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Literature DB >> 2311708

Gating of tactile input from the hand. I. Effects of finger movement.

R F Schmidt¹, W J Schady, H E Torebjörk.

Abstract

Intraneural microstimulation within the median nerve of alert healthy subjects was used to evoke tactile sensations at threshold for conscious detection. The effect of movement on these sensations was studied by asking the subjects to estimate their magnitude before, during and after movement of the appropriate finger at different speeds. It was found that sensations of flutter and pressure were both attenuated by movement, as was the magnitude of spontaneous paraesthesiae. The degree of sensory inhibition correlated positively with speed of movement and was comparable to the previously reported reduction in cortical somatosensory evoked potentials by movement, using suprathreshold stimuli. These results indicate that (i) movement inhibits tactile sensations of different qualities, (ii) such inhibition is velocity-dependent, and (iii) threshold sensations are amenable to central modulation short of their abolition. It is likely that the mechanisms of inhibition of exteroceptive inputs during movement are contingent upon the character of the sensory stimulus and the nature of the motor task.

Entities: Disease

Mesh：

Year: 1990 PMID： 2311708 DOI： 10.1007/bf00228877

Source DB: PubMed Journal: Exp Brain Res ISSN： 0014-4819 Impact factor: 1.972

22 in total

Gating of tactile input from the hand. I. Effects of finger movement.

1. Inhibition of cortical evoked potentials and sensation by self-initiated movement in man.

2. Velocity-dependent suppression of somatosensory evoked potentials during movement.

3. Inhibition of cuneate neurones: its afferent source and influence on dynamically sensitive "tactile" neurones.

4. [Modifications of somaesthetic cortical evoked potentials during active and passive movements in man].

5. Detection of tactile stimuli. Thresholds of afferent units related to psychophysical thresholds in the human hand.

6. Cerebral evoked potentials and somatosensory perception.

7. The role of cutaneous afferents in position sense, kinaesthesia, and motor function of the hand.

8. Velocity-dependent suppression of cutaneous sensitivity during movement.

9. Proprioceptive modulation of somatosensory evoked potentials during active or passive finger movements in man.

10. Gating of somatosensory evoked potentials during different kinds of movement in man.

1. Movement-related modulation of vibrotactile detection thresholds in the human orofacial system.

2. Low-level static lip force control does not alter vibrotactile detection thresholds in the human orofacial system.

3. Jaw movement alters the reaction of human jaw muscles to incisor stimulation.

4. Multisensory enhancement: gains in choice and in simple response times.

5. A critical speed for gating of tactile detection during voluntary movement.

6. Haptic localization and the internal representation of the hand in space.

7. Gating of tactile input from the hand. II. Effects of remote movements and anaesthesia.

8. Gating of sensation and evoked potentials following foot stimulation during human gait.

9. Enhancement of response times to bi- and tri-modal sensory stimuli during active movements.

10. Voice-related modulation of mechanosensory detection thresholds in the human larynx.