Your search keyword '"Jarollahi F"' showing total 2 results

1. Comparing Sound-Field Speech-Auditory Brainstem Response Components between Cochlear Implant Users with Different Speech Recognition in Noise Scores.

Author

Jarollahi F, Valadbeigi A, Jalaei B, Maarefvand M, Motasaddi Zarandy M, Haghani H, and Shirzhiyzn Z

Abstract

Objectives: Many studies have suggested that cochlear implant (CI) users vary in terms of speech recognition in noise. Studies in this field attribute this variety partly to subcortical auditory processing. Studying speech-Auditory Brainstem Response (speech-ABR) provides good information about speech processing; thus, this work was designed to compare speech-ABR components between two groups of CI users with good and poor speech recognition in noise scores., Materials & Methods: The present study was conducted on two groups of CI users aged 8-10 years old. The first group (CI-good) consisted of 15 children with prelingual CI who had good speech recognition in noise performance. The second group (CI-poor) was matched with the first group, but they had poor speech recognition in noise performance. The speech-ABR test in a sound-field presentation was performed for all the participants., Results: The speech-ABR response showed more delay in C, D, E, F, O latencies in CI-poor than CI-good users (P <0.05), meanwhile no significant difference was observed in initial wave (V(t= -0.293, p= 0.771 and A (t= -1.051, p= 0.307). Analysis in spectral-domain showed a weaker representation of fundamental frequency as well as the first formant and high-frequency component of speech stimuli in the CI users with poor auditory performance., Conclusions: Results revealed that CI users who showed poor auditory performance in noise performance had deficits in encoding the periodic portion of speech signals at the brainstem level. Also, this study could be as physiological evidence for poorer pitch processing in CI users with poor speech recognition in noise performance., Competing Interests: The authors declared that there are no conflicts of interests

Published

2022

2. The Relationship between Auditory Sensory Gating and Cognitive Functions on Auditory and Visual Modalities in Primary School Children.

Author

Panahi R, Jarollahi F, Akbari M, Akbarfahimi M, and Haghani H

Abstract

Objectives: Considering the common neurological origins, there is a relationship between the sensory gating and cognitive functions. However, there is no adequate information on this issue. In this study, auditory event-related potentials and the sensory gating performance were assessed in P50, N100 and P200 waves. Besides, their relationship with cognitive performance in auditory and visual modalities was investigated., Materials & Methods: Nineteen normal primary school students (14 boys) were tested in Tehran, Iran from 2017 to 2018. In the auditory modality, the Persian version of the non-word repetition test and monaural selective auditory attention test (mSAAT) were used for assessment of the working memory and selective attention, respectively. In order to evaluate the visual working memory and visual selective attention, Rey-Osterrieth complex figure, selective and divided attention test were used, respectively. A 32-channel EEG system was used for electrophysiological assessment., Results: The P50 sensory gating was negatively correlated with the visual selective attention ( P =0.034, r=-0.49) and N100 sensory gating was negatively correlated with the auditory working memory ( P =0.043, r=-0.48) as well as visual selective attention ( P =0.039, r=-0.47). For P200, there was a significant negative relationship with auditory selective attention in the right ear ( P =0.034, r=-0.49)., Conclusion: Sensory gating in children is not a modality-specific phenomenon. Sensory gating in a modality could be associated with cognitive functions in other modalities., Competing Interests: The authors declare that there is no conflict of interests.

Published

2019