Goodyer E, Jiang J, Devine E, Sutor A, Rupitsch S, Zörner S, Stingl M, Schmidt B (2011)
Publication Status: Published
Publication Type: Journal article
Publication year: 2011
Publisher: Bentham Science Publishers
Book Volume: 6
Pages Range: 344-361
Journal Issue: 3
Recent Findings: For in vivo experiments, Color Doppler Imaging was found to be suitable for receiving vocal fold stiffness properties. Applying rheological measurements, the elastic modulus and the dynamic viscosity can be determined. In combination with histological analysis it is possible to objectively evaluate clinical treatment. Optical Coherence Tomography enabled to detect tissue boundaries for in vitro vocal folds. A pipette aspiration setup allowed to identifying spacially resolved mechanical properties of synthetic vocal folds. Numerical biomechanical models like finite element models have shown to be suitable to identify isotropic elastic material parameters
APA:
Goodyer, E., Jiang, J., Devine, E., Sutor, A., Rupitsch, S., Zörner, S.,... Schmidt, B. (2011). Devices and Methods on Analysis of Biomechanical Properties of Laryngeal Tissue and Substitute Materials. Current Bioinformatics, 6(3), 344-361.
MLA:
Goodyer, Eric, et al. "Devices and Methods on Analysis of Biomechanical Properties of Laryngeal Tissue and Substitute Materials." Current Bioinformatics 6.3 (2011): 344-361.
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