Frontiers in Sports and Active Living (Oct 2020)

Inertial Measurement Unit Based Hip Flexion Strength-Power Test for Sprinters

  • Ryu Nagahara,
  • Munenori Murata

DOI
https://doi.org/10.3389/fspor.2020.571523
Journal volume & issue
Vol. 2

Abstract

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This study aimed to examine whether a recently developed inertial measurement unit (IMU)-based hip flexion strength-power test could be an indicator of sprint performance, step length (SL) and frequency (SF) during sprinting using sprinters. Sixteen well-trained male sprinters performed 60-m sprints and an IMU-based hip flexion test which consisted of five serial hip flexion-extension motions for each leg with three different conditions (unweighted, 0.75 or 1.5 kg ankle weighted). Running speed, SL and SF from the start to the 50-m mark were measured using a long force platform system. The hip flexion strength-power test variables were collected using one IMU attached to the lateral thigh. The right hip flexion positive work in the 1.5 kg weighted condition was positively correlated with running speed from the 9th−12th to 21st−22nd step sections (r = 0.588–0.761) and with SF at the 17th−20th step section (r = 0.526). The right hip flexion positive mean power in the 1.5 kg weighted condition was positively correlated with running speed from the 13th−16th to 21st−22nd step section (r = 0.547–0.638) and with SF from the 13th−16th to 21st−22nd step section (r = 0.501–0.553). The current results demonstrate that, among well-trained male sprinters, hip flexion positive work and mean power measured using IMU-based strength-power test in the 1.5 kg weighted right leg condition can be a determinant of better sprint performance through higher SF during the later acceleration section approaching maximal speed.

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