1. Brain plasticity of structural connectivity networks and topological properties in baseball players with different levels of expertise.
- Author
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Chen, Yin-Hua, Chang, Chih-Yen, Yen, Nai-Shing, and Tsai, Shang-Yueh
- Subjects
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TOPOLOGICAL property , *BASEBALL players , *DIFFUSION tensor imaging , *EXPERTISE , *LARGE-scale brain networks - Abstract
• Structural network plasticity in relation to the development of expertise in sports was examined. • The expertise effect was found in connections largely involving sensorimotor and visual systems. • Connections changed in a stepwise or a U-/inverted U-shaped manner as experience increased. • Network and hub nodal efficiency was consolidated only after accumulating extensive experience. Brain plasticity in structural connectivity networks along the development of expertise has remained largely unknown. To address this, we recruited individuals with three different levels of baseball-playing experience: skilled batters (SB), intermediate batters (IB), and healthy controls (HC). We constructed their structural connectivity networks using diffusion tractography and compared their region-to-region structural connections and the topological characteristics of the constructed networks using graph-theoretical analysis. The group differences were detected in 35 connections predominantly involving sensorimotor and visual systems; the intergroup changes could be depicted either in a stepwise (HC < / = IB < / = SB) or a U-/inverted U-shaped manner as experience increased (IB < SB and/or HC, or opposite). All groups showed small-world topology in their constructed networks, but SB had increased global and local network efficiency than IB and/or HC. Furthermore, although the number and cortical regions identified as hubs of the networks in the three groups were highly similar, SB exhibited higher nodal global efficiency in both the dorsolateral and medial parts of the bilateral superior frontal gyri than IB. Our findings add new evidence of topological reorganization in brain networks associated with sensorimotor experience in sports. Interestingly, these changes do not necessarily increase as a function of experience as previously suggested in literature. [ABSTRACT FROM AUTHOR]
- Published
- 2023
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