Abstract
To evaluate and correlate the amplitude of esophageal contractions triggered by swallowing water with dynamic extension and habitual, strong and weak sound intensity in total laryngectomees wearing a tracheoesophageal prosthesis. Thirty total laryngectomees using tracheoesophageal voice with a phonatory prosthesis were evaluated by measuring the amplitude of contractions in the proximal, middle and distal esophagus and the pressure of the pharyngoesophageal transition by manometry. In order to measure vocal intensity the subject was asked to emit phonation of the vowel /a/ at habitual, strong and weak intensity which was captured with a sound pressure meter. Dynamic extension was calculated by subtracting strong intensity from weak intensity. A positive correlation was observed between contraction amplitude and dynamic extension in the proximal (rho: 0.45; p=0.01) and distal (rho: 0.41; p=0.02) esophagus There was no correlation with other parameters.. Total laryngectomees wearing a phonatory prosthesis with a dynamic extension above 21 dBNPS had greater contraction amplitude than laryngectomees with a dynamic extension below this value. There was a positive correlation between pressure amplitude in the proximal and distal esophagus and increased dynamic extension. The individuals with normal dynamic extension had greater contraction amplitude in the proximal esophagus than individuals with dynamic extension lower than the expected values for age.
Highlights
Since it was first described by Singer and Blom in 19801, voice rehabilitation for total laryngectomees with a tracheoesophageal prosthesis (TEP) has proved to be an excellent option for the patients
Characteristics of tracheoesophageal voice and speech such as vocal intensity and dynamic extension have been studied in association with overall voice analysis, with different aerodynamic characteristics being tested for the various models of prostheses available[2,3,4,5,6,7]
There still is a lack of studies regarding the physiology of sound intensity and of dynamic extension for total laryngectomees since a lot remains to be determined about the production of tracheoesophageal voice, such as rhythm, modulation and characteristics of phonation intensity
Summary
Since it was first described by Singer and Blom in 19801, voice rehabilitation for total laryngectomees with a tracheoesophageal prosthesis (TEP) has proved to be an excellent option for the patients.Characteristics of tracheoesophageal voice and speech such as vocal intensity and dynamic extension have been studied in association with overall voice analysis, with different aerodynamic characteristics being tested for the various models of prostheses available[2,3,4,5,6,7]. There still is a lack of studies regarding the physiology of sound intensity and of dynamic extension for total laryngectomees since a lot remains to be determined about the production of tracheoesophageal voice, such as rhythm, modulation and characteristics of phonation intensity. Parameters such as loudness and pitch are often limited in laryngectomees, with consequences for the measurement of dynamic extension and fundamental frequency[8]. The regulation of intensity during tracheoesophageal phonation seems to be influenced by occlusion of the stoma and by the characteristics of the phonatory prosthesis and of the esophagus, with the main advantage of a voice produced with a TEP compared to esophageal voice being that the lungs are the motor force for voice production[9,10,11,12]
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