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Titre : | Plasticity Changes in Central Auditory Systems of School-Age Children Following a Brief Training With a Remote Microphone System (2023) |
Auteurs : | Vicente Aleixandre Benites-Zapata ; Alexandra P. Key ; Micah M. Murray ; Chrysa Retsa ; Todd A. Ricketts ; Anne Marie Tharpe |
Type de document : | Article |
Dans : | Ear and hearing (Vol. 44, n°4, July-August 2023) |
Article en page(s) : | p. 803-815 |
Note générale : | DOI: 10.1097/AUD.0000000000001329 |
Langues: | Anglais |
Descripteurs : |
HE Vinci Audiologie pédiatrique ; Electroencéphalographie (EEG) ; Microphone à distance sans fil (RM)Autres descripteurs Plasticite auditive |
Résumé : |
Objectives: The objective of this study was to investigate whether a brief speech-in-noise training with a remote microphone (RM) system (favorable listening condition) would contribute to enhanced post-training plasticity changes in the auditory system of school-age children.
Design: Before training, event-related potentials (ERPs) were recorded from 49 typically developing children, who actively identified two syllables in quiet and in noise (+5 dB signal-to-noise ratio [SNR]). During training, children completed the same syllable identification task as in the pre-training noise condition, but received feedback on their performance. Following random assignment, half of the sample used an RM system during training (experimental group), while the other half did not (control group). That is, during training[low single comma quotation mark] children in the experimental group listened to a more favorable speech signal (+15 dB SNR) than children from the control group (+5 dB SNR). ERPs were collected after training at +5 dB SNR to evaluate the effects of training with and without the RM system. Electrical neuroimaging analyses quantified the effects of training in each group on ERP global field power (GFP) and topography, indexing response strength and network changes, respectively. Behavioral speech-perception-in-noise skills of children were also evaluated and compared before and after training. We hypothesized that training with the RM system (experimental group) would lead to greater enhancement of GFP and greater topographical changes post-training than training without the RM system (control group). We also expected greater behavioral improvement on the speech-perception-in-noise task when training with than without the RM system. Results: GFP was enhanced after training only in the experimental group. These effects were observed on early time-windows corresponding to traditional P1-N1 (100 to 200 msec) and P2-N2 (200 to 400 msec) ERP components. No training effects were observed on response topography. Finally, both groups increased their speech-perception-in-noise skills post-training. Conclusions: Enhanced GFP after training with the RM system indicates plasticity changes in the neural representation of sound resulting from listening to an enriched auditory signal. Further investigation of longer training or auditory experiences with favorable listening conditions is needed to determine if that results in long-term speech-perception-in-noise benefits. |
Disponible en ligne : | Oui |
En ligne : | https://login.ezproxy.vinci.be/login?url=https://journals.lww.com/ear-hearing/fulltext/2023/07000/plasticity_changes_in_central_auditory_systems_of.13.aspx |