Abstract
Structured abstractBackgroundDamage to the supplementary motor area (SMA) for example during surgery can lead to impairments of motor and language function. A detailed preoperative mapping of functional boarders of the SMA could therefore aid preoperative diagnostics in these patients.ObjectiveThe aim of this study was the development of a repetitive nTMS protocol for non-invasive functional mapping of the SMA while assuring effects are indeed caused by SMA stimulation rather than activation of M1.MethodsTo this purpose the SMA in the dominant hemisphere of twelve healthy subjects (28.2 ± 7.7 years, 6 females) was mapped using repetitive nTMS at 20 Hz (120% RMT), while subjects performed a finger tapping task. The location of induced errors was marked in each subject’s individual MRI. To further validate the protocol, effects of SMA stimulation were directly compared to effects of M1 stimulation in four different tasks.ResultsMapping of the SMA was possible for all subjects, yet varying effect sizes were observed. Stimulation of the SMA led to a significant reduction of finger taps compared to baseline (BL: 45 taps, SMA: 35.5 taps; p < 0.01). Line tracing, writing and targeting of circles was less accurate during SMA compared to M1 stimulation.ConclusionMapping of the SMA using repetitive nTMS is feasible. While errors induced in the SMA are not entirely independent of M1 due to the proximity of both regions, disruption of the SMA induces functionally distinct errors. These error maps can aid preoperative diagnostics in patients with SMA related lesions.
Publisher
Cold Spring Harbor Laboratory