The present study aimed at exploring adaptive mechanisms underlying the development of musical competence and, in particular, at qualifying and quantifying differences in cognitive functioning between people with and without musical training, as measured by electroencephalographic (EEG) and behavioral responses during an experimental task tapping into attention and monitoring mechanisms. Eighteen participants took part in the study. EEG responses to an omitted tone task were processed to compute their spatial components and time/frequency dynamics (power spectra, event-related spectral perturbation, and inter-trial coherence). In general, musicians showed greater EEG reactivity than control participants, which might signal adaptive changes linked to trained musical competence. Furthermore, musicians also performed better than controls, suggesting greater cognitive efficiency. Present findings also provide evidence that EEG is a valuable tool to help our understanding of adaptive mechanisms fostered by musical training and that it may complement behavioral methods to test performance.
Caravaglios, G., Castro, G., Crivelli, D., De Filippis, D., Muscoso, E. G., Di Maria, G., Di Pietro, C., Coco, M., Perciavalle, V., Balconi, M., Musical expertise: evidence from a pilot study on reaction times and time/frequency oscillatory responses, <<PSYCHOLOGY OF MUSIC>>, 2021; 49 (1): 84-107. [doi:10.1177/0305735619839141] [https://hdl.handle.net/10807/169161]
Musical expertise: evidence from a pilot study on reaction times and time/frequency oscillatory responses
Crivelli, Davide;Balconi, Michela
2021
Abstract
The present study aimed at exploring adaptive mechanisms underlying the development of musical competence and, in particular, at qualifying and quantifying differences in cognitive functioning between people with and without musical training, as measured by electroencephalographic (EEG) and behavioral responses during an experimental task tapping into attention and monitoring mechanisms. Eighteen participants took part in the study. EEG responses to an omitted tone task were processed to compute their spatial components and time/frequency dynamics (power spectra, event-related spectral perturbation, and inter-trial coherence). In general, musicians showed greater EEG reactivity than control participants, which might signal adaptive changes linked to trained musical competence. Furthermore, musicians also performed better than controls, suggesting greater cognitive efficiency. Present findings also provide evidence that EEG is a valuable tool to help our understanding of adaptive mechanisms fostered by musical training and that it may complement behavioral methods to test performance.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.