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KMID : 1036820210260040921
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Communication Sciences & Disorders
2021 Volume.26 No. 4 p.921 ~ p.932
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Vocal Fold Vibration Characteristics during SOVTE using a Vibration Simulator and Digital Kymography
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Kim Ji-Sung
Choi Seong-Hee
Lee Kyung-Jae
Choi Chul-Hee
Wang Soo-Geun
Lee Dong-Wook
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Abstract
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Objectives: The purpose of this study is to investigate the characteristics of vocal fold vibration during sustained vowel /a/ phonation and various semi-occluded vocal tract exercise (SOVTEs) using a vibration simulator and digital kymography (DKG).
Methods: A total of 12 normal young speakers (6 males, 6 females) aged 20-30 years participated in the study. They phonated a sustained /a/ vowel and performed SOVTE. The vocal fold vibration characteristics were measured according to the number of vibration sources (single vs. double), and vocal tract occlusion degree using a vibration simulator and DKG. Glottal gap quotient (GQ, %), speed quotient (SQ, %) and amplitude (pixel) were estimated quantitatively from the DKG image.
Results: The results showed that significantly higher GQ (p= .000) and SQ (p= .000) were observed in the humming and bilabial fricative /¥â/ compared to open vowels. The amplitude was significantly higher in the open vowel /a/ than in humming (p= .018) and bilabial fricative /¥â/ (p= .003). Also, when comparing the vocal fold vibration parameters according to vibration type (single source: straw phonation vs. double source: straw phonation with water), the double source presented a significantly higher GQ (p= .000) as well as SQ (p= .008) in comparison with a single source.
Conclusion: SOVTE showed a glottal gap that is different from the opened vowel /a/. It also had a longer opening of the vocal fold and a smaller amplitude than the vowel. This suggests that SOVTE may be helpful for facilitating vocal fold vibration and good voice quality in clinical practice. The current study can be meaningful in providing theoretical and clinical evidence for SOVTE.
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KEYWORD
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SOVTE, 2D DKG, Vibration simulator, Vocal fold vibration
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