Abstract
To investigate the correlation among velopharyngeal closure, hypernasality, audible nasal air emission (NAE) and nasal rustle (NR), in individuals with repaired cleft palate. One hundred patients with repaired cleft palate and lip, submitted to pressure-flow study for measurement of velopharyngeal orifice area (velopharyngeal area) and speech sample recordings. Velopharyngeal area was estimated during the production of the sound /p/ inserted in a sentence, and the velopharyngeal closure was classified as adequate, borderline or inadequate. Hypernasality was rated using a 4-point scale, NAE and NR were rated as absent or present, by three speech language pathologists, using recorded speech samples. Inter and intra-judge agreements were established. Statistical analysis was performed using the Spearman correlation coefficient considering p<0.05. An ordinal logistic regression model was developed to investigate whether the characteristics of speech can predict velopharyngeal closure. For this, the speech samples included in this analysis were those that obtained 100% agreement among raters as to the degree of hypernasality (43 out of 100). Significant correlation was found between hypernasality and velopharyngeal area; audible NAE and velopharyngeal area. A negative correlation was observed between the NR and velopharyngeal area. The regression analysis showed that the perceptual speech characteristics contributed significantly to predict the velopharyngeal closure. There is significant correlation between velopharyngeal closure and hypernasality, NAE and NR. It suggests that the perceptual speech characteristics can predict velopharyngeal closure, favoring the diagnosis and the definition of treatment conduct of velopharyngeal dysfunction.
Highlights
Most speech disorders observed in individuals with repaired cleft palate are directly or indirectly related to velopharyngeal dysfunction (VPD)
The agreement between the raters in the analysis of the 100 speech samples was moderate for hypernasality (0.41) and audible nasal air emission (NAE) (0.59), and substantial for nasal rustle (NR) (0.72)
These results corroborate the findings of authors who verified that the characteristics of hypernasality can predict the velopharyngeal gap size in cases of small and large gaps assessed by nasendoscopy[3]
Summary
Most speech disorders observed in individuals with repaired cleft palate are directly or indirectly related to velopharyngeal dysfunction (VPD). Symptoms such as hypernasality, nasal air emission (NAE) (audible or not), and weak intraoral pressure are direct consequences of the failure of velopharyngeal closure. The velopharyngeal function is classified based on the quality of resonance, assessed by the auditory‐perceptual assessment and by the direct observation of velopharyngeal structures using methods such as nasendoscopy and videofluoroscopy[8]. Indirect methods, such as aerodynamic evaluations, provide quantitative data and, objective information about the velopharyngeal function. The pressure‐flow technique in particular allows to determine the velopharyngeal closure by measuring the area of the velopharyngeal orifice
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