Effects of Minerva Orthosis on Larynx Height in Young, Healthy Volunteers.

BACKGROUND: During speech, larynx is higher in the neck for high-pitched sounds and lower for low-pitched sounds. Patients with different problems in cervical and cervicothoracic spine use cervical orthosis to limit cervical motion. This study aimed to evaluate the effects of Minerva orthosis on larynx height in young, healthy volunteers. SUBJECTS AND METHODS: This study included 18 subjects. Acoustic measurement of frequency variability has been assessed in 3 brace conditions: (1) without brace, (2) with brace, and (3) 30 minutes after wearing the brace. RESULTS: Several statistically significant differences were found in the comparison between Minerva and 30 minutes after Minerva. CONCLUSION: When planning cervical orthosis treatment, it is important to consider the reduction in larynx height that may result from bracing for those who are already at risk of developing dysphagia and dysphonia.

Design and Implementation of a Tactile Stimulation Device to Increase Auditory Discrimination.

Reading is a complex process that requires various simultaneous brain processes. One of the most common types of reading disorders is developmental dyslexia, and one of the objectives of speech therapy sessions for children with developmental dyslexia is to increase their auditory discrimination. One of the most commonly used Auditory Discrimination Tests (ADTs) is Wepman's  Auditory Discrimination Test (WADT). It includes minimal pair words categorized by characteristics of vowels and consonants. The goal of this research is to design and implement a tactile stimulation device based on Wepman's test to increase auditory discrimination in children with developmental dyslexia in therapy sessions, so that while playing each word for the children, vibrational cues are presented to their left palm and fingers. The vibrational cues provided by 23 vibration motors can notify the child of the difference or similarity between the words. First, the device was evaluated by being applied on six female participants aged 6 to 8 with no hearing disabilities and no developmental dyslexia. Scores obtained from the healthy children showed that they can perceive the tactile function of the device. Then, function of the device was tested on 8-year-old twin girls with developmental dyslexia. The test was conducted as a controlled experiment. One of the twins participated in speech therapy treatment, while the other practiced with the device. During the study, three sessions were allocated to determine the baseline of auditory discrimination, three sessions to the intervention, and two sessions (the first, one week and the second, three weeks after the intervention sessions) to determine the children's auditory discrimination (follow-up). The analysis of trend variations and changes in mean showed that both the speech therapy and the intervention based on practicing with the device were effective in increasing children's auditory discrimination (Percentage of Non-overlapping Data = 100%). The results were stable three weeks after the intervention sessions. Therefore, using the device in speech therapy sessions can be useful and effective in improving auditory discrimination.

Automatic identification of hypernasality in normal and cleft lip and palate patients with acoustic analysis of speech.

Hypernasality is seen in cleft lip and palate patients who had undergone repair surgery as a consequence of velopharyngeal insufficiency. Hypernasality has been studied by evaluation of perturbation, noise measures, and cepstral analysis of speech. In this study, feature extraction and analysis were performed during running speech using six different sentences. Jitter, shimmer, Mel frequency cepstral coefficients, bionic wavelet transform entropy, and bionic wavelet transform energy were calculated. Support vector machines were employed for classification of data to normal or hypernasal. Finally, results of the automatic classification were compared with true labels to find accuracy, sensitivity, and specificity. Accuracy was higher when Mel frequency cepstral coefficients were combined with bionic wavelet transform energy feature. In the best case, accuracy of 85% with sensitivity of 82% and specificity of 85% was obtained. Results prove that acoustic analysis is a reliable method to find hypernasality in cleft lip and palate patients.