Abstract
The main aim was to assess the short-term effects of active-tDCS (a-tDCS) in the primary motor cortex (anodal stimulation-M1) on sensorimotor variables. These variables included discriminative sensation through the two-point discrimination (2-PD) test, tactile acuity threshold and pressure pain threshold (PPT), and electromyographic (EMG) activity compared with a sham-tDCS (s-tDCS) in healthy individuals. A total of 100 participants were included. Fifty of the participants received the a-tDCS application of 2 mA for 20 min, whereas the remaining fifty received the s-tDCS. The 2-PD and tactile acuity threshold in thenar eminence of the hand and in the dorsal part of the foot and also, PPT and EMG activity during maximal voluntary contraction in the biceps brachii and rectus femoris were assessed before and after the tDCS application. The a-tDCS intervention was not significantly superior to the s-tDCS in any variable. However, significant within-group pre- and post-intervention differences were found in the a-tDCS, such as the tactile acuity threshold in thenar eminence of the hand, with a small effect size (p = .012, d = 0.20) and in the PPT of the rectus femoris, also with a small effect size (p = .001, d = − 0.17). Regarding EMG activity, a trend towards greater activity was observed in participants with a-tDCS compared with s-tDCS, which showed a trend towards decreased EMG activity. In fact, although no differences were found between the groups, within-group differences were statistically significant in the biceps brachii pre- and postintervention (p = .023, d = − 0.16, and p = .002, d = 0.18, respectively), and also in the rectus femoris, only in the a-tDCS, with a small effect size (p = .011, d = − 0.14). This study showed no significant between-group differences in sensorimotor outcomes. A single session of tDCS in isolation appears to produce immediate effects in healthy participants on sensorimotor function; however, these effects were very small.
Highlights
The main aim was to assess the short-term effects of active-Transcranial direct-current stimulation (tDCS) (a-tDCS) in the primary motor cortex on sensorimotor variables
Due to the lack of literature on the effects of tDCS on sensory-discriminative variables as well as contradictory findings regarding the effects on pain modulation and motor variables, the main aim of the present study was to assess the short-term effects of active-tDCS (a-tDCS) on the M1 regarding sensorimotor variables such as discriminative sensation, pressure pain threshold (PPT) and electromyographic activity compared with a sham-tDCS (s-tDCS) in healthy individuals
The main aim of the present study was to assess the short-term effects of a-tDCS in the M1 on sensorimotor variables including discriminative sensation, PPT and EMG activity compared with a sham-tDCS in healthy individuals
Summary
The main aim was to assess the short-term effects of active-tDCS (a-tDCS) in the primary motor cortex (anodal stimulation-M1) on sensorimotor variables. These variables included discriminative sensation through the two-point discrimination (2-PD) test, tactile acuity threshold and pressure pain threshold (PPT), and electromyographic (EMG) activity compared with a sham-tDCS (s-tDCS) in healthy individuals. The skin contains mechanical pressure receptors such as Ruffini’s corpuscles or Merkel’s discs, as well as free nerve endings that are activated after exceeding a certain threshold of activation Both thermoalgesic and tactile information converge in that they are exteroceptive sensitivity. The effects of tDCS on pain modulation are not yet fully understood[11]
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