The effect of stroboscopic visual training on eye–hand coordination

Ellison, Paul; Jones, Chris; Sparks, Albert K.; Murphy, Philip; Page, Richard; Carnegie, Evelyn; Marchant, David

doi:10.1007/s11332-019-00615-4

Cited by 16 publications

(33 citation statements)

References 41 publications

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“…Moreover, multiple-object tracking performance, which we related to peripheral vision earlier, was not improved with stroboscopic training. Other intervention studies have shown that stroboscopic training is rather linked to anticipatory tasks, 132,135 to other basic visual skills, 137 and to eye-hand coordination 137,138 but does not affect visual search performance 138 or the ability to catch balls 142 …”

Section: Resultsmentioning

confidence: 99%

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Review: The Top Five Peripheral Vision Tools in Sport

Vater¹,

Strasburger

2021

Optom Vis Sci

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This study summarizes the empirical evidence on the use of peripheral vision for the most-researched peripheral vision tools in sports. The objective of this review was to explain if and how the tools can be used to investigate peripheral vision usage and how empirical findings with these vision tools might be transferred to sports situations. The data sources used in this study were Scopus, ScienceDirect, and PubMed. We additionally searched the manufacturers' Web pages and used Google Scholar to find full texts that were not available elsewhere. Studies were included if they were published in a peer-reviewed journal, were written in English language, and were conducted in a sports context. From the 10 searched tools, we included the 5 tools with most published studies. In our topical search, we identified 93 studies for the five most-used peripheral vision tools. Surprisingly, none of these studies used eye-tracking methods to control for the use of peripheral vision. Best "passive" control is achieved by tools using (foveal) secondary tasks (Dynavision D2 and Vienna Test System). Best transfer to sports tasks is expected for tools demanding action responses (FitLight, Dynavision D2). Tools are likely to train peripheral monitoring (NeuroTracker), peripheral reaction time (Dynavision D2, Vienna Test System), or peripheral preview (FitLight), whereas one tool did not show any link to peripheral vision processes (Nike SPARQ Vapor Strobe).

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Section: Resultsmentioning

confidence: 99%

“…The duration of interventions in the studies ranged from a few minutes 132,138 to that of an entire baseball season 72 . Short interventions can already lead to improvements, for example, in an anticipatory timing task 132 .…”

Section: Resultsmentioning

confidence: 99%

Review: The Top Five Peripheral Vision Tools in Sport

Vater¹,

Strasburger

2021

Optom Vis Sci

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“…The importance of hand–eye coordination cannot be overemphasized in modern sports training [ 30 , 31 , 32 ]. Simply put, it is how well eyes are able to control the movement of hands, for instance, eyes send signals to the brain, which directs the movement of the hands.…”

Section: Discussionmentioning

confidence: 99%

Training-Associated Superior Visuomotor Integration Performance in Elite Badminton Players after Adjusting for Cardiovascular Fitness

Chen

Hsu

Tai

et al. 2022

IJERPH

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Badminton is recognized as the fastest racket sport in the world based on the speed of the birdie which can travel up to 426 km per hour. On the badminton court, players are not only required to track the moving badminton birdie (visual tracking and information integration) but also must anticipate the exact timing to hit it back (temporal estimation). However, the association of training experience related to visuomotor integration or temporal prediction ability remains unclear. In this study, we tested this hypothesis by examining the association between training experience and visuomotor performances after adjusting for age, education, and cardiovascular fitness levels. Twenty-eight professional badminton players were asked to perform a compensatory tracking task and a time/movement estimation task for measuring visuomotor integration and temporal prediction, respectively. Correlation analysis revealed a strong association between training experience and performance on visuomotor integration, indicating badminton training may be promoted to develop visuomotor integration ability. Furthermore, the regression model suggests training experience explains 32% of visuomotor integration performances. These behavioral findings suggest badminton training may facilitate the perceptual–cognitive performance related to visuomotor integration. Our findings highlight the potential training in visuomotor integration may apply to eye–hand coordination performance in badminton sport.

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“…Beyond these values, an area of oscillation of the center of pressure with eyes closed greater than that obtained with eyes open indicates a visual dependence. To overcome this visual dependence, the use of stroboscopic glasses associated with visuomotor training has demonstrated its effectiveness in particular in reducing reaction time, in improving muscle coactivation, and through the phenomenon of anticipation, which then makes it possible to reduce the risk of injury, particularly the ACL [25][26][27][28][29][30][31]. The Star Excursion Balance Test or Y Balance Test constitutes a reliable means [31] of also being able to predict the risk of injury to the lower limb and a fortiori that of the ACL in footballers, in particular in the study by Lee et al (2015) who found a strong correlation with knee flexors and hip abductors [32].…”

Section: Biomechanicsmentioning

confidence: 99%

Predict Anterior Cruciate Ligament Injury In Elite Male Soccer Players? Focus On The Five Factors Maximum Model

Forelli¹,

Traullé²,

Bechaud³

et al. 2021

International Journal of Physiotherapy

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Background: For years, the rupture of the anterior cruciate ligament (ACL) has been a feared injury in young soccer players since it causes physiological and psychological changes while incurring significant economic losses. Methods: Through clinical research, understanding the mechanisms and identifying risk factors has enabled sports and performance professionals to establish robust models to predict and reduce the risk of ACL injury. Developments in medical devices also allow a more precise, more objective assessment and improve the traceability of the various quantitative and qualitative parameters necessary to detect the risk of ACL injury. Results: While general preventive protocols have shown evidence for an overall reduction in injury, there are still limitations regarding ACL injury. Therefore, we can collect personalized data from these models and the variables involved, predict, prevent, and program performance throughout the season. Additionally, the multi-professional team supervising the athlete must establish a close relationship centered on feeling and listening to the player who remains in control of his performance. Conclusion: Let the players decide on their career and not an injury.

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The effect of stroboscopic visual training on eye–hand coordination

Cited by 16 publications

References 41 publications

Review: The Top Five Peripheral Vision Tools in Sport

Review: The Top Five Peripheral Vision Tools in Sport

Training-Associated Superior Visuomotor Integration Performance in Elite Badminton Players after Adjusting for Cardiovascular Fitness

Predict Anterior Cruciate Ligament Injury In Elite Male Soccer Players? Focus On The Five Factors Maximum Model

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