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Items: 1 to 20 of 130

1.

Characterizing vibratory kinematics in children and adults with high-speed digital imaging.

Patel R, Dubrovskiy D, Döllinger M.

J Speech Lang Hear Res. 2014 Apr 1;57(2):S674-86. doi: 10.1044/2014_JSLHR-S-12-0278.

PMID:
24686982
2.

Measurement of glottal cycle characteristics between children and adults: physiological variations.

Patel RR, Dubrovskiy D, Döllinger M.

J Voice. 2014 Jul;28(4):476-86. doi: 10.1016/j.jvoice.2013.12.010. Epub 2014 Mar 12.

3.

Pediatric high speed digital imaging of vocal fold vibration: a normative pilot study of glottal closure and phase closure characteristics.

Patel RR, Dixon A, Richmond A, Donohue KD.

Int J Pediatr Otorhinolaryngol. 2012 Jul;76(7):954-9. doi: 10.1016/j.ijporl.2012.03.004. Epub 2012 Mar 24.

4.

Objective quantification of pre- and postphonosurgery vocal fold vibratory characteristics using high-speed videoendoscopy and a harmonic waveform model.

Ikuma T, Kunduk M, McWhorter AJ.

J Speech Lang Hear Res. 2014 Jun 1;57(3):743-57. doi: 10.1044/2013_JSLHR-S-12-0202.

PMID:
24167233
5.

Spatiotemporal analysis of vocal fold vibrations between children and adults.

Döllinger M, Dubrovskiy D, Patel R.

Laryngoscope. 2012 Nov;122(11):2511-8. doi: 10.1002/lary.23568. Epub 2012 Sep 10.

6.

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. doi: 10.1016/j.jvoice.2013.07.014. Epub 2013 Nov 22.

PMID:
24275457
7.

The pitch rise paradigm: a new task for real-time endoscopy of non-stationary phonation.

Rasp O, Lohscheller J, Doellinger M, Eysholdt U, Hoppe U.

Folia Phoniatr Logop. 2006;58(3):175-85.

PMID:
16636565
8.

Laser projection imaging for measurement of pediatric voice.

Patel RR, Donohue KD, Johnson WC, Archer SM.

Laryngoscope. 2011 Nov;121(11):2411-7. doi: 10.1002/lary.22325. Epub 2011 Oct 12.

9.

In Vivo measurement of pediatric vocal fold motion using structured light laser projection.

Patel RR, Donohue KD, Lau D, Unnikrishnan H.

J Voice. 2013 Jul;27(4):463-72. doi: 10.1016/j.jvoice.2013.03.004.

10.

Automated measurement of vocal fold vibratory asymmetry from high-speed videoendoscopy recordings.

Mehta DD, Deliyski DD, Quatieri TF, Hillman RE.

J Speech Lang Hear Res. 2011 Feb;54(1):47-54. doi: 10.1044/1092-4388(2010/10-0026). Epub 2010 Aug 10.

11.

Vocal fold vibration amplitude, open quotient, speed quotient and their variability along glottal length: kymographic data from normal subjects.

Lohscheller J, Svec JG, Döllinger M.

Logoped Phoniatr Vocol. 2013 Dec;38(4):182-92. doi: 10.3109/14015439.2012.731083. Epub 2012 Nov 22.

PMID:
23173880
12.

Age- and gender-related difference of vocal fold vibration and glottal configuration in normal speakers: analysis with glottal area waveform.

Yamauchi A, Yokonishi H, Imagawa H, Sakakibara K, Nito T, Tayama N, Yamasoba T.

J Voice. 2014 Sep;28(5):525-31. doi: 10.1016/j.jvoice.2014.01.016. Epub 2014 May 16.

PMID:
24836359
13.

Optimized transformation of the glottal motion into a mechanical model.

Triep M, Brücker C, Stingl M, Döllinger M.

Med Eng Phys. 2011 Mar;33(2):210-7. doi: 10.1016/j.medengphy.2010.09.019. Epub 2010 Nov 5.

PMID:
21115384
14.

Voice production mechanisms following phonosurgical treatment of early glottic cancer.

Mehta DD, Deliyski DD, Zeitels SM, Quatieri TF, Hillman RE.

Ann Otol Rhinol Laryngol. 2010 Jan;119(1):1-9.

15.

Vocal fold vibrations: high-speed imaging, kymography, and acoustic analysis: a preliminary report.

Larsson H, Hertegård S, Lindestad PA, Hammarberg B.

Laryngoscope. 2000 Dec;110(12):2117-22.

PMID:
11129033
16.

[Relation between voice quality and pathological vibratory patterns using high-speed digital imaging].

Miyaji M, Iwamoto Y, Oda M, Niimi S.

Nihon Jibiinkoka Gakkai Kaiho. 1999 Mar;102(3):354-67. Japanese.

PMID:
10226472
17.

Development of a glottal area index that integrates glottal gap size and open quotient.

Chen G, Kreiman J, Gerratt BR, Neubauer J, Shue YL, Alwan A.

J Acoust Soc Am. 2013 Mar;133(3):1656-66. doi: 10.1121/1.4789931.

18.

A computational study of the effect of false vocal folds on glottal flow and vocal fold vibration during phonation.

Zheng X, Bielamowicz S, Luo H, Mittal R.

Ann Biomed Eng. 2009 Mar;37(3):625-42. doi: 10.1007/s10439-008-9630-9. Epub 2009 Jan 14.

19.

Evaluation of vocal fold vibration with an assessment form for high-speed digital imaging: comparative study between healthy young and elderly subjects.

Yamauchi A, Imagawa H, Yokonishi H, Nito T, Yamasoba T, Goto T, Takano S, Sakakibara K, Tayama N.

J Voice. 2012 Nov;26(6):742-50. doi: 10.1016/j.jvoice.2011.12.010. Epub 2012 Apr 20.

PMID:
22521532
20.

Vocal fold vibration patterns and modes of phonation.

Sundberg J.

Folia Phoniatr Logop. 1995;47(4):218-28.

PMID:
7670555
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