In the last decade, the temporal properties of voice production have been explored extensively in laryngeal physiology studies. However, these studies display a lack of information concerning the spatial aspect of disordered voice production. Disordered voice production involves both temporal and spatial properties. Spatiotemporal analysis on a bench model demonstrates the value of understanding physiological disorders in laryngeal systems. The overall aim of this study is to develop feasible clinical applications of high-speed measurements and spatiotemporal analysis methods to quantify the vibratory properties of vocal folds of patients with laryngeal diseases. Five projects will be proposed in this proposal. The first project will optimize a series of spatiotemporal analysis methods for clinical high-speed imaging data. We propose measuring the mucosal wave with spatiotemporal perturbation analysis, spatiotemporal correlation analysis, and eigenmode analysis. The second project will focus on measuring the biomechanical parameters of the vocal folds using high-speed imaging data of human subjects. A synchronization-based parameter estimation method is proposed to determine the biomechanical parameters of human vocal folds. The third project will apply high-speed imaging measurement and analysis methods to establish norms by documenting the vibratory characteristics of vocal function in normal subjects. The fourth project will explore the high-speed imaging measurement and analysis of laryngeal pathologies, including vocal nodules and polyps, laryngeal paralysis, vocal fold scarring, vocal fold cancer, and acute laryngitis. The sensitivity and specificity of spatiotemporal analysis parameters in distinguishing healthy voices from disordered voices will be investigated. The fifth project will employ the developed analysis of high-speed imaging to assess the treatment effects of vocal nodules and polyps, laryngeal paralysis, vocal fold scarring, vocal fold cancer, and acute laryngitis.

Agency
National Institute of Health (NIH)
Institute
National Institute on Deafness and Other Communication Disorders (NIDCD)
Type
Research Project (R01)
Project #
5R01DC008850-03
Application #
7616154
Study Section
Motor Function, Speech and Rehabilitation Study Section (MFSR)
Program Officer
Shekim, Lana O
Project Start
2007-05-15
Project End
2012-04-30
Budget Start
2009-05-01
Budget End
2010-04-30
Support Year
3
Fiscal Year
2009
Total Cost
$301,622
Indirect Cost
Name
University of Wisconsin Madison
Department
Surgery
Type
Schools of Medicine
DUNS #
161202122
City
Madison
State
WI
Country
United States
Zip Code
53715
Krausert, Christopher R; Ying, Di; Choi, Seong Hee et al. (2013) Effect of vocal fold injury location on vibratory parameters in excised canine larynges. Otolaryngol Head Neck Surg 148:89-95
Maytag, Allison L; Robitaille, Mark J; Rieves, Adam L et al. (2013) Use of the rabbit larynx in an excised larynx setup. J Voice 27:24-8
Hoffman, Matthew R; Surender, Ketan; Devine, Erin E et al. (2012) Classification of glottic insufficiency and tension asymmetry using a multilayer perceptron. Laryngoscope 122:2773-80
Krausert, Christopher R; Liang, Yufang; Zhang, Yu et al. (2012) Spatiotemporal analysis of normal and pathological human vocal fold vibrations. Am J Otolaryngol 33:641-9
Devine, Erin E; Bulleit, Erin E; Hoffman, Matthew R et al. (2012) Aerodynamic and nonlinear dynamic acoustic analysis of tension asymmetry in excised canine larynges. J Speech Lang Hear Res :
Chodara, Ann M; Krausert, Christopher R; Jiang, Jack J (2012) Kymographic characterization of vibration in human vocal folds with nodules and polyps. Laryngoscope 122:58-65
Mielens, Jason D; Hoffman, Matthew R; Ciucci, Michelle R et al. (2012) Application of classification models to pharyngeal high-resolution manometry. J Speech Lang Hear Res 55:892-902
Hoffman, Matthew R; Surender, Ketan; Chapin, William J et al. (2011) Optimal arytenoid adduction based on quantitative real-time voice analysis. Laryngoscope 121:339-45
Witt, Rachel E; Taylor, Lindsay N; Regner, Michael F et al. (2011) Effects of surface dehydration on mucosal wave amplitude and frequency in excised canine larynges. Otolaryngol Head Neck Surg 144:108-13
Krausert, Christopher R; Olszewski, Aleksandra E; Taylor, Lindsay N et al. (2011) Mucosal wave measurement and visualization techniques. J Voice 25:395-405

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