Minisymposium: Fluids Next - Fluid Dynamics in Advanced Medicine

INVITED · A01 · ID: 2667276

Presentations

  • ORAL · Invited

    Presenters

    • Kimberly A Boster

      • University of Rochester

    Authors

    • Kimberly A Boster

      • University of Rochester

    • Juan Diego Toscano

      • Brown University

    • George Em Karniadakis

      • Division of Applied Mathematics and School of Engineering, Brown University, Providence, RI, 02912, USA
      • Brown University

    • Douglas H Kelley

      • University of Rochester

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  • ORAL · Invited

    Publication: (In preparation) "Effect of heart rate on hemodynamics in a patient-specific intracranial aneurysm"

    Presenters

    • Melissa Brindise

      • Pennsylvania State University
      • The Pennsylvania State University

    Authors

    • Melissa Brindise

      • Pennsylvania State University
      • The Pennsylvania State University

    • Baha Al-deen T El-khader

      • Pennsylvania State University
      • The Pennsylvania State University

    • Nikhil Subhash Shirdade

      • Pennsylvania State University

    • Ephraim W Church

      • Department of Neurosurgery, Hershey Medical Center

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  • ORAL · Invited

    Publication: 1. Jiang, W., Zheng, X., and Xue, Q. (2024) "A computational study of the influence of thyroarytenoid and cricothyroid muscle interaction on vocal fold dynamics in an MRI based human laryngeal model", Biomechanics and Modeling in Mechanobiology, in press, DOI:10.1007/s10237-024-01869-9
    2. Movahhedi, M., Liu, X-Y, Geng, B., Elemans, C., Xue, Q., Wang, J-X., Zheng, X. (2023). "Predicting 3D soft tissue dynamics from 2D imaging using physics informed neural networks," Communications Biology, 6(1), 541.
    3. Wang, X, Zheng, X., Xue Q. (2023). "The influence of fiber orientation of the conus elastics in vocal fold modeling," J. Biomech. Eng., 145(9), BIO-22-1167.
    4. Zhang, Y., Jiang, W., Sun, L., Wang, J., Zheng, X., Xue, Q. (2022). "A deep-leaning based generalized empirical flow model of glottal flow during normal phonation," J. Biomech. Eng, 144(9), 091001.
    5. Jiang, W., De Luzan, C. F., Wang, X., Oren, L., Khosla, S., Xue, Q. and Zheng, X. (2022). "Computational modeling of voice production using excised canine larynx," J. Biomech. Eng., 144(3), 021003.
    6. Movahhedi, M., Geng, B., Xue, Q. and Zheng, X. (2021). "A computational framework for patient-specific surgical planning of type 1 thyroplasty," JASA-EL,1(12), 125203.
    7. Geng, B., Movahhedi, M., Xue, Q. and Zheng, X. (2021). "Vocal fold vibration mode change due to cricothyroid and thyroarytenoid muscle interaction in a three-dimensional model of canine larynx," J. Acoust. Soc. Am. 150(2), 1176-1187
    8. Movahhedi, M., Geng, B., Xue, Q. and Zheng, X. (2021). "Effects of cricothyroid and thyroarytenoid interaction on voice control: muscle activity, vocal fold biomechanics, flow and acoustics," J. Acoust. Soc. Am. 150(1), 29-42
    9. Bodaghi, D., Jiang, W., Xue, Q., and Zheng, X. (2021). "Effects of supraglottal acoustics on fluid-structure interaction during human voice production," J. Biomech. Eng., 143(4): 041010.
    10. Zhang, Y., Zheng, X. and Xue, Q. (2020). "A deep neural network based glottal flow model for predicting fluid-structure interaction during voice production," Applied Science, 10(2), 705.
    11. Geng, B., Pham, N., Xue, Q. and Zheng, X. (2020). "A three-dimensional vocal fold posturing model based on muscle mechanics and magnetic resonance imaging of a canine larynx," J. Acoust. Soc. Am. 147(4), 2597-2608.
    12. Jiang, W., Zheng, X. and Xue, Q. (2019). "Influence of vocal fold cover layer thickness on its vibratory dynamics during voice production," J. Acoust. Soc. Am. 146(1), 369-380.
    13. Wang, X., Jiang, W., Xue, Q. and Zheng, X. (2021). "A computational study of the effects of vocal fold stiffness parameters on voice production," J. Voice 35(2), 327.
    14. Pham, N., Xue, Q. and Zheng, X. (2018). "Coupling between a fiber-reinforced model and a Hill-based contractile model for passive and active tissue properties of laryngeal muscles: A finite element study," JASA-EL, 144(3), 248-253.
    15. Jiang, W., Zheng, X., and Xue, Q. (2018). "Effect of longitudinal variation of vocal fold inner layer thickness on flow-structure interaction during phonation," J. Biomech Eng., 140(12), 121008.
    16. Geng. B., Xue, Q. and Zheng, X. (2017). "A Finite Element Study on the Cause of Vocal Fold Vertical Stiffness Variation," JASA-EL, 141(4), 351-356.
    17. Jiang, W., Zheng, X. and Xue, Q. (2017). "Computational Modeling of Fluid–Structure–Acoustics Interaction during Voice Production," Frontiers in Bioengineering and Biotechnology. 5(7).
    18. Geng, B., Xue, Q. and Zheng, X. (2016). "The Effect of Vocal Fold Vertical Stiffness Variation on Voice Production," J. Acoust. Soc. Am. 140(4), 2856-2866.

    Presenters

    • Qian Xue

      • Rochester Institute of Technology

    Authors

    • Qian Xue

      • Rochester Institute of Technology

    View abstract →