The human hand possesses both consolidated motor skills and remarkable flexibility in adapting to ongoing task demands. However, the underlying mechanisms by which the brain balances stability and flexibility remain unknown. In the absence of external input or behavior, spontaneous (intrinsic) brain connectivity is thought to represent a prior of stored memories. In this study, we investigated how manual dexterity modulates spontaneous functional connectivity in the motor cortex during hand movement. Using magnetoencephalography, in 47 human participants (both sexes), we examined connectivity modulations in the α and β frequency bands at rest and during two motor tasks (i.e., finger tapping or toe squeezing). The flexibility and stability of such modulations allowed us to identify two groups of participants with different levels of performance (high and low performers) on the nine-hole peg test, a test of manual dexterity. In the α band, participants with higher manual dexterity showed distributed decreases of connectivity, specifically in the motor cortex, increased segregation, and reduced nodal centrality. Participants with lower manual dexterity showed an opposite pattern. Notably, these patterns from the brain to behavior are mirrored by results from behavior to the brain. Indeed, when participants were divided using the median split of the dexterity score, we found the same connectivity patterns. In summary, this experiment shows that a long-term motor skill—manual dexterity—influences the way the motor systems respond during movements.

Maddaluno, O., Penna, S., Pizzuti, A., Spezialetti, M., Corbetta, M., de Pasquale, F., et al. (2024). Encoding Manual Dexterity through Modulation of Intrinsic α Band Connectivity. THE JOURNAL OF NEUROSCIENCE, 44(20) [10.1523/JNEUROSCI.1766-23.2024].

Encoding Manual Dexterity through Modulation of Intrinsic α Band Connectivity

Maddaluno O.
Primo
;
2024

Abstract

The human hand possesses both consolidated motor skills and remarkable flexibility in adapting to ongoing task demands. However, the underlying mechanisms by which the brain balances stability and flexibility remain unknown. In the absence of external input or behavior, spontaneous (intrinsic) brain connectivity is thought to represent a prior of stored memories. In this study, we investigated how manual dexterity modulates spontaneous functional connectivity in the motor cortex during hand movement. Using magnetoencephalography, in 47 human participants (both sexes), we examined connectivity modulations in the α and β frequency bands at rest and during two motor tasks (i.e., finger tapping or toe squeezing). The flexibility and stability of such modulations allowed us to identify two groups of participants with different levels of performance (high and low performers) on the nine-hole peg test, a test of manual dexterity. In the α band, participants with higher manual dexterity showed distributed decreases of connectivity, specifically in the motor cortex, increased segregation, and reduced nodal centrality. Participants with lower manual dexterity showed an opposite pattern. Notably, these patterns from the brain to behavior are mirrored by results from behavior to the brain. Indeed, when participants were divided using the median split of the dexterity score, we found the same connectivity patterns. In summary, this experiment shows that a long-term motor skill—manual dexterity—influences the way the motor systems respond during movements.
Articolo in rivista - Articolo scientifico
functional connectivity; human behavior; magnetoencephalography; manual dexterity; motor tasks; resting state;
English
27-mar-2024
2024
44
20
e1766232024
open
Maddaluno, O., Penna, S., Pizzuti, A., Spezialetti, M., Corbetta, M., de Pasquale, F., et al. (2024). Encoding Manual Dexterity through Modulation of Intrinsic α Band Connectivity. THE JOURNAL OF NEUROSCIENCE, 44(20) [10.1523/JNEUROSCI.1766-23.2024].
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/10281/525219
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