守门员在稳定或可变环境中学习全身视觉运动旋转时的可塑性。

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS ACS Applied Bio Materials Pub Date : 2023-11-01 Epub Date: 2023-05-23 DOI:10.1080/17461391.2023.2212292
Ilias Vouras, Konstantinos Chatzinikolaou, Charalampos Sotirakis, Thomas Metaxas, Vassilia Hatzitaki
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引用次数: 0

摘要

对不确定的视觉事件进行姿势调整是开放式运动技能中常见的感觉运动控制问题。在这项研究中,我们研究了专业足球守门员和非运动员如何在恒定和可变视觉目标运动的姿势跟踪过程中学习全身视觉运动旋转。二十一(21)名足球守门员(18 ± 15年,75 ± 12公斤)和25名年龄匹配的非运动员(18 ± 12年,75 ± 15kg)在双力平台上练习横向重量转移,同时通过提供在线视觉反馈(VF)来跟踪恒定(11名守门员和12名非运动员)或可变(10名守门员和13名非运动员的)视觉目标的运动。在40秒的跟踪(基线)后,VF信号的视觉呈现相对于参与者的运动(视觉运动旋转180°)反转了60秒(适应),然后在20秒内返回到其真实方向(冲洗)。在适应过程中,与非运动员(第6块)相比,守门员在更早的时间块(第3块)将时空误差降低到基线水平,但这种差异仅在跟踪恒定而非可变目标运动的组中显著。只有跟踪恒定目标的组在第一个冲洗区块期间增加了时空误差,显示出显著的后遗症。得出的结论是,守门员更快地适应反馈轮换,这是因为他们事先知道相关的视觉运动转换,以预期欺骗性的视觉线索。然而,这种专业知识优势仅在稳定的视觉环境中存在,这可能是因为当跟踪需要闭环控制的不确定运动线索时,学习会受到影响。重点我们研究了专业守门员和非运动员在跟踪持续或可变运动的目标时如何适应新的全身视觉运动旋转守门员比非运动员更快地适应视觉运动旋转专业知识相关的差异仅在跟踪恒定目标运动的组中明显跟踪可变目标运动的小组没有学习视觉运动旋转
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Goalkeepers' plasticity during learning of a whole-body visuomotor rotation in a stable or variable environment.

Postural adjustments performed in anticipation of uncertain visual events is a common sensorimotor control problem in open sport skills. In this study, we examined how expert soccer goalkeepers and non-athletes learn a whole body visuomotor rotation during postural tracking of constant and variable visual target motions. Twenty-one (21) soccer goalkeepers (18 ± 15 years, 75 ± 12 kg) and 25 age-matched non-athletes (18 ± 12 years, 75 ± 15 kg) practiced lateral weight shifting on a dual force platform while tracking the motion of a constant (11 goalkeepers and 12 non-athletes) or a variable (10 goalkeepers and 13 non-athletes) visual target with provision of online visual feedback (VF). After 40s of tracking (baseline), the visual presentation of the VF signal reversed direction relative to the participant's motion (180° visuo-motor rotation) for 60s (adaptation) and then returned to its veridical direction for another 20s (washout). During adaptation, goalkeepers reduced the spatiotemporal error to baseline levels at an earlier time block (3rd block) compared to non-athletes (6th block), but this difference was significant only for groups tracking of the constant and not the variable target motion. Only the groups tracking the constant target increased the spatiotemporal error during the 1st washout block demonstrating a significant aftereffect. It is concluded that goalkeepers adapt faster to the feedback rotation due to their prior field knowledge of relevant visuomotor transformations in anticipation of deceptive visual cues. This expertise advantage however is present only in a stable visual environment possibly because learning is compromised when tracking uncertain motion cues requiring closed loop control.HighlightsWe examined how expert goalkeepers and non-athletes adopt to a novel whole body visuomotor rotation when tracking a constantly or variably moving targetGoalkeepers adopted faster to the visuomotor rotation than non-athletesExpertise related differences were evident only for groups tracking the constant target motionGroups tracking the variable target motion did not learn the visuomotor rotation.

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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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