Repetitive transcranial magnetic stimulation over the primary motor cortex disrupts early boost but not delayed gains in performance in motor sequence learning.

In humans the consolidation of recently learned motor skills is a multi-step process. We previously showed that performance on the finger-tapping task (FTT; i.e. a sequential motor skill) temporarily improves early on, 5-30 min after practice has ended, but not 4 h later. In the absence of any further practice to the task, this early boost in performance was predictive of the performance levels eventually achieved 48 h later, suggesting its functional relevance for long-term memory consolidation [Hotermans, Peigneux, Maertens de Noordhout, Moonen, and Maquet (2006) Early boost and slow consolidation in motor skill learning. Learn. Mem., 13, 580-583]. Here, we focused on the role of the primary motor cortex (M1) in consolidation using repetitive transcranial magnetic stimulation (rTMS) applied immediately before testing at 30 min, 4 or 24 h after practice of the FTT. Immediately after learning, rTMS over M1 depressed the early boost in performance, but did not affect the delayed improvement observed 48 h later. Four and 24 h after practice, rTMS did not disrupt performance anymore. These results suggest that M1 supports performance during the early post-training phase of motor skill consolidation, but is no longer mandatory in the subsequent, delayed stages of consolidation.