TY - JOUR
T1 - Peak Power Assessment of Isokinetic Knee Flexor and Extensor Tests – Pitfalls of a Dynamometer- based Assessment
AU - Alt, Tobias
AU - Knicker, Axel
AU - Severin, Jannik
AU - Horn, Dennis
AU - Nodler, Yannick
AU - Strüder, Heiko Klaus
N1 - MEASUREMENT IN PHYSICAL EDUCATION AND EXERCISE SCIENCE 2020, VOL. 24, NO. 2, 123–128
PY - 2020/1
Y1 - 2020/1
N2 - Many sports demand high forces at high movement speeds. Joint power combines these two measures and is frequently analyzed by isokinetic tests. However, various concepts of assessing joint power lead to conflicting results. The aim was to examine different methods to calculate peak power during isokinetic knee tests of sixty-one healthy male participants (20 y, 182 cm, 76 kg). Unilateral movements of the eccentrically working hamstrings and the concentrically working quadriceps at 150°/s were captured by high-speed cameras. Peak power derived from isokinetic data was significantly higher (p < 0.01, d > 1.54) compared to the camera-based kinematic procedures. To achieve best accuracy, peak power should be derived from the camera- based joint angular velocity and the measured moment at time of peak power during the dynamometer’s isokinetic range of motion. A meaningful assessment of isokinetic joint power should incorporate a camera-based kinematic analysis to account for potential measuring inac- curacies owing to anatomical features, axis misalignment, and tissue deformation.
AB - Many sports demand high forces at high movement speeds. Joint power combines these two measures and is frequently analyzed by isokinetic tests. However, various concepts of assessing joint power lead to conflicting results. The aim was to examine different methods to calculate peak power during isokinetic knee tests of sixty-one healthy male participants (20 y, 182 cm, 76 kg). Unilateral movements of the eccentrically working hamstrings and the concentrically working quadriceps at 150°/s were captured by high-speed cameras. Peak power derived from isokinetic data was significantly higher (p < 0.01, d > 1.54) compared to the camera-based kinematic procedures. To achieve best accuracy, peak power should be derived from the camera- based joint angular velocity and the measured moment at time of peak power during the dynamometer’s isokinetic range of motion. A meaningful assessment of isokinetic joint power should incorporate a camera-based kinematic analysis to account for potential measuring inac- curacies owing to anatomical features, axis misalignment, and tissue deformation.
UR - https://www.mendeley.com/catalogue/14a4ec9a-1604-3220-bb5e-dc342c61e52f/
U2 - https://doi.org/10.1080/1091367X.2020.1716237
DO - https://doi.org/10.1080/1091367X.2020.1716237
M3 - Journal articles
SN - 1532-7841
SN - 1091-367X
VL - 24
SP - 123
EP - 128
JO - Measurement in Physical Education and Exercise Science
JF - Measurement in Physical Education and Exercise Science
IS - 2
ER -