Sound localization in callosal agenesis and early callosotomy subjects: brain reorganization and/or compensatory strategies

doi:10.1093/brain/awf096

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Brain, Vol. 125, No. 5, 1039-1053, May 2002
© 2002 Guarantors of Brain

Sound localization in callosal agenesis and early callosotomy subjects: brain reorganization and/or compensatory strategies

Nadia Lessard¹^,2, Franco Lepore², Jean Villemagne² and Maryse Lassonde²

¹ Hôpital du Sacré-Coeur de Montréal and ² Groupe de Recherche en Neuropsychologie Expérimentale, Département de Psychologie, Université de Montréal, Canada

Correspondence to: Dr Maryse Lassonde, Département de Psychologie, Université de Montréal, C.P. 6128, Succ. Centre-Ville, Montréal, Qué., H3C 3J7, Canada E-mail: maryse.lassonde{at}umontreal.ca

In order to evaluate the callosal involvement in sound localization,the present study examined the response accuracy of acallosaland early callosotomized subjects to monaural and binaural auditorytargets presented in three-dimensional space. In these subjects,bilateral localization cues, such as interaural time and leveldifferences, are integrated at the cortical and subcorticallevels without the additional support of the callosal commissure.Because acallosal and early-callosotomized subjects have developedwith this reduced source of binaural activation of corticalcells, they might have perfected their ability to use monauralsound localization cues. This hypothesis was tested by assessinglocalization performance under both binaural and monaural listeningconditions. Five subjects with callosal agenesis, one callosotomizedsubject operated early in life and 19 control subjects wereasked to localize broad-band noise bursts (BBNBs) of fixed intensityin the horizontal plane in an anechoic chamber. BBNBs were deliveredthrough randomly selected loudspeakers. Two conditions weretested: (i) localization of a stationary sound source; and (ii)localization of a moving sound source. Listeners had to reportthe apparent stimulus location by pointing to its perceivedposition on a graduated perimeter. The results indicated thatthe acallosal subjects were less accurate than controls, butonly in the binaural moving sound condition. More interestingly,in the monaural testing conditions, some of the acallosal subjectsand the early-callosotomized subject performed significantlybetter than control subjects. This suggests that, because ofthe absence of the corpus callosum, these subjects compensatefor their reduced access to cortically determined binaural cuesby making more efficient use of monaural cues.

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