Stride length mediates the correlation between movement coordination and sprint velocity

Wang, Liduan; Wang, Wei; Li, Shangxiao; Zhang, Hongqian

doi:10.1080/02640414.2023.2197523

Cited by 2 publications

(3 citation statements)

References 23 publications

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“…The findings of this study indicate that stride-length exercises are more effective and have a greater impact than stride-frequency exercises. This is in line with the results of the study Wang et al (2023), which reveals that the stride length factor is more effective in achieving sprint speed, which in this case has a correlation between hip angle during the stride phase and sprint speed. This means that the greater the hip angle, the longer the stride so that the impact on running speed increases.…”

Section: Discussionsupporting

confidence: 91%

“…Dominant athletes make their fastest attempts with a higher stride frequency (Hunter et al, 2004). Although this study did not aim to examine the correlation between stride length, stride frequency, and sprint speed, this is due to the possibility that it is related to the lack of a mediating effect of stride frequency found in this study (Wang et al, 2023). This difference is due to the participants' motor skills not being as good as Olympic athletes who have a sprint time of 10.90 seconds, because in this study researchers used student participants whose abilities were heterogeneous with one another.…”

Section: Discussionmentioning

confidence: 85%

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The Effect of Training Stride Length and Stride Frequency on Increasing Sprint Speed

Sobarna,

Hambali,

Paramitha

et al. 2023

Migrat. Lett.

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In running events, especially sprints, there have been many good forms of training in improving sprint performance, such as downhill sprint training, towing, elastic assists, and orders. This training is used to improve stride length and stride frequency quality. Although in this study we tried to see with one among these training that contributes the most to improving running speed. The research method is an experiment using a design in the form of a pretest - posttest group design. The research subjects involved as many as 60 students of the physical education, health and recreation study program STKIP Pasundan, divided into two groups (A & B), group A was given stride frequency exercises, group B was given stride length exercises. From the results of data calculations in reality there is a significant influence from stride frequency training and also from stride length training to sprint running performance. But because stride length training has a greater positive impact on sprinting compared to stride frequency training, we as researchers recommend sprint trainers so that the exercise provides a greater proportion of the amount for stride length training.

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Section: Discussionsupporting

confidence: 91%

Section: Discussionmentioning

confidence: 85%

The Effect of Training Stride Length and Stride Frequency on Increasing Sprint Speed

Sobarna,

Hambali,

Paramitha

et al. 2023

Migrat. Lett.

View full text Add to dashboard Cite

show abstract

“…So far, there is no evidence to suggest that the effect of velocity loss-induced PAPE is necessarily superior to traditional load-based RM conditioning activities, and this requires further exploration. Additionally, stride length and stride frequency are fundamental components of sprinting biomechanics, directly impacting athletes’ speed and efficiency [ 19 , 20 ]. Understanding the complex relationship between training interventions, biomechanical parameters such as stride length and frequency, and PAPE outcomes can provide valuable insights for tailoring more effective PAPE protocol designs for sprint athletes.…”

Section: Introductionmentioning

confidence: 99%

The Impact of Different Velocity Losses on Post-Activation Performance Enhancement (PAPE) Effects in Sprint Athletes: A Pilot Randomized Controlled Study

Li,

Mo,

Liu

et al. 2024

Sports

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Post-activation performance enhancement (PAPE) can significantly improve athletic performance. This study investigated the effects of two different velocity loss (10% VL and 20% VL) protocols on PAPE in 20 m sprint performance among sprint athletes. Twenty-four male sprint athletes (100 m sprint time: 10.96 ± 0.15 s) participated in the study. A randomized crossover experimental design was used to compare the traditional group (TG) and 10% VL and 20% VL interventions. Sprint tests were conducted at 4, 8, 12, and 16 min post-intervention. A two-way repeated measures ANOVA revealed a significant interaction effect between group and time on 20 m sprint performance (F = 2.817, p = 0.037, partial η2 = 0.585). Simple main effects analysis revealed significant improvements at 4 min for the 20% VL group (p < 0.05). Cohen’s d values indicated improvements in 10 m sprint times at 8 min for all groups (TG: effect size (ES) = −0.270, 10% VL: ES = −0.038, 20% VL: ES = −0.279). Improvements in 20 m sprint times were observed at 4 min for the 20% VL group (ES = −0.296) and at 16 min for the 10% VL group (ES = −0.276). In conclusion, the velocity loss-based PAPE protocol (20% VL) demonstrated a superior induction of PAPE effects in sprint athletes at 4 min compared to traditional 1RM-based PAPE protocols. However, no significant differences were observed between the two protocols at 8, 12, and 16 min.

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Stride length mediates the correlation between movement coordination and sprint velocity

Cited by 2 publications

References 23 publications

The Effect of Training Stride Length and Stride Frequency on Increasing Sprint Speed

The Effect of Training Stride Length and Stride Frequency on Increasing Sprint Speed

The Impact of Different Velocity Losses on Post-Activation Performance Enhancement (PAPE) Effects in Sprint Athletes: A Pilot Randomized Controlled Study

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