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Pubmed for Handhelds

PUBMED FOR HANDHELDS

Journal Abstract Search

196 related items for PubMed ID: 21877808

  • 1. Computation of physiological human vocal fold parameters by mathematical optimization of a biomechanical model.
    Yang A, Stingl M, Berry DA, Lohscheller J, Voigt D, Eysholdt U, Dollinger M.
    J Acoust Soc Am; 2011 Aug; 130(2):948-64. PubMed ID: 21877808
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  • 2. Three-dimensional biomechanical properties of human vocal folds: parameter optimization of a numerical model to match in vitro dynamics.
    Yang A, Berry DA, Kaltenbacher M, Döllinger M.
    J Acoust Soc Am; 2012 Feb; 131(2):1378-90. PubMed ID: 22352511
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  • 3. Vibration parameter extraction from endoscopic image series of the vocal folds.
    Döllinger M, Hoppe U, Hettlich F, Lohscheller J, Schuberth S, Eysholdt U.
    IEEE Trans Biomed Eng; 2002 Aug; 49(8):773-81. PubMed ID: 12148815
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  • 4. Biomechanical simulation of vocal fold dynamics in adults based on laryngeal high-speed videoendoscopy.
    Döllinger M, Gómez P, Patel RR, Alexiou C, Bohr C, Schützenberger A.
    PLoS One; 2017 Aug; 12(11):e0187486. PubMed ID: 29121085
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  • 5. A generalized procedure for analyzing sustained and dynamic vocal fold vibrations from laryngeal high-speed videos using phonovibrograms.
    Unger J, Schuster M, Hecker DJ, Schick B, Lohscheller J.
    Artif Intell Med; 2016 Jan; 66():15-28. PubMed ID: 26597002
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  • 8. Vibratory Onset of Adductor Spasmodic Dysphonia and Muscle Tension Dysphonia: A High-Speed Video Study✰.
    Chen W, Woo P, Murry T.
    J Voice; 2020 Jul; 34(4):598-603. PubMed ID: 30595236
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  • 11. Graphical evaluation of vocal fold vibratory patterns by high-speed videolaryngoscopy.
    Pinheiro AP, Dajer ME, Hachiya A, Montagnoli AN, Tsuji D.
    J Voice; 2014 Jan; 28(1):106-11. PubMed ID: 24275457
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  • 12. Effects of Volume, Pitch, and Phonation Type on Oscillation Initiation and Termination Phases Investigated With High-speed Videoendoscopy.
    Kunduk M, Ikuma T, Blouin DC, McWhorter AJ.
    J Voice; 2017 May; 31(3):313-322. PubMed ID: 27671752
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  • 13. A portable high-speed camera system for vocal fold examinations.
    Hertegård S, Larsson H.
    J Voice; 2014 Nov; 28(6):681-7. PubMed ID: 25008381
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  • 14. Optical reconstruction of high-speed surface dynamics in an uncontrollable environment.
    Luegmair G, Kniesburges S, Zimmermann M, Sutor A, Eysholdt U, Döllinger M.
    IEEE Trans Med Imaging; 2010 Dec; 29(12):1979-91. PubMed ID: 21118756
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  • 15. Real-time Simultaneous DKG and 2D DKG Using High-speed Digital Camera.
    Kang DH, Wang SG, Park HJ, Lee JC, Jeon GR, Choi IS, Kim SJ, Shin BJ.
    J Voice; 2017 Mar; 31(2):247.e1-247.e7. PubMed ID: 27839706
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  • 17. Analysis of longitudinal phase differences in vocal-fold vibration using synchronous high-speed videoendoscopy and electroglottography.
    Orlikoff RF, Golla ME, Deliyski DD.
    J Voice; 2012 Nov; 26(6):816.e13-20. PubMed ID: 23059188
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  • 18. Analysis of vocal fold function from acoustic data simultaneously recorded with high-speed endoscopy.
    Döllinger M, Kunduk M, Kaltenbacher M, Vondenhoff S, Ziethe A, Eysholdt U, Bohr C.
    J Voice; 2012 Nov; 26(6):726-33. PubMed ID: 22632795
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  • 19. Relationship Between the Electroglottographic Signal and Vocal Fold Contact Area.
    Hampala V, Garcia M, Švec JG, Scherer RC, Herbst CT.
    J Voice; 2016 Mar; 30(2):161-71. PubMed ID: 26256493
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  • 20. Electrically conductive synthetic vocal fold replicas for voice production research.
    Syndergaard KL, Dushku S, Thomson SL.
    J Acoust Soc Am; 2017 Jul; 142(1):EL63. PubMed ID: 28764459
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