Abstract
Abstract Study aim This study was aimed to analysis in detail how different tempos [2:0:2 (30 bpm), 1:0:1 (60 bpm), Explosive (EXP)] effect to ground reaction forces (vGRF) and joint kinematics of push-up exercise (PUP). Material and methods Twenty-four recreationally male athletes (age: 24.9 ± 3.6 years) participated in this study. Kinetic and kinematic data were obtained by load-cells and a motion analysis software. Data was analysed from a single repetition which is showed peak vGRF of dominant side during PUP. Joint velocities were calculated by taking the difference between the descent and ascent phases. Results There was significant difference between 2:0:2 (30 bpm) – EXP in terms of dominant side of shoulder (p ≤ 0.02) and between 1:0:1 (60 bpm) – EXP in the dominant elbow joint displacements (p ≤ 0.05). The velocity differences between the descent and ascent phases of shoulder and elbow joints were found statistically significant between tempos (p ≤ 0.05). In terms of range of motion (ROM) of right and left side, there was significant differences between tempos (p ≤ 0.001). No significant differences were found between all tempos in the ascent phase of right-left and left descent phase in terms of average vGRF (p > 0.05) except right descent average vGRF (p ≤ 0.02). Conclusions In conclusion, right-left sides of ROM was used most effectively in 2:0:2 (30 bpm) and 1:0:1 (60 bpm) tempos. Less displacement was also observed in EXP and when tempo increased percentage of peak vGRF (at elbow flexion phase for right-left sides) to total repetition decreased. Highest ascent and descent phase velocity differences (for right-left sides) and highest peak vGRF (elbow flexion phase) observed in EXP. This study shows that increasing tempo will result in more unsteady joint kinematics and more vGRF, so if the goal is controlled and safe PUP, tempo should be slow.
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