Journal Article

Hemispheric competence for auditory spatial representation

Lucas Spierer, Anne Bellmann-Thiran, Philippe Maeder, Micah M. Murray and Stephanie Clarke

in Brain

Published on behalf of The Guarantors of Brain

Volume 132, issue 7, pages 1953-1966
Published in print July 2009 | ISSN: 0006-8950
Published online May 2009 | e-ISSN: 1460-2156 | DOI: http://dx.doi.org/10.1093/brain/awp127
Hemispheric competence for auditory spatial representation

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Sound localization relies on the analysis of interaural time and intensity differences, as well as attenuation patterns by the outer ear. We investigated the relative contributions of interaural time and intensity difference cues to sound localization by testing 60 healthy subjects: 25 with focal left and 25 with focal right hemispheric brain damage. Group and single-case behavioural analyses, as well as anatomo-clinical correlations, confirmed that deficits were more frequent and much more severe after right than left hemispheric lesions and for the processing of interaural time than intensity difference cues. For spatial processing based on interaural time difference cues, different error types were evident in the individual data. Deficits in discriminating between neighbouring positions occurred in both hemispaces after focal right hemispheric brain damage, but were restricted to the contralesional hemispace after focal left hemispheric brain damage. Alloacusis (perceptual shifts across the midline) occurred only after focal right hemispheric brain damage and was associated with minor or severe deficits in position discrimination. During spatial processing based on interaural intensity cues, deficits were less severe in the right hemispheric brain damage than left hemispheric brain damage group and no alloacusis occurred. These results, matched to anatomical data, suggest the existence of a binaural sound localization system predominantly based on interaural time difference cues and primarily supported by the right hemisphere. More generally, our data suggest that two distinct mechanisms contribute to: (i) the precise computation of spatial coordinates allowing spatial comparison within the contralateral hemispace for the left hemisphere and the whole space for the right hemisphere; and (ii) the building up of global auditory spatial representations in right temporo-parietal cortices.

Keywords: auditory localization; auditory spatial representations; auditory cortex; hemispheric dominance; brain damage; human

Journal Article.  9204 words.  Illustrated.

Subjects: Neurology ; Neuroscience

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