RT Journal Article
SR Electronic
T1 Enhanced Somatosensory Inhibition Sharpens Hand Representation and Sensorimotor Skills in Pianists
JF The Journal of Neuroscience
JO J. Neurosci.
FD Society for Neuroscience
SP e1486242024
DO 10.1523/JNEUROSCI.1486-24.2024
VO 45
IS 8
A1 Hirano, Masato
A1 Kimoto, Yudai
A1 Shiotani, Sachiko
A1 Furuya, Shinichi
YR 2025
UL http://www.jneurosci.org/content/45/8/e1486242024.abstract
AB Dexterous motor skills, like those needed for playing musical instruments and sports, require the somatosensory system to accurately and rapidly process somatosensory information from multiple body parts. This is challenging due to the convergence of afferent inputs from different body parts into a single neuron and the overlapping representation of neighboring body parts in the somatosensory cortices. How do trained individuals, such as pianists and athletes, manage this? Here, a series of five experiments with pianists and nonmusicians (female and male) shows that pianists have enhanced inhibitory function in the somatosensory system, which isolates the processing of somatosensory afferent inputs from each finger. This inhibitory function was assessed using a paired-pulse paradigm of somatosensory evoked potentials in electroencephalography, which measures the suppressive effect of a first stimulus [i.e., conditioning stimulus (CS)] on the response to a subsequent second stimulus. We found that pianists and nonmusicians showed an inhibitory response to the sequential stimuli to the peripheral somatosensory nerve at the wrist when the CS was intense. However, only pianists exhibited an inhibitory response to a weak CS, indicating enhanced inhibitory function in pianists. Additionally, the CS increased the information content segregating individual fingers represented in the cortical activity evoked by passive finger movements and improved the perception of fast multifinger sequential movements, specifically for pianists. Our findings provide the first evidence for experience-dependent plasticity in somatosensory inhibitory function and highlight its role in the expert motor performance of pianists.