Silent music reading: Auditory imagery and visuotonal modality transfer in singers and non-singers |
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| Affiliation: | 1. Department of Epileptology, University of Bonn Medical Centre, Germany;2. Life & Brain Center, University of Bonn Medical Centre, Germany;3. Department of Psychiatry, University of Bonn Medical Centre, Germany;4. German Center for Neurodegenerative Diseases, Germany;5. Center for Economics and Neuroscience, University of Bonn, Germany;1. Department of Chemistry, Zhejiang University, Hangzhou 310027, China;2. College of Pharmacy, China Pharmaceutical University, Nanjing 211169, China;1. Faculté de médecine, EA 4569, laboratoire d’éthique médicale et de médecine légale, université Paris Descartes, 45, rue des Saints-Pères, 75006 Paris, France;2. Faculté de chirurgie dentaire, université Paris Descartes, 1, rue Maurice-Arnoux, 92120 Montrouge, France;3. Unité de santé publique, département d’odontologie, groupe Henri-Mondor, 94000 Créteil, France;1. System Emotional Science, Graduate School of Medicine and Pharmaceutical Sciences, University of Toyama, Sugitani, 2630, Toyama 930-0194, Japan;2. Edmond and Lily Safra International Institute of Neuroscience, Santos Dumont Institute, Rodovia RN 160, 3001 – Distrito Jundiaí, 59280-000 Macaíba, RN, Brazil |
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| Abstract: | In daily life, responses are often facilitated by anticipatory imagery of expected targets which are announced by associated stimuli from different sensory modalities. Silent music reading represents an intriguing case of visuotonal modality transfer in working memory as it induces highly defined auditory imagery on the basis of presented visuospatial information (i.e. musical notes). Using functional MRI and a delayed sequence matching-to-sample paradigm, we compared brain activations during retention intervals (10 s) of visual (VV) or tonal (TT) unimodal maintenance versus visuospatial-to-tonal modality transfer (VT) tasks. Visual or tonal sequences were comprised of six elements, white squares or tones, which were low, middle, or high regarding vertical screen position or pitch, respectively (presentation duration: 1.5 s). For the cross-modal condition (VT, session 3), the visuospatial elements from condition VV (session 1) were re-defined as low, middle or high “notes” indicating low, middle or high tones from condition TT (session 2), respectively, and subjects had to match tonal sequences (probe) to previously presented note sequences. Tasks alternately had low or high cognitive load. To evaluate possible effects of music reading expertise, 15 singers and 15 non-musicians were included. Scanner task performance was excellent in both groups. Despite identity of applied visuospatial stimuli, visuotonal modality transfer versus visual maintenance (VT > VV) induced “inhibition” of visual brain areas and activation of primary and higher auditory brain areas which exceeded auditory activation elicited by tonal stimulation (VT > TT). This transfer-related visual-to-auditory activation shift occurred in both groups but was more pronounced in experts. Frontoparietal areas were activated by higher cognitive load but not by modality transfer. The auditory brain showed a potential to anticipate expected auditory target stimuli on the basis of non-auditory information and sensory brain activation rather mirrored expectation than stimulation. Silent music reading probably relies on these basic neurocognitive mechanisms. |
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| Keywords: | Working memory Mental imagery Modality transfer Musical expertise Music reading Functional magnetic resonance imaging |
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