Subjects: Psychology >> Social Psychology submitted time 2023-03-27 Cooperative journals: 《心理学报》
Abstract: Previous brain imaging studies have shown that the specialized experience achieved by expert sports players after years of training contributes to plasticity in both brain function and structure. However, changes in brain plasticity related to participating in various types of sports, specifically sports that involve higher-level strategies and cognitive function, remain unclear. Table tennis is a sport requiring high levels of strategy. Thus, the present study investigated the white matter structure of the brain in expert table tennis players who had undergone long-term training. Given the accumulating evidence that action processing in the brain occurs along two distinct pathways—dorsal and ventral—we hypothesized that, in addition to changes in the white matter of the dorsal sensorimotor system, the white matter in the ventral pathway linking brain regions related to higher-level cognitive function would differ between expert table tennis players and nonplayers. An investigational group of 31 expert table tennis players (20.06 ± 1.69 years of age) and a control group of 28 college students (20.68 ± 1.66 years of age) who had no professional training in table tennis were recruited for the study. The table tennis players were members of university teams, and each player had more than 7 years of table tennis training. Diffusion tensor imaging techniques were used to compare white matter microstructure properties of the brain between expert players and nonplayers. Statistical analyses were performed using independent t-tests. Further analysis was conducted for the expert player group to assess whether any correlation existed between fractional anisotropy (FA) values and training time. Consistent with our hypothesis, the white matter microstructure properties of both the dorsal and ventral pathways in expert table tennis players significantly differed from those in nonplayers. Specifically, FA values in the bilateral corticospinal tracts, which mainly connect brain regions in the dorsal sensorimotor system, were higher in experts than in nonplayers. Compared with nonplayers, expert players also had higher FA values in the left inferior longitudinal fasciculus and bilateral inferior occipitofrontal fasciculus of the ventral pathway, which are involved in higher-level cognitive processing, such as semantic processing or thinking. By contrast, no white matter region showed a higher FA value in nonplayers than in expert players, and no region was found with axial diffusivity difference between the groups. Additionally, radial diffusivity was lower in the left superior longitudinal fasciculus and bilateral inferior occipitofrontal fasciculus in experts than in nonplayers. Correlation analysis of the expert group showed significant positive correlations between training time and FA values in both the left superior longitudinal fasciculus in the ventral pathway and bilateral corticospinal tracts in the dorsal pathway. Taken together, these findings suggest that enhanced structural integrity of the white matter in both the dorsal and ventral pathways is associated with long-term, expert table tennis training. The observed structural plasticity is conducive to promoting cognitive processing of concrete sensorimotor and abstract information, which would enable expert players to excel at sports requiring a high level of strategy.
Subjects: Psychology >> Other Disciplines of Psychology submitted time 2021-02-25
Abstract: Previous brain imaging studies have shown that the specialized experience achieved by expert sports players after years of training contributes to plasticity in both brain function and structure. However, changes in brain plasticity related to participating in various types of sports, specifically sports that involve higher-level strategies and cognitive function, remain unclear. Table tennis is a sport requiring high levels of strategy. Thus, the present study investigated the white matter structure of the brain in expert table tennis players who had undergone long-term training. Given the accumulating evidence that action processing in the brain occurs along two distinct pathways—dorsal and ventral—we hypothesized that, in addition to changes in the white matter of the dorsal sensorimotor system, the white matter in the ventral pathway linking brain regions related to higher-level cognitive function would differ between expert table tennis players and nonplayers. An investigational group of 31 expert table tennis players (20.06 ± 1.69 years of age) and a control group of 28 college students (20.68 ± 1.66 years of age) who had no professional training in table tennis were recruited for the study. The table tennis players were members of university teams, and each player had more than 7 years of table tennis training. Diffusion tensor imaging techniques were used to compare white matter microstructure properties of the brain between expert players and nonplayers. Statistical analyses were performed using independent t-tests. Further analysis was conducted for the expert player group to assess whether any correlation existed between fractional anisotropy (FA) values and training time. Consistent with our hypothesis, the white matter microstructure properties of both the dorsal and ventral pathways in expert table tennis players significantly differed from those in nonplayers. Specifically, FA values in the bilateral corticospinal tracts, which mainly connect brain regions in the dorsal sensorimotor system, were higher in experts than in nonplayers. Compared with nonplayers, expert players also had higher FA values in the left inferior longitudinal fasciculus and bilateral inferior occipitofrontal fasciculus of the ventral pathway, which are involved in higher-level cognitive processing, such as semantic processing or thinking. By contrast, no white matter region showed a higher FA value in nonplayers than in expert players, and no region was found with axial diffusivity difference between the groups. Additionally, radial diffusivity was lower in the left superior longitudinal fasciculus and bilateral inferior occipitofrontal fasciculus in experts than in nonplayers. Correlation analysis of the expert group showed significant positive correlations between training time and FA values in both the left superior longitudinal fasciculus in the ventral pathway and bilateral corticospinal tracts in the dorsal pathway. Taken together, these findings suggest that enhanced structural integrity of the white matter in both the dorsal and ventral pathways is associated with long-term, expert table tennis training. The observed structural plasticity is conducive to promoting cognitive processing of concrete sensorimotor and abstract information, which would enable expert players to excel at sports requiring a high level of strategy. "
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