Applied Sciences (Nov 2021)

Hamstring Torque, Velocity and Power Elastic Band Measurements during Hip Extension and Knee Flexion

  • Dario Santos,
  • Fernando Massa,
  • Jorge Dominguez,
  • Isabel Morales,
  • Juan Del Castillo,
  • Andrea Mattiozzi,
  • Franco Simini

DOI
https://doi.org/10.3390/app112210509
Journal volume & issue
Vol. 11, no. 22
p. 10509

Abstract

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The quantitative dynamic monitoring of the performance of hamstring muscles during rehabilitation and training cannot currently be undertaken using elastic resistance bands. Hip extension with a fully extended knee involves hamstring agonists, while knee flexion involves only the hamstring. The purpose of this study is to provide normative values of torque, velocity and power involving hamstring muscles opposing elastic bands. Twenty amateur athletes aged 25.7 ± 4.9, were studied during two motor tasks—hip extension and knee flexion, both isometric & dynamic—with an elastic resistance band and DINABANG portable instrument. We compared the peak isometric torque in hip extension with agonists (2.93 Nm/kg) and without them (1.21 Nm/kg): the difference is significant. The peak angular limb velocity—starting at 50% of the maximum torque—is smaller in hip extension with agonists (215.96°/s) than in a knee flexion without them (452.56°/s). The combination of peak torque and peak velocity estimates power and there is no difference (p = 0.051) with and without agonists: 452.56°Nm/s.kg without agonists and 542.13°Nm/s.kg with them. This study opens the possibility of monitoring torque–velocity–power profiles for hamstring exercise in open chain.

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