Primary motor cortex function and motor skill acquisition: insights from threshold-hunting TMS.

Modulation of GABA-mediated inhibition in primary motor cortex (M1) is important for the induction of training-induced plasticity. The downregulation of inhibition during acquisition may promote cortical reorganization, whereas an upregulation once performance has plateaued may promote consolidation of the newly acquired skill. GABA-related inhibition in human M1 is routinely assessed using the paired-pulse transcranial magnetic stimulation (TMS) paradigm of short-interval intracortical inhibition (SICI). However, modulation of SICI with motor skill learning is not a consistent finding and may be influenced by TMS parameters. The aim of this study was to compare the modulation of SICI by motor skill learning between conventional and adaptive threshold-hunting techniques with an anterior-posterior and posterior-anterior induced current. Sixteen participants (21-33 years) trained with their dominant (right) hand on a sequential visual isometric pinch task. Electromyographic recordings were obtained from the right first dorsal interosseous muscle. Corticomotor excitability and SICI were examined before and immediately after 12 blocks of training. Skill increased throughout the training, with performance plateauing before completion. Corticomotor excitability increased after motor training for both current directions. The amount of SICI was greater with anterior-posterior stimulation than posterior-anterior for both conventional and adaptive threshold-hunting techniques. SICI increased after motor training, but only for adaptive threshold-hunting with an anterior-posterior-induced current. The increased GABA-mediated inhibition evident after motor skill learning may promote consolidation of the newly acquired skill. The findings also support the notion that adaptive threshold-hunting SICI using an anterior-posterior current provides an effective assessment in interventional studies.