Abstract
Nordic hamstring exercise is performed to prevent knee flexor muscle strain injuries and used to assess their injury risks. However, what exactly Nordic hamstring strength indicates is not clear. We investigated the relationship between Nordic hamstring strength and maximal voluntary contraction (MVC) torque of the knee flexors measured by an isokinetic dynamometer. Sixteen healthy young men who had not experienced hamstring strain injuries participated in the study. In Nordic hamstring, each participant was instructed to lean forward as far as possible in 3 s (approximately 30°/s), and force at the ankle joint of the dominant leg was measured during the movement. The force was multiplied by lower leg length and converted into torque. MVC torque of the knee flexors was measured isometrically at 30°, 45°, 60°, and 90° knee flexion joint angles, and concentrically and eccentrically at 30°/s and 60°/s in 10°–90° knee flexion for the dominant leg in a prone position. Correlations among the dependent variables were assessed using Pearson’s correlation coefficients. Peak Nordic hamstring torque ranged 96.8–163.5 Nm, and peak MVC eccentric torque ranged 50.7–109.4 Nm at 30°/s and 59.2–121.2 Nm at 60°/s. No significant correlations were evident between the peak Nordic hamstring torque and peak eccentric knee flexion torque (r = 0.24–0.3, p = 0.26–0.4). This was also the case for the Nordic hamstring torque and MVC torque of isometric (r = −0.03–0.1, p = 0.71–0.92) and concentric contractions (r = 0.28–0.49, p = 0.053–0.29). These results show that Nordic hamstring strength is not associated with the knee flexor torque measured by an isokinetic dynamometer. It may be that other factors than static and dynamic hamstring strengths affect Nordic hamstring strength.
Highlights
Hamstring strain injuries are common in sports, consisting of 12–15% of all injuries [1]
The most important finding was that no significant correlations between the peak Nordic hamstring (NH) torque and the peak maximal voluntary contraction (MVC) torque in isometric, concentric, and eccentric knee flexion measures by the isokinetic dynamometer were evident, but a significant correlation (r = −0.8) was observed between the peak NH torque and the break point angle during NH
The present study revealed that peak NH torque was not associated with the peak MVC torque in isometric, concentric, and eccentric knee flexion
Summary
ParticipantsSixteen healthy male university students who habitually performed resistance training including that for the knee flexors 2–3 times a week, were recruited for the present study. We assumed that the sample size (n = 16) was adequate to achieve the main purpose, because a previous study in which NH strength was examined [17] used a similar sample size to that of the present study. Their mean ± SD (range) age, body mass, height and lower leg length were 21.4 ± 1.0 (21–24) years, 66.5 ± 4.6 (60.7–75.8) kg, 1.71 ± 0.05 (1.66– 1.83) m, and 0.40 ± 0.03 (0.36–0.45) m, respectively. Study procedures and potential risks were explained to the participants, and each participant provided a written informed consent before participation in the study
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