Acute and Residual Neuromuscular Effects of Displacement in Indirect Vibratory Stimulation.

The aim of this study was to evaluate the effect of indirect vibratory stimulation on different magnitudes of displacement on acute and residual neuromuscular responses. Fifteen healthy volunteers were randomly submitted to 3 experimental sessions, with intervals of 5 to 7 days (5 maximal voluntary contractions - MVC, 12 s of duration each and 5 min of recovery) between sessions. To determine the residual responses, the volunteers performed a MVC before and after each treatment for 12 s, with a 5-minute recovery. The experimental sessions were composed of isometric actions without vibrations (CONTROL) and two sessions of isometric actions with the addition of vibrations at 20 Hz and 3 mm (Sinusoidal Vibration A) and 5 mm (Sinusoidal Vibration B). Before and after each of the experimental sessions, an isometric evaluation without vibrations was performed. For the acute effect, it was verified that the addition of vibrations induced a facilitatory effect on the explosive strength variables (p < .05), independent of the type of studied displacement in relation to the control treatment. In short, it was verified that the addition of vibration induced an acute facilitating effect on the explosive strength. However, the induced effect was not persistent (residual effect) for the explosive strength.