Introduction This study investigated the acute effects of post-activation potentiation (PAP) induced by predominantly inertial loading on upper-body muscle mechanics, with particular consideration for applications in racket sports performance. Methods Fifteen participants experienced in resistance training completed two testing sessions. During the first session, participants underwent anthropometric assessment, familiarization with the bench press throw under inertial resistance, and determination of one-repetition maximum (1RM). The second session included a pre-test, a PAP protocol consisting of 2 sets of 3 ballistic chest press repetitions at approximately 80%–90% 1RM with inertial loading (rubber bands counteracted gravitational force to provide predominantly inertial load), followed by a post-test after five minutes of standardized rest. Performance variables—movement velocity, power, and maximal force—were recorded. Results Results demonstrated significant increases in movement velocity and maximal power output following PAP ( p ≤ 0.05), while maximal force significantly decreased. Consequently, the force–velocity relationship exhibited a rightward shift. Conclusion These findings indicate that predominantly inertial loading can effectively elicit PAP and enhance explosive upper-body performance. Such effects may be particularly beneficial for athletes in racket sports, where rapid, high-velocity upper-limb actions performed under light external loads are critical for optimizing stroke power and precision.
Pajić et al. (Tue,) studied this question.