奥林匹克赛艇队运动员和游泳队运动员在工作记忆和动作抑制过程中表现出大脑功能激活的改变。

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS

ACS Applied Bio Materials Pub Date : 2024-08-23 DOI:10.1016/j.neuropsychologia.2024.108974

Zai-Fu Yao , Ilja G. Sligte , Richard Ridderinkhof

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引用次数: 0

摘要

背景：团队运动中的高水平专业技能与执行功能（EFs）的卓越表现相关，如工作记忆（WM）和行动抑制，以及与这些执行功能相关的脑区激活的改变。在大多数此类研究中，运动员都是从动态（即开放技能）团队运动（如足球运动员）领域中抽取的样本。静态（即封闭技能）团队运动运动员（如赛艇运动员和花样游泳运动员）是否也表现出卓越的EFs性能和不同的EF相关脑功能激活，目前仍是未知数：我们招募了 14 名封闭技能精英运动员（均为全国冠军，在不同赛艇项目中具有国际竞争力）以及 14 名在性别、年龄和教育程度上匹配的对照组，让他们在进行 fMRI 扫描时完成工作记忆和动作抑制（停止信号）任务：结果：尽管运动员的 WM 容量在数字上呈现出高于对照组的趋势，但他们在这两项任务中的表现差异均未达到统计学意义上的显著性。重要的是，与任务相关的BOLD反应表明，奥林匹克封闭式技能队运动员对强调相对稳定的任务需求的大脑区域的招募更强，而对强调外来刺激带来的快速变化需求的大脑区域的参与较弱：大脑功能成像数据表明，精英封闭式技能运动员可能会采用不同的认知策略。

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Olympic team rowers and team swimmers show altered functional brain activation during working memory and action inhibition

Background

High-level expertise in team-sports is associated with superior performance on executive functions (EFs) such as working memory (WM) and action inhibition, and with altered activation of brain areas related to these EFs. In most such studies, athletes were sampled from the domain of dynamic (i.e., open-skill) team-sports (e.g., soccer players). Whether static (i.e., closed-skill) team-sports athletes (e.g., rowers and synchronized swimmers) also show superior EFs performance and differential EF-related functional brain activation remains unknown.

Methods

We recruited 14 elite closed-skill athletes, all national champions, and internationally competitive in various rowing disciplines, as well as 14 controls matched on gender, age, and education, and had them perform working memory and action inhibition (stop-signal) tasks during fMRI scanning.

Results

Group differences in performance in either task failed to obtain statistical significance, although athletes showed a numerical trend toward higher WM capacity than controls. Importantly, task-related BOLD responses suggested that Olympic closed-skill team athletes show stronger recruitment of brain areas that emphasize relatively stable task demands and weaker engagement of brain areas that emphasize rapidly changing demands imposed by extraneous stimulation.

Conclusion

Functional brain imaging data suggest elite closed-skill athletes may employ different cognitive strategies.

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来源期刊

ACS Applied Bio Materials Chemistry-Chemistry (all)

CiteScore

9.40

自引率

2.10%

发文量

464