Abstract
Background Asymmetry in lower limb muscle strength and weight-bearing imbalance, commonly observed among athletes, individuals with unilateral impairments, and stroke survivors, require targeted interventions to correct left-right imbalances. Such corrections are essential for enhancing athletic performance, minimizing injury risks in athletes, and improving gait functionality and daily activity efficiency in patients. This study explored, in healthy participants, the potential of combining squat training with optokinetic stimulation (OKS) in an immersive environment to improve left-right balance and address asymmetries in muscle activity and weight distribution. Methodology OKS was delivered using a random dot pattern rotating around either the longitudinal axis (horizontal OKS (HOKS)) or the frontal axis (torsional OKS (TOKS)) during squats. Weight-bearing was evaluated by analyzing the center of pressure (CoP) position and foot pressure (FP). Electromyography (EMG) activity was recorded from the following four leg muscles: the vastus lateralis, vastus medialis, semitendinosus, and biceps femoris. Results Both HOKS and TOKS increased the CoP sway during squats by 38.6% and 58.6%, respectively, compared to the control. However, only TOKS caused a significant weight-bearing shift toward the stimulus side. During TOKS, FP significantly increased by 10.9% on the stimulus side and decreased by 8.9% on the non-stimulus side, reinforcing the weight-bearing shift. Additionally, EMG activity was significantly elevated by 3.4% on the stimulus side during TOKS, both during the flexion and extension phases. Safety was confirmed during all measurements. Conclusions These findings indicate that TOKS induces a shift in weight-bearing and enhances muscle activity, highlighting its potential as a therapeutic intervention for correcting asymmetrical patterns in muscle activity and weight distribution.