Herz, Damian M.2; Christensen, Mark S.2; Bruggemann, Norbert2; Hulme, Oliver J.2; Ridderinkhof, K. Richard3; Madsen, Kristoffer H.4; Siebner, Hartwig R.2
1 Department of Applied Mathematics and Computer Science, Technical University of Denmark2 Copenhagen University Hospital3 University of Amsterdam4 Department of Informatics and Mathematical Modeling, Technical University of Denmark
It is critical for survival to quickly respond to environmental stimuli with the most appropriate action. This task becomes most challenging when response tendencies induced by relevant and irrelevant stimulus features are in conflict, and have to be resolved in real time. Inputs from the pre-supplementary motor area (pre-SMA) and inferior frontal gyrus (IFG) to the subthalamic nucleus (STN) are thought to support this function, but the connectivity and causality of these regions in calibrating motor control has not been delineated. In this study, we combined off-line noninvasive brain stimulation and functional magnetic resonance imaging, while young healthy human participants performed a modified version of the Simon task. We show that impairing pre-SMA function by noninvasive brain stimulation improved control over impulsive response tendencies, but only when participants were explicitly rewarded for fast and accurate responses. These effects were mediated by enhanced activation and connectivity of the IFG–STN pathway. These results provide causal evidence for a pivotal role of the IFG–STN pathway during action control. Additionally, they suggest a parallel rather than hierarchical organization of the pre-SMA–STN and IFG–STN pathways, since interruption of pre-SMA function can enhance IFG–STN connectivity and improve control over inappropriate responses.
Journal of Neuroscience, 2014, Vol 34, Issue 9, p. 3210-3217
fMRI; Motor control; pre-SMA; Reward; Simon task; TMS; Adult; Choice Behavior; Cues; Female; Frontal Lobe; Healthy Volunteers; Humans; Image Processing, Computer-Assisted; Magnetic Resonance Imaging; Male; Motivation; Neural Pathways; Neuropsychological Tests; Oxygen; Psychomotor Performance; Reaction Time; Subthalamus; Transcranial Magnetic Stimulation; Young Adult