngeal Function.
- Author
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Inouye JM, Perry JL, Lin KY, and Blemker SS
- Subjects
- Humans, Magnetic Resonance Imaging, Male, Palate, Soft physiology, Pharyngeal Muscles physiology, Pharynx physiology, Young Adult, Computer Simulation, Palate, Soft anatomy & histology, Pharyngeal Muscles anatomy & histology, Pharynx anatomy & histology, Speech physiology
- Abstract
Purpose: This study predicted the effects of velopharyngeal (VP) anatomical parameters on VP function to provide a greater understanding of speech mechanics and aid in the treatment of speech disorders., Method: We created a computational model of the VP mechanism using dimensions obtained from magnetic resonance imaging measurements of 10 healthy adults. The model components included the levator veli palatini (LVP), the velum, and the posterior pharyngeal wall, and the simulations were based on material parameters from the literature. The outcome metrics were the VP closure force and LVP muscle activation required to achieve VP closure., Results: Our average model compared favorably with experimental data from the literature. Simulations of 1,000 random anatomies reflected the large variability in closure forces observed experimentally. VP distance had the greatest effect on both outcome metrics when considering the observed anatomic variability. Other anatomical parameters were ranked by their predicted influences on the outcome metrics., Conclusions: Our results support the implication that interventions for VP dysfunction that decrease anterior to posterior VP portal distance, increase velar length, and/or increase LVP cross-sectional area may be very effective. Future modeling studies will help to further our understanding of speech mechanics and optimize treatment of speech disorders. more...
- Published
- 2015
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