Zhaoyan Zhang

Title(s)Professor-in-Residence, Head and Neck Surgery
SchoolMedicine
ORCID ORCID Icon0000-0002-2379-6086 Additional info
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    Collapse Biography 
    Collapse Education and Training
    Purdue University, West Lafayette, INPhD08/2002Mechanical Engineering
    Collapse Awards and Honors
    Voice Foundation2022Quintana Research Award
    Acoustical Society of America2011Fellow

    Collapse Overview 
    Collapse Overview
    My research interest is to understand the cause-effect relationship between voice physiology and the produced voice. Current research projects include topics on laryngeal fluid-structure interaction, vocal fold biomechanics, source-filter interaction, and neuromuscular control of voice production and quality, toward clinical and voice technology applications.

    Research in our group is funded by grants from the National Institute on Deafness and Other Communication Disorders.

    Collapse Research 
    Collapse Research Activities and Funding
    Biomechanical Mechanisms of Phonation
    NIH R01DC011299Jul 1, 2011 - Jun 30, 2018
    Role: Principal Investigator
    Laryngeal muscular control of voice production and quality
    NIH R01DC009229Dec 1, 2007 - Dec 31, 2020
    Role: Principal Investigator
    Toward standardizing perceptual voice quality measures
    NIH R01DC001797Dec 1, 1992 - Nov 30, 2021
    Role: Co-Principal Investigator

    Collapse ORNG Applications 
    Collapse Clinical Trials

    Collapse Bibliographic 
    Collapse Publications
    Publications listed below are automatically derived from MEDLINE/PubMed and other sources, which might result in incorrect or missing publications. Researchers can login to make corrections and additions, or contact us for help. to make corrections and additions.
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    Altmetrics Details PMC Citations indicate the number of times the publication was cited by articles in PubMed Central, and the Altmetric score represents citations in news articles and social media. (Note that publications are often cited in additional ways that are not shown here.) Fields are based on how the National Library of Medicine (NLM) classifies the publication's journal and might not represent the specific topic of the publication. Translation tags are based on the publication type and the MeSH terms NLM assigns to the publication. Some publications (especially newer ones and publications not in PubMed) might not yet be assigned Field or Translation tags.) Click a Field or Translation tag to filter the publications.
    1. Principal dimensions of voice production and their role in vocal expression. J Acoust Soc Am. 2024 Jul 01; 156(1):278-283. Zhang Z. PMID: 38980102; PMCID: PMC11236430.
      View in: PubMed   Mentions:    Fields:    Translation:Humans
    2. Register transitions in an in vivo canine model as a function of intrinsic laryngeal muscle stimulation, fundamental frequency, and sound pressure level. J Acoust Soc Am. 2024 03 01; 155(3):2139-2150. Schlegel P, Berry DA, Moffatt C, Zhang Z, Chhetri DK. PMID: 38498507; PMCID: PMC10954347.
      View in: PubMed   Mentions:    Fields:    Translation:Animals
    3. Restraining vocal fold vertical motion reduces source-filter interaction in a two-mass model. JASA Express Lett. 2024 03 01; 4(3). Yoshinaga T, Zhang Z, Iida A. PMID: 38426891; PMCID: PMC10926109.
      View in: PubMed   Mentions:    Fields:    
    4. The influence of sensor size on experimental measurement accuracy of vocal fold contact pressure. Proc Meet Acoust. 2023 Dec 04; 52(1). Zhang Z. PMID: 38872712; PMCID: PMC11173356.
      View in: PubMed   Mentions:
    5. The influence of source-filter interaction on the voice source in a three-dimensional computational model of voice production. J Acoust Soc Am. 2023 10 01; 154(4):2462-2475. Zhang Z. PMID: 37855666; PMCID: PMC10589054.
      View in: PubMed   Mentions: 3     Fields:    Translation:Humans
    6. Effects of Thyroarytenoid Activation Induced Vibratory Asymmetry on Voice Acoustics and Perception. Laryngoscope. 2024 03; 134(3):1327-1332. Chung HR, Lee Y, Reddy NK, Zhang Z, Chhetri DK. PMID: 37676064.
      View in: PubMed   Mentions:    Fields:    Translation:HumansAnimals
    7. Cell-Based Outer Vocal Fold Replacement Both Treats and Prevents Vocal Fold Scarring in Rabbits. Laryngoscope. 2024 02; 134(2):764-772. Santuray R, Schlegel P, Zhang Z, Reddy N, Alhiyari Y, Long JL. PMID: 37597170; PMCID: PMC10842642.
      View in: PubMed   Mentions: 1     Fields:    Translation:HumansAnimals
    8. Histologic Examination of Vocal Fold Mucosal Wave and Vibration. Laryngoscope. 2024 01; 134(1):264-271. Chung HR, Reddy NK, Manzoor D, Schlegel P, Zhang Z, Chhetri DK. PMID: 37522475; PMCID: PMC10828106.
      View in: PubMed   Mentions:    Fields:    Translation:HumansAnimals
    9. Validation and enhancement of a vocal fold medial surface 3D reconstruction approach for in-vivo application. Sci Rep. 2023 07 03; 13(1):10705. Schlegel P, Döllinger M, Reddy NK, Zhang Z, Chhetri DK. PMID: 37400470; PMCID: PMC10317965.
      View in: PubMed   Mentions: 2     Fields:    Translation:Animals
    10. Vocal Fold Vertical Thickness in Human Voice Production and Control: A Review. J Voice. 2023 Mar 22. Zhang Z. PMID: 36964073; PMCID: PMC10514229.
      View in: PubMed   Mentions: 4     Fields:    
    11. Effects of implant and vocal fold stiffness on voice production after medialization laryngoplasty in an MRI-based vocal fold model. J Biomech. 2023 03; 149:111483. Wu L, Zhang Z. PMID: 36787673; PMCID: PMC10368372.
      View in: PubMed   Mentions: 1     Fields:    
    12. Comparison of one-dimensional and three-dimensional glottal flow models in left-right asymmetric vocal fold conditions. J Acoust Soc Am. 2022 11; 152(5):2557. Yoshinaga T, Zhang Z, Iida A. PMID: 36456298; PMCID: PMC9629867.
      View in: PubMed   Mentions: 2     Fields:    Translation:Humans
    13. Control of Pre-phonatory Glottal Shape by Intrinsic Laryngeal Muscles. Laryngoscope. 2023 Jul; 133(7):1690-1697. Pillutla P, Reddy NK, Schlegel P, Zhang Z, Chhetri DK. PMID: 36129162; PMCID: PMC10027621.
      View in: PubMed   Mentions: 2     Fields:    Translation:Animals
    14. Oral vibratory sensations during voice production at different laryngeal and semi-occluded vocal tract configurations. J Acoust Soc Am. 2022 07; 152(1):302. Zhang Z. PMID: 35931496; PMCID: PMC9270996.
      View in: PubMed   Mentions: 2     Fields:    Translation:Humans
    15. Contribution of Undesired Medial Surface Shape to Suboptimal Voice Outcome After Medialization Laryngoplasty. J Voice. 2024 Sep; 38(5):1220-1226. Zhang Z. PMID: 35410779.
      View in: PubMed   Mentions: 2     Fields:    Translation:Humans
    16. Computational Study of the Impact of Dehydration-Induced Vocal Fold Stiffness Changes on Voice Production. J Voice. 2024 Jul; 38(4):836-843. Wu L, Zhang Z. PMID: 35260287.
      View in: PubMed   Mentions: 2     Fields:    Translation:Humans
    17. Estimating subglottal pressure and vocal fold adduction from the produced voice in a single-subject study (L). J Acoust Soc Am. 2022 02; 151(2):1337. Zhang Z. PMID: 35232110; PMCID: PMC9013286.
      View in: PubMed   Mentions: 1     Fields:    Translation:Humans
    18. Contribution of laryngeal size to differences between male and female voice production. J Acoust Soc Am. 2021 12; 150(6):4511. Zhang Z. PMID: 34972311; PMCID: PMC8716178.
      View in: PubMed   Mentions: 4     Fields:    Translation:Humans
    19. THE ROLE OF THE THYROARYTENOID MUSCLE IN REGULATING GLOTTAL AIRFLOW AND GLOTTAL CLOSURE IN AN IN VIVO CANINE LARYNX MODEL. Proc Meet Acoust. 2014 Oct; 22. Luegmair G, Chhetri DK, Zhang Z. PMID: 34900082; PMCID: PMC8656240.
      View in: PubMed   Mentions: 2  
    20. Vocal tract adjustments to minimize vocal fold contact pressure during phonation. J Acoust Soc Am. 2021 09; 150(3):1609. Zhang Z. PMID: 34598628; PMCID: PMC8425986.
      View in: PubMed   Mentions: 1     Fields:    
    21. Effects of Laryngeal Vibratory Asymmetry and Neuromuscular Compensation on Voice Quality. Laryngoscope. 2022 01; 132(1):130-134. Pillutla P, Zhang Z, Kreiman J, Wilhalme H, Chhetri DK. PMID: 34216152; PMCID: PMC8671147.
      View in: PubMed   Mentions: 1     Fields:    Translation:Animals
    22. Perceptual Evaluation of Vocal Fold Vibratory Asymmetry. Laryngoscope. 2021 12; 131(12):2740-2746. Azar SS, Pillutla P, Evans LK, Zhang Z, Kreiman J, Chhetri DK. PMID: 34106487; PMCID: PMC9476249.
      View in: PubMed   Mentions:    Fields:    Translation:HumansAnimals
    23. Computational simulations of respiratory-laryngeal interactions and their effects on lung volume termination during phonation: Considerations for hyperfunctional voice disorders. J Acoust Soc Am. 2021 06; 149(6):3988. Desjardins M, Verdolini Abbott K, Zhang Z. PMID: 34241462; PMCID: PMC8186948.
      View in: PubMed   Mentions: 8     Fields:    Translation:Humans
    24. Voice Feature Selection to Improve Performance of Machine Learning Models for Voice Production Inversion. J Voice. 2023 Jul; 37(4):479-485. Zhang Z. PMID: 33849760; PMCID: PMC8502179.
      View in: PubMed   Mentions: 2     Fields:    Translation:Humans
    25. Impact of the Paraglottic Space on Voice Production in an MRI-Based Vocal Fold Model. J Voice. 2023 Jul; 37(4):633.e15-633.e23. Wu L, Zhang Z. PMID: 33752927; PMCID: PMC8449798.
      View in: PubMed   Mentions: 4     Fields:    Translation:Humans
    26. Interaction between epilaryngeal and laryngeal adjustments in regulating vocal fold contact pressure. JASA Express Lett. 2021 Feb; 1(2):025201. Zhang Z. PMID: 33615313; PMCID: PMC7869442.
      View in: PubMed   Mentions: 8     Fields:    
    27. The Physical Aspects of Vocal Health. Acoust Today. 2021; 17(3):60-68. Zhang Z. PMID: 35035313; PMCID: PMC8758045.
      View in: PubMed   Mentions: 1  
    28. Laryngeal strategies to minimize vocal fold contact pressure and their effect on voice production. J Acoust Soc Am. 2020 08; 148(2):1039. Zhang Z. PMID: 32873018; PMCID: PMC7455307.
      View in: PubMed   Mentions: 10     Fields:    
    29. Effects of Arytenoid Adduction Suture Position on Voice Production and Quality. Laryngoscope. 2021 04; 131(4):846-852. Pillutla P, Zhang Z, Chhetri DK. PMID: 32710654; PMCID: PMC8131115.
      View in: PubMed   Mentions:    Fields:    Translation:Animals
    30. Estimation of vocal fold physiology from voice acoustics using machine learning. J Acoust Soc Am. 2020 03; 147(3):EL264. Zhang Z. PMID: 32237804; PMCID: PMC7075716.
      View in: PubMed   Mentions: 12     Fields:    Translation:Humans
    31. Three-dimensional vocal fold structural change due to implant insertion in medialization laryngoplasty. PLoS One. 2020; 15(1):e0228464. Zhang Z, Wu L, Gray R, Chhetri DK. PMID: 31999758; PMCID: PMC6991949.
      View in: PubMed   Mentions: 6     Fields:    Translation:Humans
    32. Effects of thyroplasty implant stiffness on glottal shape and voice acoustics. Laryngoscope Investig Otolaryngol. 2020 Feb; 5(1):82-89. Cameron BH, Zhang Z, Chhetri DK. PMID: 32128434; PMCID: PMC7042641.
      View in: PubMed   Mentions: 5  
    33. Voice production in a MRI-based subject-specific vocal fold model with parametrically controlled medial surface shape. J Acoust Soc Am. 2019 12; 146(6):4190. Wu L, Zhang Z. PMID: 31893687; PMCID: PMC6901357.
      View in: PubMed   Mentions: 12     Fields:    Translation:HumansAnimals
    34. Effect of changes in medial surface shape on voice production in excised human larynges. J Acoust Soc Am. 2019 11; 146(5):EL412. Zhang Z, Chhetri DK. PMID: 31795653; PMCID: PMC6840137.
      View in: PubMed   Mentions: 4     Fields:    Translation:Humans
    35. Vocal fold contact pressure in a three-dimensional body-cover phonation model. J Acoust Soc Am. 2019 07; 146(1):256. Zhang Z. PMID: 31370600; PMCID: PMC6642050.
      View in: PubMed   Mentions: 9     Fields:    Translation:Humans
    36. Vocal Fundamental Frequency and Sound Pressure Level in Charismatic Speech: A Cross-Gender and -Language Study. J Voice. 2020 Sep; 34(5):808.e1-808.e13. Signorello R, Demolin D, Henrich Bernardoni N, Gerratt BR, Zhang Z, Kreiman J. PMID: 31196689; PMCID: PMC6904528.
      View in: PubMed   Mentions:    Fields:    Translation:Humans
    37. Structural constitutive modeling of the anisotropic mechanical properties of human vocal fold lamina propria. J Acoust Soc Am. 2019 06; 145(6):EL476. Zhang Z. PMID: 31255149; PMCID: PMC6548548.
      View in: PubMed   Mentions: 3     Fields:    Translation:Humans
    38. Dynamics of Intrinsic Laryngeal Muscle Contraction. Laryngoscope. 2019 01; 129(1):E21-E25. Vahabzadeh-Hagh AM, Pillutla P, Zhang Z, Chhetri DK. PMID: 30325497; PMCID: PMC6320299.
      View in: PubMed   Mentions: 4     Fields:    Translation:Animals
    39. Vocal instabilities in a three-dimensional body-cover phonation model. J Acoust Soc Am. 2018 09; 144(3):1216. Zhang Z. PMID: 30424612; PMCID: PMC6128715.
      View in: PubMed   Mentions: 17     Fields:    Translation:Humans
    40. Hirano's cover-body model and its unique laryngeal postures revisited. Laryngoscope. 2018 06; 128(6):1412-1418. Vahabzadeh-Hagh AM, Zhang Z, Chhetri DK. PMID: 29152744; PMCID: PMC5960603.
      View in: PubMed   Mentions: 5     Fields:    Translation:HumansAnimals
    41. Compensation Strategies in Voice Production With Glottal Insufficiency. J Voice. 2019 Jan; 33(1):96-102. Zhang Z. PMID: 29129663; PMCID: PMC5943188.
      View in: PubMed   Mentions: 8     Fields:    Translation:Humans
    42. Effect of vocal fold stiffness on voice production in a three-dimensional body-cover phonation model. J Acoust Soc Am. 2017 10; 142(4):2311. Zhang Z. PMID: 29092586; PMCID: PMC5654985.
      View in: PubMed   Mentions: 26     Fields:    Translation:Humans
    43. Biaxial mechanical properties of human vocal fold cover under vocal fold elongation. J Acoust Soc Am. 2017 10; 142(4):EL356. Zhang Z, Samajder H, Long JL. PMID: 29092582; PMCID: PMC5724357.
      View in: PubMed   Mentions: 8     Fields:    Translation:Humans
    44. TOWARD REAL-TIME PHYSICALLY-BASED VOICE SIMULATION: AN EIGENMODE-BASED APPROACH. Proc Meet Acoust. 2017 Jun 25; 30(1). Zhang Z. PMID: 34925686; PMCID: PMC8682980.
      View in: PubMed   Mentions: 2  
    45. A Computational Study of Vocal Fold Dehydration During Phonation. IEEE Trans Biomed Eng. 2017 12; 64(12):2938-2948. Wu L, Zhang Z. PMID: 28391188; PMCID: PMC5718915.
      View in: PubMed   Mentions: 4     Fields:    Translation:Humans
    46. Measurement of Cough Aerodynamics in Healthy Adults. Ann Otol Rhinol Laryngol. 2017 May; 126(5):396-400. Feinstein AJ, Zhang Z, Chhetri DK, Long J. PMID: 28397558; PMCID: PMC10241208.
      View in: PubMed   Mentions: 7     Fields:    Translation:Humans
    47. Quantitative Evaluation of the In Vivo Vocal Fold Medial Surface Shape. J Voice. 2017 Jul; 31(4):513.e15-513.e23. Vahabzadeh-Hagh AM, Zhang Z, Chhetri DK. PMID: 28089390; PMCID: PMC5685162.
      View in: PubMed   Mentions: 16     Fields:    Translation:Animals
    48. Mechanics of human voice production and control. J Acoust Soc Am. 2016 Oct; 140(4):2614. Zhang Z. PMID: 27794319; PMCID: PMC5412481.
      View in: PubMed   Mentions: 90     Fields:    Translation:Humans
    49. Laryngeal muscular control of vocal fold posturing: Numerical modeling and experimental validation. J Acoust Soc Am. 2016 09; 140(3):EL280. Yin J, Zhang Z. PMID: 27914396; PMCID: PMC5384605.
      View in: PubMed   Mentions: 7     Fields:    Translation:Humans
    50. Experimental validation of a three-dimensional reduced-order continuum model of phonation. J Acoust Soc Am. 2016 08; 140(2):EL172. Farahani MH, Zhang Z. PMID: 27586776; PMCID: PMC5384606.
      View in: PubMed   Mentions: 15     Fields:    Translation:Humans
    51. A parametric vocal fold model based on magnetic resonance imaging. J Acoust Soc Am. 2016 08; 140(2):EL159. Wu L, Zhang Z. PMID: 27586774; PMCID: PMC5397093.
      View in: PubMed   Mentions: 12     Fields:    Translation:Humans
    52. Three-dimensional posture changes of the vocal fold from paired intrinsic laryngeal muscles. Laryngoscope. 2017 03; 127(3):656-664. Vahabzadeh-Hagh AM, Zhang Z, Chhetri DK. PMID: 27377032; PMCID: PMC5215989.
      View in: PubMed   Mentions: 9     Fields:    Translation:Animals
    53. Cause-effect relationship between vocal fold physiology and voice production in a three-dimensional phonation model. J Acoust Soc Am. 2016 04; 139(4):1493. Zhang Z. PMID: 27106298; PMCID: PMC4818279.
      View in: PubMed   Mentions: 54     Fields:    Translation:Humans
    54. Tissue-Engineered Vocal Fold Mucosa Implantation in Rabbits. Otolaryngol Head Neck Surg. 2016 Apr; 154(4):679-88. Shiba TL, Hardy J, Luegmair G, Zhang Z, Long JL. PMID: 26956198; PMCID: PMC10243155.
      View in: PubMed   Mentions: 14     Fields:    Translation:AnimalsCells
    55. Impact of Vocal Tract Resonance on the Perception of Voice Quality Changes Caused by Varying Vocal Fold Stiffness. Acta Acust United Acust. 2016 Mar-Apr; 102(2):209-213. Signorello R, Zhang Z, Gerratt B, Kreiman J. PMID: 27134616; PMCID: PMC4845961.
      View in: PubMed   Mentions: 4  
    56. Respiratory Laryngeal Coordination in Airflow Conservation and Reduction of Respiratory Effort of Phonation. J Voice. 2016 Nov; 30(6):760.e7-760.e13. Zhang Z. PMID: 26596845; PMCID: PMC4868806.
      View in: PubMed   Mentions: 14     Fields:    Translation:Humans
    57. Preliminary Study of the Open Quotient in an Ex Vivo Perfused Human Larynx. JAMA Otolaryngol Head Neck Surg. 2015 Aug; 141(8):751-6. Mendelsohn AH, Zhang Z, Luegmair G, Orestes M, Berke GS. PMID: 26181642; PMCID: PMC4877360.
      View in: PubMed   Mentions: 3     Fields:    Translation:Humans
    58. Effects of vocal fold epithelium removal on vibration in an excised human larynx model. J Acoust Soc Am. 2015 Jul; 138(1):EL60-4. Tse JR, Zhang Z, Long JL. PMID: 26233062; PMCID: PMC4506294.
      View in: PubMed   Mentions: 13     Fields:    Translation:Humans
    59. Regulation of glottal closure and airflow in a three-dimensional phonation model: implications for vocal intensity control. J Acoust Soc Am. 2015 Feb; 137(2):898-910. Zhang Z. PMID: 25698022; PMCID: PMC4336262.
      View in: PubMed   Mentions: 29     Fields:    Translation:Humans
    60. Effects of implant stiffness, shape, and medialization depth on the acoustic outcomes of medialization laryngoplasty. J Voice. 2015 Mar; 29(2):230-5. Zhang Z, Chhetri DK, Bergeron JL. PMID: 25499519; PMCID: PMC4361284.
      View in: PubMed   Mentions: 8     Fields:    Translation:Humans
    61. A computational study of the effect of intraglottal vortex-induced negative pressure on vocal fold vibration. J Acoust Soc Am. 2014 Nov; 136(5):EL369-75. Farahani MH, Zhang Z. PMID: 25373995; PMCID: PMC4215697.
      View in: PubMed   Mentions: 8     Fields:    Translation:Humans
    62. Interaction between the thyroarytenoid and lateral cricoarytenoid muscles in the control of vocal fold adduction and eigenfrequencies. J Biomech Eng. 2014 Nov; 136(11). Yin J, Zhang Z. PMID: 25162438; PMCID: PMC4181343.
      View in: PubMed   Mentions: 17     Fields:    
    63. In vivo vocal fold cover layer replacement. Laryngoscope. 2015 Feb; 125(2):406-11. Long J, Salinas J, Rafizadeh S, Luegmair G, Zhang Z, Chhetri D. PMID: 25215877; PMCID: PMC10317149.
      View in: PubMed   Mentions: 5     Fields:    Translation:Animals
    64. Voice outcomes following laser cordectomy for early glottic cancer: a physical model investigation. Laryngoscope. 2014 Aug; 124(8):1882-6. Mendelsohn AH, Xuan Y, Zhang Z. PMID: 24347459; PMCID: PMC4090275.
      View in: PubMed   Mentions: 3     Fields:    
    65. Influence of embedded fibers and an epithelium layer on the glottal closure pattern in a physical vocal fold model. J Speech Lang Hear Res. 2014 Apr 01; 57(2):416-25. Xuan Y, Zhang Z. PMID: 24167236; PMCID: PMC4002672.
      View in: PubMed   Mentions: 25     Fields:    Translation:Humans
    66. The influence of material anisotropy on vibration at onset in a three-dimensional vocal fold model. J Acoust Soc Am. 2014 Mar; 135(3):1480-90. Zhang Z. PMID: 24606284; PMCID: PMC3986014.
      View in: PubMed   Mentions: 9     Fields:    Translation:Humans
    67. Toward a unified theory of voice production and perception. Loquens. 2014 Jan; 1(1). Kreiman J, Gerratt BR, Garellek M, Samlan R, Zhang Z. PMID: 27135054; PMCID: PMC4847936.
      View in: PubMed   Mentions: 20  
    68. The influence of thyroarytenoid and cricothyroid muscle activation on vocal fold stiffness and eigenfrequencies. J Acoust Soc Am. 2013 May; 133(5):2972-83. Yin J, Zhang Z. PMID: 23654401; PMCID: PMC3663867.
      View in: PubMed   Mentions: 19     Fields:    Translation:Humans
    69. Neuromuscular induced phonation in a human ex vivo perfused larynx preparation. J Acoust Soc Am. 2013 Feb; 133(2):EL114-7. Berke G, Mendelsohn AH, Howard NS, Zhang Z. PMID: 23363190; PMCID: PMC3562273.
      View in: PubMed   Mentions: 9     Fields:    Translation:HumansCells
    70. Acoustic and perceptual effects of changes in body layer stiffness in symmetric and asymmetric vocal fold models. J Acoust Soc Am. 2013 Jan; 133(1):453-62. Zhang Z, Kreiman J, Gerratt BR, Garellek M. PMID: 23297917; PMCID: PMC3548838.
      View in: PubMed   Mentions: 25     Fields:    Translation:Humans
    71. Asymmetric vibration in a two-layer vocal fold model with left-right stiffness asymmetry: experiment and simulation. J Acoust Soc Am. 2012 Sep; 132(3):1626-35. Zhang Z, Luu TH. PMID: 22978891; PMCID: PMC3460984.
      View in: PubMed   Mentions: 35     Fields:    Translation:Humans
    72. Restraining mechanisms in regulating glottal closure during phonation. J Acoust Soc Am. 2011 Dec; 130(6):4010-9. Zhang Z. PMID: 22225055; PMCID: PMC3253600.
      View in: PubMed   Mentions: 24     Fields:    Translation:HumansAnimals
    73. Phonation threshold pressure and onset frequency in a two-layer physical model of the vocal folds. J Acoust Soc Am. 2011 Nov; 130(5):2961-8. Mendelsohn AH, Zhang Z. PMID: 22087924; PMCID: PMC3259665.
      View in: PubMed   Mentions: 29     Fields:    Translation:Humans
    74. On the difference between negative damping and eigenmode synchronization as two phonation onset mechanisms. J Acoust Soc Am. 2011 Apr; 129(4):2163-7. Zhang Z. PMID: 21476671; PMCID: PMC3087393.
      View in: PubMed   Mentions: 5     Fields:    Translation:Humans
    75. On the acoustical relevance of supraglottal flow structures to low-frequency voice production. J Acoust Soc Am. 2010 Dec; 128(6):EL378-83. Zhang Z, Neubauer J. PMID: 21218861; PMCID: PMC3013154.
      View in: PubMed   Mentions: 6     Fields:    Translation:Humans
    76. Vibration in a self-oscillating vocal fold model with left-right asymmetry in body-layer stiffness. J Acoust Soc Am. 2010 Nov; 128(5):EL279-85. Zhang Z. PMID: 21110539; PMCID: PMC2980549.
      View in: PubMed   Mentions: 13     Fields:    Translation:Humans
    77. Dependence of phonation threshold pressure and frequency on vocal fold geometry and biomechanics. J Acoust Soc Am. 2010 Apr; 127(4):2554-62. Zhang Z. PMID: 20370037; PMCID: PMC2865705.
      View in: PubMed   Mentions: 21     Fields:    Translation:HumansCells
    78. Functional testing of a tissue-engineered vocal fold cover replacement. Otolaryngol Head Neck Surg. 2010 Mar; 142(3):438-40. Long JL, Neubauer J, Zhang Z, Zuk P, Berke GS, Chhetri DK. PMID: 20172395.
      View in: PubMed   Mentions: 14     Fields:    Translation:Humans
    79. Measurement of Young's modulus of vocal folds by indentation. J Voice. 2011 Jan; 25(1):1-7. Chhetri DK, Zhang Z, Neubauer J. PMID: 20171829; PMCID: PMC2891297.
      View in: PubMed   Mentions: 58     Fields:    Translation:Humans
    80. Influence of vocal fold stiffness and acoustic loading on flow-induced vibration of a single-layer vocal fold model. J Sound Vib. 2009 Apr 24; 322(1-2):299-313. Zhang Z, Neubauer J, Berry DA. PMID: 20161071; PMCID: PMC2748820.
      View in: PubMed   Mentions: 24  
    81. Characteristics of phonation onset in a two-layer vocal fold model. J Acoust Soc Am. 2009 Feb; 125(2):1091-102. Zhang Z. PMID: 19206884; PMCID: PMC2677361.
      View in: PubMed   Mentions: 46     Fields:    Translation:Humans
    82. Influence of flow separation location on phonation onset. J Acoust Soc Am. 2008 Sep; 124(3):1689-94. Zhang Z. PMID: 19045659; PMCID: PMC2646589.
      View in: PubMed   Mentions: 20     Fields:    Translation:Humans
    83. Physical mechanisms of phonation onset: a linear stability analysis of an aeroelastic continuum model of phonation. J Acoust Soc Am. 2007 Oct; 122(4):2279-95. Zhang Z, Neubauer J, Berry DA. PMID: 17902864.
      View in: PubMed   Mentions: 33     Fields:    Translation:HumansCells
    84. Coherent structures of the near field flow in a self-oscillating physical model of the vocal folds. J Acoust Soc Am. 2007 Feb; 121(2):1102-18. Neubauer J, Zhang Z, Miraghaie R, Berry DA. PMID: 17348532.
      View in: PubMed   Mentions: 43     Fields:    Translation:Humans
    85. Aerodynamically and acoustically driven modes of vibration in a physical model of the vocal folds. J Acoust Soc Am. 2006 Nov; 120(5 Pt 1):2841-9. Zhang Z, Neubauer J, Berry DA. PMID: 17139742.
      View in: PubMed   Mentions: 38     Fields:    Translation:Humans
    86. Mechanisms of irregular vibration in a physical model of the vocal folds. J Acoust Soc Am. 2006 Sep; 120(3):EL36-42. Berry DA, Zhang Z, Neubauer J. PMID: 17004496.
      View in: PubMed   Mentions: 12     Fields:    Translation:Humans
    87. The influence of subglottal acoustics on laboratory models of phonation. J Acoust Soc Am. 2006 Sep; 120(3):1558-69. Zhang Z, Neubauer J, Berry DA. PMID: 17004478.
      View in: PubMed   Mentions: 73     Fields:    Translation:Humans
    88. Broadband sound generation by confined pulsating jets in a mechanical model of the human larynx. J Acoust Soc Am. 2006 Jun; 119(6):3995-4005. Zhang Z, Mongeau LG. PMID: 16838542.
      View in: PubMed   Mentions: 6     Fields:    Translation:Humans
    89. Sound generation by steady flow through glottis-shaped orifices. J Acoust Soc Am. 2004 Sep; 116(3):1720-8. Zhang Z, Mongeau L, Frankel SH, Thomson S, Park JB. PMID: 15478439.
      View in: PubMed   Mentions: 10     Fields:    Translation:Humans
    90. A vocal-tract model of American English /l/. J Acoust Soc Am. 2004 Mar; 115(3):1274-80. Zhang Z, Espy-Wilson CY. PMID: 15058349.
      View in: PubMed   Mentions: 5     Fields:    Translation:Humans
    91. Experimental verification of the quasi-steady approximation for aerodynamic sound generation by pulsating jets in tubes. J Acoust Soc Am. 2002 Oct; 112(4):1652-63. Zhang Z, Mongeau L, Frankel SH. PMID: 12398470.
      View in: PubMed   Mentions: 34     Fields:    Translation:Humans
    92. Broadband sound generation by confined turbulent jets. J Acoust Soc Am. 2002 Aug; 112(2):677-89. Zhang Z, Mongeau L, Frankel SH. PMID: 12186047.
      View in: PubMed   Mentions: 3     Fields:    Translation:HumansPHPublic Health
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