Abstract
PurposeTo determine the effects of asymmetric loads on muscle activity with the bench press.MethodSeventeen resistance-trained men performed one familiarization session including testing one repetition maximum (1RM) and three 5 repetition maximum (RM) lifts; using symmetric loads, 5% asymmetric loads, and 10% asymmetric loads. The asymmetric loading (i.e., reduced load on one side) was calculated as 5% and 10% of the subject`s 1RM load. In the experimental session, the three conditions of 5RM were conducted with electromyographic activity from the pectoralis major, triceps brachii, biceps brachii, anterior deltoid, posterior deltoid, and external oblique on both sides of the body.ResultsOn the loaded side, asymmetric loads reduced triceps brachii activation compared to symmetric loads, whereas the other muscles demonstrated similar muscle activity between the three conditions. On the de-loaded side, 10% asymmetry in loading resulted in lower pectoralis major, anterior deltoid, and biceps brachii activation compared to 5% asymmetric and symmetric loading. On the de-loaded side, only pectoralis major demonstrated lower muscle activation than symmetric loads. Furthermore, asymmetric loads increased external oblique activation on both sides compared to symmetric loads.ConclusionsAsymmetric bench press loads reduced chest and shoulder muscle activity on the de-loaded side while maintaining the muscle activity for the loaded side. The authors recommend resistance-trained participants struggling with strength imbalances between sides, or activities require asymmetric force generation (i.e., alpine skiing or martial arts), to implement asymmetric training as a supplement to the traditional resistance training.
Highlights
Bench press is one of the most frequently used exercises to improve upper body strength and power among athletes, fitness, and health enthusiasts
On the de-loaded side, the pectoralis major demonstrated 20.3% and 80.4% greater muscle activity with symmetric loading compared to 5% (p = 0.002, effect size (ES) = 0.54) and 10% (p < 0.001, ES = 1.27) asymmetric loads (Fig. 2a)
Similar muscle activity was observed on the loaded side with the pectoralis major and anterior deltoid, whereas the muscle activity decreased with increasing asymmetry in the de-loaded side
Summary
Bench press is one of the most frequently used exercises to improve upper body strength and power among athletes, fitness, and health enthusiasts. Bench press is typically performed lying supine with the head, shoulders, and buttocks in contact with the bench. The barbell is lowered to the chest before being pressed upwards until the elbows are fully extended. Due to a multiplicity of reasons, many individuals experience different strength levels between the sides of the body (asymmetry) (Schmid et al 2010). The lack of symmetry in muscle strength between sides may result in shoulder pain, injuries, or the inability to return to sports or activities. To the authors’ knowledge, no previous study has examined the effects of performing unbalanced loads referred to as asymmetric lifting (i.e., more loads on one side of the barbell)
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