To use our website in an optimal way, please activate JavaScript in your Browser.

Eur J Appl Physiol Occup Physiol., 1999; 79(4): 306-11, PMID: 10090628

Influence of vibration on mechanical power and electromyogram activity in human arm flexor muscles

Year: 1999

Bosco C, Cardinale M, Tsarpela O
University of Rome-Tor Vergata, Fondazione Don Gnocchi, Italy.


The aim of this study was to evaluate the influence of vibration on the mechanical properties of arm flexors. A group of 12 international level boxers, all members of the Italian national team, voluntarily participated in the experiment: all were engaged in regular boxing training. At the beginning of the study they were tested whilst performing forearm flexion with an extra load equal to 5% of the subjects" body mass. Following this. one arm was given the experimental treatment (E; mechanical vibration) and the other was the control (no treatment). The E treatment consisted of five repetitions lasting 1-min each of mechanical vibration applied during arm flexion in isometric conditions with 1 min rest between them. Further tests were performed 5 min immediately after the treatment on both limbs. The results showed statistically significant enhancement of the average power in the arm treated with vibrations. The root mean square electromyogram (EMGrms) had not changed following the treatment but, when divided by mechanical power, (P) as an index of neural efficiency, it showed statistically significant increases. It was concluded that mechanical vibrations enhanced muscle P and decreased the related EMG/P relationship in elite athletes. Moreover, the analysis of EMGrms recorded before the treatment and during the treatment itself showed an enormous increase in neural activity during vibration up to more than twice the baseline values. This would indicate that this type of treatment is able to stimulate the neuromuscular system more than other treatments used to improve neuromuscular properties.

Keywords: Galileo Dumbbell, Galileo Hantel, Vibrationshantel, vibrating Bumbbell
GID: 371; Last update: 04.12.2007