http://orcid.org/0000-0001-5571-464X
References
- de Paula Bolzan G, Cielo CA, Brum D. Efeitos do som basal em fendas glóticas. Rev CEFAC 2008;10:218–25.
- Colton R, Casper J. Understanding Voice Problems. A physiological perspective for diagnosis and treatment. Baltimore, Maryland: Williams & Wilkins; 1990.
- Eskenazi L, Childers DG, Hicks DM. Acoustic correlates of vocal quality. J Speech Hear Res 1990;33:298–306.
- Wolfe V, Cornell R, Palmer C. Acoustic correlates of pathologic voice types. J Speech Hear Res 1991;34:509–16.
- Hollien H, Moore P, Wendahl R, Michel J. On the nature of vocal fry. J Speech Hear Res 1966;9:245–7.
- Abdelli-Beruh N, Wolk L, Slavin D. Prevalence of vocal fry in young adult male American English speakers. J Voice 2014;28:185–90.
- Wolk L, Abdelli-Beruh N, Slavin D. Habitual use of vocal fry in young adult female speakers. J Voice 2012;26:e111–e6.
- Oliveira G, Davidson A, Holczer R, et al. A comparison of the use of glottal fry in the spontaneous speech of young and middle-aged American women. J Voice 2016;30:684–7.
- Cielo CA, Elias VS, Brum DM, Ferreira FV. Thyroarytenoid muscle and vocal fry: a literature review. Rev Soc Bras Fonoaudiol 2011;16:362–9.
- Hollien H, Michel J. Vocal fry as a phonational register. J Speech Hear Res 1968;11:600–4.
- Laver J. Individual features in voice quality [Unpublished doctoral dissertation]. Scotland: University of Edinburgh; 1975.
- McGlone R, Shipp T. Some physiologic correlates of vocal-fry phonation. J Speech Hear Res 1971;14:769–75.
- Titze I. Definitions and nomenclature related to voice quality. In: Fujimura O, Hirano M, eds. Vocal fold physiology: voice quality control. San Diego, CA: Singular Publishing Group; 1995. p. 335–42.
- Michel J. Fundamental frequency investigation of vocal fry and harshness. J Speech Hear Res 1968;11:590–4.
- Redi L, Shattuck-Hufnagel S. Variation in the realization of glottalization in normal speakers. J Phon 2001;29:407–29.
- Garellek M. Perception of glottalization and phrase-final creak. J Acoust Soc Am 2015;137:822–31.
- Henton C, Bladon A. Creak as a sociophonetic marker. In: Hyman L, Li C, eds. Language, speech and mind: studies in honour of Victoria A. Fromkin. London: Routledge; 1988.
- Souza C, Carvalho F, Araújo T, et al. Fatores associados a patologias de pregas vocais em professores. Revista De Saúde Pública 2011;45:914–21.
- Pérez Fernández C, Preciado López J. Nódulos de cuerdas vocales. Factores de riesgo en los docentes. Estudio de casos y controles. Acta Otorrinolaringol Esp 2003;54:253–60.
- Kooijman P, De Jong F, Thomas G, et al. Risk factors for voice problems in teachers. Folia Phoniatr Logop 2006;58:159–74.
- Yiu E. Impact and prevention of voice problems in the teaching profession: embracing the consumers’ view. J Voice 2002;16:215–28.
- Miller M, Verdolini K. Frequency and risk factors for voice problems in teachers of singing and control subjects. J Voice 1995;9:348–62.
- Chen S, Chiang S, Chung Y, et al. Risk factors and effects of voice problems for teachers. J Voice 2010;24:183–92.
- Fairbanks G. The Rainbow passage. In: Fairbanks G, ed. Voice and articulation drillbook. New York: Harper & Row; 1960. p. 127.
- Maldonado G, Greenland S. Simulation Study of Confounder-Selection Strategies. Am J Epidemiol 1993;138:923–36.
- Södersten M, Ternström S, Bohman M. Loud speech in realistic environmental noise: phonetogram data, perceptual voice quality, subjective ratings, and gender differences in healthy speakers. J Voice 2005;19:29–46.
- Lane H, Tranel B. The lombard sign and the role of hearing in speech. J Speech Lang Hear Res 1971;14:677–709.
- Murry T. Subglottal pressure and airflow measures during vocal fry phonation. J Speech Hear Res 1971;14:544–51.
- Akhtar S, Wood G, Rubin J, et al. Effect of caffeine on the vocal folds: a pilot study. J Laryngol Otol 1999;113:341–5.
- Pimenta R, Dajer M, Hachiya A, et al. Parameters acoustic and high-speed kymography identified effects of voiced vibration and vocal fry exercises. CoDAS 2013;25:577–83.
- Stepp CE, Merchant GR, Heaton JT, Hillman RE. Effects of voice therapy on relative fundamental frequency during voicing offset and onset in patients with vocal hyperfunction. J Speech Lang Hear Res 2011;54:1260–6.
- Halpern AE, Spielman JL, Hunter EJ, Titze IR. The inability to produce soft voice (IPSV): a tool to detect vocal change in school-teachers. Logoped Phoniatr Vocol 2009;34:117–27.
- Akhtar S, Wood G, Rubin J, et al. Effect of caffeine on the vocal folds: a pilot study. J Laryngol Otol 1999;113:341–5.
- Nawrot P, Jordan S, Eastwood J, et al. Effects of caffeine on human health. Food Addit Contam 2003;20:1–30.
- Elias V, Cielo C, Jotz G, Christmann M. Effect of vocal fry on voice and on velopharyngeal sphincter. Int Arch Otorhinolaryngol 2016;20:156–62.
- Appleman R, Bunch M. Application of vocal fry to the training of singers. J Sing 2005;62:53–9.
- Holmberg E, Oates J, Dacakis G, Grant C. Phonetograms, aerodynamic measurements, self-evaluations, and auditory perceptual ratings of male-to-female transsexual voice. J Voice 2010;24:511–22.
- Kreiman J, Gerratt B. Sources of listener disagreement in voice quality assessment. J Acoust Soc Am 2000;108:1867–76.
- Kreiman J, Gerratt B, Ito M. When and why listeners disagree in voice quality assessment tasks. J Acoust Soc Am 2007;122:2354–64.
- Drugman T, Kane J, Gobl C. Data-driven detection and analysis of the patterns of creaky voice. Comput Speech Lang 2014;28:1233–53.
- Ishi CT, Sakakibara K-I, Ishiguro H, Hagita N. A method for automatic detection of vocal fry. IEEE Trans Audio Speech Lang Process 2008;16:47–56.