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Functional architecture of verbal and tonal working memory: An FMRI study

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Koelsch,  Stefan
Psychology Department, University of Sussex, Brighton, United Kingdom;
Max Planck Research Group Neurocognition of Music, MPI for Human Cognitive and Brain Sciences, Max Planck Society;

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Citation

Koelsch, S., Schulze, K., Sammler, D., Fritz, T. H., Müller, K., & Gruber, O. (2009). Functional architecture of verbal and tonal working memory: An FMRI study. Human Brain Mapping, 30(3), 859-873. doi:10.1002/hbm.20550.


Cite as: https://hdl.handle.net/11858/00-001M-0000-0010-B5D9-2
Abstract
This study investigates the functional architecture of working memory (WM) for verbal and tonal information during rehearsal and articulatory suppression. Participants were presented with strings of four sung syllables with the task to remember either the pitches (tonal information) or the syllables (verbal information). Rehearsal of verbal, as well as of tonal information activated a network comprising ventrolateral premotor cortex (encroaching Broca's area), dorsal premotor cortex, the planum temporale, inferior parietal lobe, the anterior insula, subcortical structures (basal ganglia and thalamus), as well as the cerebellum. The topography of activations was virtually identical for the rehearsal of syllables and pitches, showing a remarkable overlap of the WM components for the rehearsal of verbal and tonal information. When the WM task was performed under articulatory suppression, activations in those areas decreased, while additional activations arose in anterior prefrontal areas. These prefrontal areas might contain additional storage components of verbal and tonal WM that are activated when auditory information cannot be rehearsed. As in the rehearsal conditions, the topography of activations under articulatory suppression was nearly identical for the verbal as compared to the tonal task. Results indicate that both the rehearsal of verbal and tonal information, as well as storage of verbal and tonal information relies on strongly overlapping neuronal networks. These networks appear to partly consist of sensorimotor-related circuits which provide resources for the representation and maintenance of information, and which are remarkably similar for the production of speech and song. © 2008 Wiley-Liss, Inc.