Lower limb muscle activation and biomechanics during single-leg hopping in different directions
Yu Gu, Wanyan Su, Nawfal Malik, Thanh Nguyen, Anne Jordan, Trent Herda, Yu Song

TL;DR
This study compares muscle activation and biomechanics during single-leg hopping in different directions to better understand knee function and recovery.
Contribution
The study reveals how different hopping directions affect lower limb biomechanics and muscle activation, offering insights for knee rehabilitation assessments.
Findings
Forward hopping shows greater performance and hamstring activation but lower knee moments compared to other directions.
Backward hopping imposes the highest knee mechanical demands with minimal hip and ankle involvement.
Vertical hopping demonstrates the greatest knee angle and may be useful for monitoring quadriceps function.
Abstract
Single-leg forward and vertical hopping are commonly employed to evaluate knee neuromuscular function following anterior cruciate ligament reconstruction. However, similar hopping performance between limbs does not ensure full knee recovery. Single-leg backward hopping has been suggested to impose greater knee kinetics, but its effects on lower limb muscle activation and kinematics remain unclear. To quantify the effect of hopping directions on lower limb muscle activation and biomechanics during jumping, focusing on the knee joint. Forty-eight injury-free participants performed single-leg forward/vertical/backward hopping with motion, force, and surface electromyography data collected. Peak and mean muscle activation of quadriceps, hamstrings, and triceps surae, peak trunk/hip/knee/ankle angles, and hip/knee/ankle moments in the sagittal plane during the jumping phase were…
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Taxonomy
TopicsKnee injuries and reconstruction techniques · Total Knee Arthroplasty Outcomes · Muscle activation and electromyography studies
