Spatial and non-spatial multisensory cueing in unilateral cochlear implant users

In the present study we examined the integrity of spatial and non-spatial multisensory cueing (MSC) mechanisms in unilateral CI users. We tested 17 unilateral CI users and 17 age-matched normal hearing (NH) controls in an elevation-discrimination task for visual targets delivered at peripheral locat...

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Bibliographic Details
Published in:Hearing research 2017-02, Vol.344, p.24-37
Main Authors: Pavani, Francesco, Venturini, Marta, Baruffaldi, Francesca, Artesini, Luca, Bonfioli, Francesca, Frau, Giuseppe Nicolò, van Zoest, Wieske
Format: Article
Language:English
Subjects:
Acoustic Stimulation
Adolescent
Adult
Aged, 80 and over
Attention
Case-Control Studies
Cochlear Implantation - instrumentation
Cochlear Implants
Cues
Discrimination (Psychology)
Electric Stimulation
Female
Hearing
Humans
Male
Middle Aged
Monaural hearing
Multisensory
Persons With Hearing Impairments - psychology
Persons With Hearing Impairments - rehabilitation
Photic Stimulation
Sound Localization
Space Perception
Spatial attention
Spatial hearing
Visual Perception
Young Adult
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Summary:In the present study we examined the integrity of spatial and non-spatial multisensory cueing (MSC) mechanisms in unilateral CI users. We tested 17 unilateral CI users and 17 age-matched normal hearing (NH) controls in an elevation-discrimination task for visual targets delivered at peripheral locations. Visual targets were presented alone (visual-only condition) or together with abrupt sounds that matched or did not match the location of the visual targets (audio-visual conditions). All participants were also tested in simple pointing to free-field sounds task, to obtain a basic measure of their spatial hearing ability in the naturalistic environment in which the experiment was conducted. Hearing controls were tested both in binaural and monaural conditions. NH controls showed spatial MSC benefits (i.e., faster discrimination for visual targets that matched sound cues) both in the binaural and in the monaural hearing conditions. In addition, they showed non-spatial MSC benefits (i.e., faster discrimination responses in audio-visual conditions compared to visual-only conditions, regardless of sound cue location) in the monaural condition. Monaural CI users showed no spatial MSC benefits, but retained non-spatial MSC benefits comparable to that observed in NH controls tested monaurally. The absence of spatial MSC in CI users likely reflects the poor spatial hearing ability measured in these participants. These findings reveal the importance of studying the impact of CI re-afferentation beyond auditory processing alone, addressing in particular the fundamental mechanisms that serves orienting of multisensory attention in the environment. •We tested spatial and non-spatial multisensory attention in monaural CI users.•CI users were at (or near) chance in sound localisation.•Spatial multi-sensory cueing was absent in monaural CI users, unlike hearing controls.•Non-spatial multisensory cueing were instead preserved in monaural CI users.•Impaired spatial hearing impacts on audio-visual attention.
ISSN:0378-5955
1878-5891
DOI:10.1016/j.heares.2016.10.025