Computerized Tomography Measures During and After Artificial Lengthening of the Vocal Tract in Subjects With Voice Disorders

The present study aimed to observe the effect of two types of tubes on vocal tract bidimensional and tridimensional images. Ten participants with hyperfunctional dysphonia were included. Computerized tomography was performed during production of sustained [a:], followed by sustained phonation into a...

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Published in	Journal of voice Vol. 31; no. 1; pp. 124.e1 - 124.e10
Main Authors	Guzman, Marco, Miranda, Gonzalo, Olavarria, Christian, Madrid, Sofia, Muñoz, Daniel, Leiva, Miguel, Lopez, Lorena, Bortnem, Cori
Format	Journal Article
Language	English
Published	United States Elsevier Inc 01.01.2017 Elsevier Science Ltd
Subjects	Adult Air flow Biomechanical Phenomena Dysphonia Dysphonia - diagnostic imaging Dysphonia - physiopathology Dysphonia - therapy Equipment Design Female functional dysphonia Humans Laryngology Laryngoscopy Larynx - diagnostic imaging Larynx - physiopathology Male Otolaryngology Pharyngeal structures Pharynx - diagnostic imaging Pharynx - physiopathology Phonation Phonation structures Predictive Value of Tests semi-occluded exercises Tomography, X-Ray Computed tube phonation Vibration Vocal tract Voice Voice disorders voice therapy Voice Training Young Adult semi-occluded exercises functional dysphonia vocal tract tube phonation voice therapy
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ISSN	0892-1997 1873-4588 1873-4588
DOI	10.1016/j.jvoice.2016.01.003

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Abstract	The present study aimed to observe the effect of two types of tubes on vocal tract bidimensional and tridimensional images. Ten participants with hyperfunctional dysphonia were included. Computerized tomography was performed during production of sustained [a:], followed by sustained phonation into a drinking straw, and then repetition of sustained [a:]. A similar procedure was performed with a stirring straw after 15 minutes of vocal rest. Anatomic distances and area measures were obtained from computerized tomography midsagittal and transversal images. Vocal tract total volume was also calculated. During tube phonation, increases were measured in the vertical length of the vocal tract, oropharyngeal area, hypopharyngeal area, outlet of the epilaryngeal tube, and inlet to the lower pharynx. Also, the larynx was lower, and more closure was noted between the velum and the nasal passage. Tube phonation causes an increased total vocal tract volume, mostly because of the increased cross-sectional areas in the pharyngeal region. This change is more prominent when the tube offers more airflow resistance (stirring straw) compared with less airflow resistance (drinking straw). Based on our data and previous studies, it seems that vocal tract changes are not dependent on the voice condition (vocally trained, untrained, or disordered voices), but on the exercise itself and the type of instructions given to subjects. Tube phonation is a good option to reach therapeutic goals (eg, wide pharynx and low larynx) without giving biomechanical instructions, but only asking patients to feel easy voice and vibratory sensations.
AbstractList	The present study aimed to observe the effect of two types of tubes on vocal tract bidimensional and tridimensional images. Ten participants with hyperfunctional dysphonia were included. Computerized tomography was performed during production of sustained [a:], followed by sustained phonation into a drinking straw, and then repetition of sustained [a:]. A similar procedure was performed with a stirring straw after 15 minutes of vocal rest. Anatomic distances and area measures were obtained from computerized tomography midsagittal and transversal images. Vocal tract total volume was also calculated. During tube phonation, increases were measured in the vertical length of the vocal tract, oropharyngeal area, hypopharyngeal area, outlet of the epilaryngeal tube, and inlet to the lower pharynx. Also, the larynx was lower, and more closure was noted between the velum and the nasal passage. Tube phonation causes an increased total vocal tract volume, mostly because of the increased cross-sectional areas in the pharyngeal region. This change is more prominent when the tube offers more airflow resistance (stirring straw) compared with less airflow resistance (drinking straw). Based on our data and previous studies, it seems that vocal tract changes are not dependent on the voice condition (vocally trained, untrained, or disordered voices), but on the exercise itself and the type of instructions given to subjects. Tube phonation is a good option to reach therapeutic goals (eg, wide pharynx and low larynx) without giving biomechanical instructions, but only asking patients to feel easy voice and vibratory sensations. The present study aimed to observe the effect of two types of tubes on vocal tract bidimensional and tridimensional images.PURPOSEThe present study aimed to observe the effect of two types of tubes on vocal tract bidimensional and tridimensional images.Ten participants with hyperfunctional dysphonia were included. Computerized tomography was performed during production of sustained [a:], followed by sustained phonation into a drinking straw, and then repetition of sustained [a:]. A similar procedure was performed with a stirring straw after 15 minutes of vocal rest. Anatomic distances and area measures were obtained from computerized tomography midsagittal and transversal images. Vocal tract total volume was also calculated.METHODSTen participants with hyperfunctional dysphonia were included. Computerized tomography was performed during production of sustained [a:], followed by sustained phonation into a drinking straw, and then repetition of sustained [a:]. A similar procedure was performed with a stirring straw after 15 minutes of vocal rest. Anatomic distances and area measures were obtained from computerized tomography midsagittal and transversal images. Vocal tract total volume was also calculated.During tube phonation, increases were measured in the vertical length of the vocal tract, oropharyngeal area, hypopharyngeal area, outlet of the epilaryngeal tube, and inlet to the lower pharynx. Also, the larynx was lower, and more closure was noted between the velum and the nasal passage.RESULTSDuring tube phonation, increases were measured in the vertical length of the vocal tract, oropharyngeal area, hypopharyngeal area, outlet of the epilaryngeal tube, and inlet to the lower pharynx. Also, the larynx was lower, and more closure was noted between the velum and the nasal passage.Tube phonation causes an increased total vocal tract volume, mostly because of the increased cross-sectional areas in the pharyngeal region. This change is more prominent when the tube offers more airflow resistance (stirring straw) compared with less airflow resistance (drinking straw). Based on our data and previous studies, it seems that vocal tract changes are not dependent on the voice condition (vocally trained, untrained, or disordered voices), but on the exercise itself and the type of instructions given to subjects. Tube phonation is a good option to reach therapeutic goals (eg, wide pharynx and low larynx) without giving biomechanical instructions, but only asking patients to feel easy voice and vibratory sensations.CONCLUSIONTube phonation causes an increased total vocal tract volume, mostly because of the increased cross-sectional areas in the pharyngeal region. This change is more prominent when the tube offers more airflow resistance (stirring straw) compared with less airflow resistance (drinking straw). Based on our data and previous studies, it seems that vocal tract changes are not dependent on the voice condition (vocally trained, untrained, or disordered voices), but on the exercise itself and the type of instructions given to subjects. Tube phonation is a good option to reach therapeutic goals (eg, wide pharynx and low larynx) without giving biomechanical instructions, but only asking patients to feel easy voice and vibratory sensations. The present study aimed to observe the effect of two types of tubes on vocal tract bidimensional and tridimensional images. Ten participants with hyperfunctional dysphonia were included. Computerized tomography was performed during production of sustained [a:], followed by sustained phonation into a drinking straw, and then repetition of sustained [a:]. A similar procedure was performed with a stirring straw after 15 minutes of vocal rest. Anatomic distances and area measures were obtained from computerized tomography midsagittal and transversal images. Vocal tract total volume was also calculated. During tube phonation, increases were measured in the vertical length of the vocal tract, oropharyngeal area, hypopharyngeal area, outlet of the epilaryngeal tube, and inlet to the lower pharynx. Also, the larynx was lower, and more closure was noted between the velum and the nasal passage. Tube phonation causes an increased total vocal tract volume, mostly because of the increased cross-sectional areas in the pharyngeal region. This change is more prominent when the tube offers more airflow resistance (stirring straw) compared with less airflow resistance (drinking straw). Based on our data and previous studies, it seems that vocal tract changes are not dependent on the voice condition (vocally trained, untrained, or disordered voices), but on the exercise itself and the type of instructions given to subjects. Tube phonation is a good option to reach therapeutic goals (eg, wide pharynx and low larynx) without giving biomechanical instructions, but only asking patients to feel easy voice and vibratory sensations. Summary Purpose The present study aimed to observe the effect of two types of tubes on vocal tract bidimensional and tridimensional images. Methods Ten participants with hyperfunctional dysphonia were included. Computerized tomography was performed during production of sustained [a:], followed by sustained phonation into a drinking straw, and then repetition of sustained [a:]. A similar procedure was performed with a stirring straw after 15 minutes of vocal rest. Anatomic distances and area measures were obtained from computerized tomography midsagittal and transversal images. Vocal tract total volume was also calculated. Results During tube phonation, increases were measured in the vertical length of the vocal tract, oropharyngeal area, hypopharyngeal area, outlet of the epilaryngeal tube, and inlet to the lower pharynx. Also, the larynx was lower, and more closure was noted between the velum and the nasal passage. Conclusion Tube phonation causes an increased total vocal tract volume, mostly because of the increased cross-sectional areas in the pharyngeal region. This change is more prominent when the tube offers more airflow resistance (stirring straw) compared with less airflow resistance (drinking straw). Based on our data and previous studies, it seems that vocal tract changes are not dependent on the voice condition (vocally trained, untrained, or disordered voices), but on the exercise itself and the type of instructions given to subjects. Tube phonation is a good option to reach therapeutic goals (eg, wide pharynx and low larynx) without giving biomechanical instructions, but only asking patients to feel easy voice and vibratory sensations.
Author	Olavarria, Christian Lopez, Lorena Bortnem, Cori Miranda, Gonzalo Guzman, Marco Leiva, Miguel Madrid, Sofia Muñoz, Daniel
Author_xml	– sequence: 1 givenname: Marco surname: Guzman fullname: Guzman, Marco email: guzmann.marcoa@gmail.com organization: Department of Communication Sciences, University of Chile. Santiago, Chile – sequence: 2 givenname: Gonzalo surname: Miranda fullname: Miranda, Gonzalo organization: Department of Radiology, University of Chile Hospital, Santiago, Chile – sequence: 3 givenname: Christian surname: Olavarria fullname: Olavarria, Christian organization: Department of Otolaryngology, University of Chile Hospital, Santiago, Chile – sequence: 4 givenname: Sofia surname: Madrid fullname: Madrid, Sofia organization: Department of Communication Sciences, University of Chile. Santiago, Chile – sequence: 5 givenname: Daniel surname: Muñoz fullname: Muñoz, Daniel organization: Department of Otolaryngology, University of Chile, Santiago, Chile – sequence: 6 givenname: Miguel surname: Leiva fullname: Leiva, Miguel organization: Department of Otolaryngology, University of Chile Hospital, Santiago, Chile – sequence: 7 givenname: Lorena surname: Lopez fullname: Lopez, Lorena organization: Department of Radiology, University of Chile Hospital, Santiago, Chile – sequence: 8 givenname: Cori surname: Bortnem fullname: Bortnem, Cori organization: Department of Communication Sciences, University of Chile. Santiago, Chile
BackLink	https://www.ncbi.nlm.nih.gov/pubmed/26852823$$D View this record in MEDLINE/PubMed
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Keywords	semi-occluded exercises functional dysphonia vocal tract tube phonation voice therapy
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Snippet	The present study aimed to observe the effect of two types of tubes on vocal tract bidimensional and tridimensional images. Ten participants with... Summary Purpose The present study aimed to observe the effect of two types of tubes on vocal tract bidimensional and tridimensional images. Methods Ten... The present study aimed to observe the effect of two types of tubes on vocal tract bidimensional and tridimensional images. Ten participants with... The present study aimed to observe the effect of two types of tubes on vocal tract bidimensional and tridimensional images.PURPOSEThe present study aimed to...
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SubjectTerms	Adult Air flow Biomechanical Phenomena Dysphonia Dysphonia - diagnostic imaging Dysphonia - physiopathology Dysphonia - therapy Equipment Design Female functional dysphonia Humans Laryngology Laryngoscopy Larynx - diagnostic imaging Larynx - physiopathology Male Otolaryngology Pharyngeal structures Pharynx - diagnostic imaging Pharynx - physiopathology Phonation Phonation structures Predictive Value of Tests semi-occluded exercises Tomography, X-Ray Computed tube phonation Vibration Vocal tract Voice Voice disorders voice therapy Voice Training Young Adult
Title	Computerized Tomography Measures During and After Artificial Lengthening of the Vocal Tract in Subjects With Voice Disorders
URI	https://www.clinicalkey.com/#!/content/1-s2.0-S0892199716000096 https://www.clinicalkey.es/playcontent/1-s2.0-S0892199716000096 https://dx.doi.org/10.1016/j.jvoice.2016.01.003 https://www.ncbi.nlm.nih.gov/pubmed/26852823 https://www.proquest.com/docview/1879487407 https://www.proquest.com/docview/1826652928
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