Abstract
The purpose of this study was to clarify whether foot strike patterns are associated with different sprint performance and kinematics in preadolescent boys. The study enrolled 24 healthy 10–11-year-old boys in the fifth grade at public elementary schools in Japan. The participants performed the 50-m sprint with maximum effort. Sprint motion was recorded using a high-speed video camera (120 fps) placed in the sagittal plane on the left side of a line drawn at 35-m from the start line. Kinematic variables were calculated based on manually digitized body landmark coordinates. The participants were categorized into two groups according to their foot strike pattern (rearfoot strikers, RF group, n = 12; forefoot or midfoot strikers, FF/MF group, n = 12). The time taken to complete the 50-m sprint in the FF/MF group (9.08±0.52 s) was faster than that in the RF group (9.63±0.51 s). The FF/MF group had greater sprint speed, higher step frequency, and shorter foot contact time than the RF group. Regarding the association between foot strike pattern and sprint kinematics, we found that the RF group had a greater range of knee flexion during the support-leg phase, whereas the FF/MF group had shorter horizontal distance from the heel of the support leg to the centre of mass at the touchdown, greater maximal knee flexion velocity during the swing-leg phase, and higher the maximum hip extension velocity during the support-leg phase. The current results suggested that, in preadolescent boys, forefoot or midfoot strike (rather than rearfoot strike) is effective for obtaining a higher step frequency and sprint speed through greater magnitude of knee flexion and hip extension movement velocities during the swing and support phases, respectively. The current findings will be useful for understanding the characteristics of the development of sprinting performance in preadolescent children.
Highlights
Sprinting and sub-maximal running are key fundamental exercises that are considered to be the basis for many sporting activities
There was no significant difference between the rearfoot strike (RF) and forefoot strike (FF)/midfoot strike (MF) groups with regard to physical characteristics
Sprint speed was significantly higher in the FF/MF group than in the RF group, in agreement with the trend noted for step frequency, which was significantly higher in the FF/MF group
Summary
Sprinting and sub-maximal running are key fundamental exercises that are considered to be the basis for many sporting activities. Sprint speed represents by the product of step length and step frequency. Previous studies have indicated that development of sprint performance with growth in childhood has a major impact on the increase in step length, which accompanies morphological development [2,3,4]. It has been verified that maximum sprint speed has a significant positive correlation with both step length and step frequency in 11–15-year-old boys [2]. It was reported that both step length and step frequency are important factors to explain individual differences in maximum sprint speed among Japanese elementary school students in the same age group [4]. The better sprint performance of preadolescent children is characterized by longer step length and by higher step frequency
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