Motor performance changes induced by muscle vibration

The possibility that mechanical stimulation of selected muscles can act directly on the nervous system inducing persistent changes of motor performances was explored. On the basis of literature, stimulating parameters were chosen to stimulate the central nervous system and to avoid muscle fibre inju...

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Bibliographic Details
Published in:European journal of applied physiology 2006-09, Vol.98 (1), p.79-87
Main Authors: Fattorini, Luigi, Ferraresi, Aldo, Rodio, Angelo, Azzena, Gian Battista, Filippi, Guido Maria
Format: Article
Language:English
Subjects:
Adaptation, Physiological - physiology
Adult
Female
Humans
Male
Motor Skills - physiology
Muscle Contraction - physiology
Muscle Fatigue - physiology
Muscle, Skeletal - innervation
Muscle, Skeletal - physiology
Muscular system
Nervous system
Physical Exertion - physiology
Physical Stimulation - methods
Vibration
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Summary:The possibility that mechanical stimulation of selected muscles can act directly on the nervous system inducing persistent changes of motor performances was explored. On the basis of literature, stimulating parameters were chosen to stimulate the central nervous system and to avoid muscle fibre injuries. A sinusoidal mechanical vibration was applied, for three consecutive days, on the quadriceps muscle in seven subjects that performed a muscular contraction (VC). The same stimulation paradigm was applied on seven subjects in relaxed muscle condition (VR) and seven subjects were not treated at all (NV). Two sessions (PRE and POST) of isometric and isotonic tests were performed separated for 21 days, in all studied groups 7 days before and 15 days after stimulation, whilst an isokinetic test was performed on VC only. In the isometric test, the time of force development showed a significant decrease only in VC (POST vs PRE mean 27.8%, P < 0.05). In the isotonic test, the subjects' had to perform a fatiguing leg extension against a load. In this condition, the fatigue resistance increased greatly in VC (mean 40.3%, P < 0.001), increased slightly in VR and there was no difference in NV. In Isokinetic test, at several angular velocities, significantly less time was required to reach the force peak (mean 20.2% P < 0.05). The findings could be ascribed to plastic changes in proprioceptive processing, leading to an improvement in knee joint control. Such action delineates a new tool in sports training and in motor rehabilitation.
ISSN:1439-6319
1439-6327
DOI:10.1007/s00421-006-0250-5