Singing training predicts increased insula connectivity with speech and respiratory sensorimotor areas at rest.

TitleSinging training predicts increased insula connectivity with speech and respiratory sensorimotor areas at rest.
Publication TypeJournal Article
Year of Publication2023
AuthorsZamorano AM, Zatorre RJ, Vuust P, Friberg A, Birbaumer N, Kleber B
JournalBrain Res
Volume1813
Pagination148418
Date Published2023 May 20
ISSN1872-6240
Abstract

The insula contributes to the detection of salient events during goal-directed behavior and participates in the coordination of motor, multisensory, and cognitive systems. Recent task-fMRI studies with trained singers suggest that singing experience can enhance the access to these resources. However, the long-term effects of vocal training on insula-based networks are still unknown. In this study, we employed resting-state fMRI to assess experience-dependent differences in insula co-activation patterns between conservatory-trained singers and non-singers. Results indicate enhanced bilateral anterior insula connectivity in singers relative to non-singers with constituents of the speech sensorimotor network. Specifically, with the cerebellum (lobule V-VI) and the superior parietal lobes. The reversed comparison showed no effects. The amount of accumulated singing training predicted enhanced bilateral insula co-activation with primary sensorimotor areas representing the diaphragm and the larynx/phonation area-crucial regions for cortico-motor control of complex vocalizations-as well as the bilateral thalamus and the left putamen. Together, these findings highlight the neuroplastic effect of expert singing training on insula-based networks, as evidenced by the association between enhanced insula co-activation profiles in singers and the brain's speech motor system components.

DOI10.1016/j.brainres.2023.148418
Alternate JournalBrain Res
PubMed ID37217111