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Increased auditory cortical representation in musicians

Christo Pantev (), Robert Oostenveld, Almut Engelien, Bernhard Ross, Larry E. Roberts and Manfried Hoke
Additional contact information
Christo Pantev: Biomagnetism Center, Institute of Experimental Audiology, University of Mnster
Robert Oostenveld: Biomagnetism Center, Institute of Experimental Audiology, University of Mnster
Almut Engelien: University of Mnster
Bernhard Ross: Biomagnetism Center, Institute of Experimental Audiology, University of Mnster
Larry E. Roberts: McMaster University
Manfried Hoke: Biomagnetism Center, Institute of Experimental Audiology, University of Mnster

Nature, 1998, vol. 392, issue 6678, 811-814

Abstract: Abstract Acoustic stimuli are processed throughout the auditory projection pathway, including the neocortex, by neurons that are aggregated into ‘tonotopic’ maps according to their specific frequency tunings1,2,3. Research on animals has shown that tonotopic representations are not statically fixed in the adult organism but can reorganize after damage to the cochlea4 or after training the intact subject to discriminate between auditory stimuli5. Here we used functional magnetic source imaging (single dipole model) to measure cortical representations in highly skilled musicians. Dipole moments for piano tones, but not for pure tones of similar fundamental frequency (matched in loudness), were found to be enlarged by about 25% in musicians compared with control subjects who had never played an instrument. Enlargement was correlated with the age at which musicians began to practise and did not differ between musicians with absolute or relative pitch. These results, when interpreted with evidence for modified somatosensory representations of the fingering digits in skilled violinists6, suggest that use-dependent functional reorganization extends across the sensory cortices to reflect the pattern of sensory input processed by the subject during development of musical skill.

Date: 1998
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DOI: 10.1038/33918

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