Muscular responses appear to be associated with existence of kinesthetic perception during combination of tendon co-vibration and motor imagery

Exp Brain Res. 2017 Nov;235(11):3417-3425. doi: 10.1007/s00221-017-5057-6. Epub 2017 Aug 19.

Abstract

The afferent inputs from peripheral sensory receptors and efferent signals from the central nervous system that underlie intentional movement can contribute to kinesthetic perception. Previous studies have revealed that tendon vibration to wrist muscles elicits an excitatory response-known as the antagonist vibratory response-in muscles antagonistic to the vibrated muscles. Therefore, the present study aimed to further investigate the effect of tendon vibration combined with motor imagery on kinesthetic perception and muscular activation. Two vibrators were applied to the tendons of the left flexor carpi radialis and extensor carpi radialis. When the vibration frequency was the same between flexors and extensors, no participant perceived movement and no muscle activity was induced. When participants imagined flexing their wrists during tendon vibration, the velocity of perceptual flexion movement increased. Furthermore, muscle activity of the flexor increased only during motor imagery. These results demonstrate that kinesthetic perception can be induced during the combination of motor imagery and co-vibration, even with no experience of kinesthetic perception from an afferent input with co-vibration at the same frequency. Although motor responses were observed during combined co-vibration and motor imagery, no such motor responses were recorded during either co-vibration alone or motor imagery alone, suggesting that muscular responses during the combined condition are associated with kinesthetic perception. Thus, the present findings indicate that kinesthetic perception is influenced by the interaction between afferent input from muscle spindles and the efferent signals that underlie intentional movement. We propose that the physiological behavior resulting from kinesthetic perception affects the process of modifying agonist muscle activity, which will be investigated in a future study.

Keywords: Antagonist vibratory response; Kinesthetic perception; Motor imagery; Proprioceptive input; Tendon vibration.

MeSH terms

  • Adult
  • Electromyography
  • Female
  • Forearm / physiology
  • Humans
  • Imagination / physiology*
  • Kinesthesis / physiology*
  • Male
  • Motor Activity / physiology*
  • Muscle, Skeletal / physiology*
  • Tendons / physiology
  • Vibration
  • Wrist / physiology*
  • Young Adult