Knee and Hip Joint Dynamics Differ between Sprinting and Nordic Hamstring Exercises

Background: Sprinting and Nordic hamstring exercise (NHE) programs are common training modalities used to reduce hamstring injury risk, but the differences in the biomechanical demands of sprinting and the NHE are unclear. The purpose of this study was to compare knee and hip joint kinematics and kinetics, and hamstrings muscle-tendon unit (MTU) length and velocity during the flight phase of sprinting and the NHE. Methods: We collected motion capture and force data from fourteen young athletic participants (8 males and 6 females) as they ran at a range of speeds (4-8 m/s) and performed the NHE. We used this experimental data and a musculoskeletal model to compute joint angles, moments, work, and power and to estimate the hamstrings MTU length and velocity for all running speeds and the NHE. Results: The peak knee flexion moment at running speeds of 6 m/s and above was greater than for the NHE (p < 0.001). Peak negative knee flexion power at all running speeds was higher than during the NHE (p < 0.001). Negative knee flexion work at running speeds of 6 m/s and slower was less than during the NHE (p < 0.001). Peak hamstrings length and lengthening velocity were greater (p < 0.001) for all running speeds compared to the NHE. Conclusion: Sprinting puts the hamstrings at longer hamstrings lengths and higher hamstrings lengthening velocities than the NHE. The NHE requires participants to generate peak knee flexion moments that are smaller than the peak knee flexion moments generated during top speed sprinting and peak negative knee flexion powers that are less than 5% of sprinting. However, the duration of each NHE repetition is approximately 60 times longer than the hamstrings lengthening portion of the flight phase of running, resulting in comparable negative knee work. The results of this study provide necessary quantitative information to compare the biomechanical demands of sprinting and the NHE.