Localization and Mismatch Negativity

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Sound localization is the primary function of binaural hearing and facilitates speech recognition in noise. In case of unilateral or asymmetrical hearing loss, speech recognition in noise requires a constant adaptation of the head position to compensate for deafness. There is a significant impact of...

Sound localization is the primary function of binaural hearing and facilitates speech recognition in noise. In case of unilateral or asymmetrical hearing loss, speech recognition in noise requires a constant adaptation of the head position to compensate for deafness. There is a significant impact of these deficits for socio-professional integration with a globally reduced quality of life . A researcher has found a significant correlation between performance for speech recognition in noise and the level of quality of life level assessed by a Spatial and Qualitative Hearing Scale (SSQ). Subjects with bilateral profound deafness treated with cochlear implant (CI) usually recover excellent scores for speech recognition in quiet conditions. Nevertheless, hearing restoration is only partial and binaural hearing includes the fields where hearing remains impaired, as illustrated by the studies on sound localization or speech recognition in noise. Studies using functional MRI, MEG or EEG to investigate neuro-functional reorganization following single-sided deafness show a reduced asymmetry in the hemispherical processing of auditory information, documented by an increase of cortical activity ipsilateral to the better ear, whether it is lateralized to right or left. However, the neural modifications underlying spatial hearing processing have hardly not been explored. The mismatch negativity (MMN) is a specific potential, evoked by an auditory stimulation using two sounds almost similar. The presence of this MMN indicates that the auditory system is able to discriminate these 2 sounds, regardless of the subjective feedback reported by the subject. The use of MMN to describe neural reorganization following cochlear implantation is expanding. Stimuli as diverse as pure sounds, tonal bursts or phonemes may be used, but to the investigator's knowledge there is no study investigating localization processes

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