Literature DB >> 20815428

Flow-induced vibratory response of idealized versus magnetic resonance imaging-based synthetic vocal fold models.

Brian A Pickup1, Scott L Thomson.   

Abstract

Recent vocal fold vibration studies have used models defined using idealized geometry. Although these models exhibit important similarities with human vocal fold vibration, some aspects of their motion are less than realistic. In this report it is demonstrated that more realistic motion may be obtained when using geometry derived from magnetic resonance imaging (MRI) data. The dynamic response of both idealized and MRI-based synthetic vocal fold models are presented. MRI-based model improvements include evidence of mucosal wave-like motion and less vertical movement. Limitations of the MRI-based model are discussed and suggestions for further synthetic model development are offered.

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Year:  2010        PMID: 20815428      PMCID: PMC2937049          DOI: 10.1121/1.3455876

Source DB:  PubMed          Journal:  J Acoust Soc Am        ISSN: 0001-4966            Impact factor:   1.840


  17 in total

1.  Intraglottal pressure profiles for a symmetric and oblique glottis with a divergence angle of 10 degrees.

Authors:  R C Scherer; D Shinwari; K J De Witt; C Zhang; B R Kucinschi; A A Afjeh
Journal:  J Acoust Soc Am       Date:  2001-04       Impact factor: 1.840

2.  The effects of rehydration on phonation in excised canine larynges.

Authors:  J Jiang; J Ng; D Hanson
Journal:  J Voice       Date:  1999-03       Impact factor: 2.009

3.  Numerical study of the effects of inferior and superior vocal fold surface angles on vocal fold pressure distributions.

Authors:  Sheng Li; Ronald C Scherer; Mingxi Wan; Supin Wang; Huihui Wu
Journal:  J Acoust Soc Am       Date:  2006-05       Impact factor: 1.840

4.  Relative contributions of collagen and elastin to elasticity of the vocal fold under tension.

Authors:  Roger W Chan; Min Fu; Lindsay Young; Neeraj Tirunagari
Journal:  Ann Biomed Eng       Date:  2007-04-24       Impact factor: 3.934

5.  Coherent structures of the near field flow in a self-oscillating physical model of the vocal folds.

Authors:  Jürgen Neubauer; Zhaoyan Zhang; Reza Miraghaie; David A Berry
Journal:  J Acoust Soc Am       Date:  2007-02       Impact factor: 1.840

6.  Ranking vocal fold model parameters by their influence on modal frequencies.

Authors:  Douglas D Cook; Eric Nauman; Luc Mongeau
Journal:  J Acoust Soc Am       Date:  2009-10       Impact factor: 1.840

7.  Using joint geometry to determine the motion of the cricoarytenoid joint.

Authors:  W S Selbie; L Zhang; W S Levine; C L Ludlow
Journal:  J Acoust Soc Am       Date:  1998-02       Impact factor: 1.840

8.  Effect of hydration treatments on laryngeal nodules and polyps and related voice measures.

Authors:  K Verdolini-Marston; M Sandage; I R Titze
Journal:  J Voice       Date:  1994-03       Impact factor: 2.009

9.  Individual subject laryngeal dimensions of multiple mammalian species for biomechanical models.

Authors:  Eric J Hunter; Ingo R Titze
Journal:  Ann Otol Rhinol Laryngol       Date:  2005-10       Impact factor: 1.547

10.  Aerodynamically and acoustically driven modes of vibration in a physical model of the vocal folds.

Authors:  Zhaoyan Zhang; Juergen Neubauer; David A Berry
Journal:  J Acoust Soc Am       Date:  2006-11       Impact factor: 1.840
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  15 in total

1.  Frequency response of synthetic vocal fold models with linear and nonlinear material properties.

Authors:  Stephanie M Shaw; Scott L Thomson; Christopher Dromey; Simeon Smith
Journal:  J Speech Lang Hear Res       Date:  2012-01-23       Impact factor: 2.297

2.  Effect of inferior surface angle on the self-oscillation of a computational vocal fold model.

Authors:  Simeon L Smith; Scott L Thomson
Journal:  J Acoust Soc Am       Date:  2012-05       Impact factor: 1.840

3.  Identification of geometric parameters influencing the flow-induced vibration of a two-layer self-oscillating computational vocal fold model.

Authors:  Brian A Pickup; Scott L Thomson
Journal:  J Acoust Soc Am       Date:  2011-04       Impact factor: 1.840

4.  Vibratory responses of synthetic, self-oscillating vocal fold models.

Authors:  Preston R Murray; Scott L Thomson
Journal:  J Acoust Soc Am       Date:  2012-11       Impact factor: 1.840

5.  Quantification of Porcine Vocal Fold Geometry.

Authors:  Kimberly A Stevens; Scott L Thomson; Marie E Jetté; Susan L Thibeault
Journal:  J Voice       Date:  2015-08-17       Impact factor: 2.009

6.  A Flow Perfusion Bioreactor System for Vocal Fold Tissue Engineering Applications.

Authors:  Neda Latifi; Hossein K Heris; Scott L Thomson; Rani Taher; Siavash Kazemirad; Sara Sheibani; Nicole Y K Li-Jessen; Hojatollah Vali; Luc Mongeau
Journal:  Tissue Eng Part C Methods       Date:  2016-08-15       Impact factor: 3.056

7.  A parametric vocal fold model based on magnetic resonance imaging.

Authors:  Liang Wu; Zhaoyan Zhang
Journal:  J Acoust Soc Am       Date:  2016-08       Impact factor: 1.840

8.  A canonical biomechanical vocal fold model.

Authors:  Pinaki Bhattacharya; Thomas H Siegmund
Journal:  J Voice       Date:  2011-12-29       Impact factor: 2.009

9.  Synthetic, multi-layer, self-oscillating vocal fold model fabrication.

Authors:  Preston R Murray; Scott L Thomson
Journal:  J Vis Exp       Date:  2011-12-02       Impact factor: 1.355

10.  Wideband MR elastography for viscoelasticity model identification.

Authors:  Temel K Yasar; Thomas J Royston; Richard L Magin
Journal:  Magn Reson Med       Date:  2012-09-21       Impact factor: 4.668
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