Mesial Motor Areas in Self-Initiated Versus Externally Triggered Movements Examined With fMRI: Effect of Movement Type and Rate

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Mesial Motor Areas in Self-Initiated Versus Externally Triggered Movements Examined With fMRI: Effect of Movement Type and Rate

Marie-Pierre Deiber,¹^,² Manabu Honda,¹ Vicente Ibañez,¹ Norihiro Sadato,¹^,³ and Mark Hallett¹

¹Human Motor Control Section, Medical Neurology Branch, National Institute of Neurological Disorders and Stroke, National Institutes of Health, Bethesda, Maryland 20892-1428; ²Institut National de la Santé et de la Recherche Médicale, Centre d'Exploration et de Recherche Médicales par Emission de Positons, 69003 Lyon, France; and ³Department of Radiology, Fukui Medical School, Shimoaizuki 23, Yoshida, Fukui, Japan

Deiber, Marie-Pierre, Manabu Honda, Vicente Ibañez, Norihiro Sadato, and Mark Hallett. Mesial Motor Areas in Self-Initiated Versus Externally Triggered Movements Examined With fMRI: Effect of Movement Type and Rate. J. Neurophysiol. 81: 3065-3077, 1999.Mesial motor areas in self-initiated versus externally triggered movements examined with fMRI: effect of movement type andrate. The human frontomesial cortex reportedly contains at leastfour cortical areas that are involved in motor control: the anteriorsupplementary motor area (pre-SMA), the posterior SMA (SMA proper,or SMA), and, in the anterior cingulate cortex, the rostral cingulatezone (RCZ) and the caudal cingulate zone (CCZ). We used functionalmagnetic resonance imaging (fMRI) to examine the role of eachof these mesial motor areas in self-initiated and visually triggeredmovements. Healthy subjects performed self-initiated movementsof the right fingers (self-initiated task, SI). Each movementelicited a visual signal that was recorded. The recorded sequenceof visual signals was played back, and the subjects moved theright fingers in response to each signal (visually triggered task,VT). There were two types of movements: repetitive (FIXED) orsequential (SEQUENCE), performed at two different rates: SLOWor FAST. The four regions of interest (pre-SMA, SMA, RCZ, CCZ)were traced on a high-resolution MRI of each subject's brain.Descriptive analysis, consisting of individual assessment of significantactivation, revealed a bilateral activation in the four mesialstructures for all movement conditions, but SI movements weremore efficient than VT movements. The more complex and more rapidthe movements, the smaller the difference in activation efficiencybetween the SI and the VT tasks, which indicated an additionalprocessing role of the mesial motor areas involving both the typeand rate of movements. Quantitative analysis was performed onthe spatial extent of the area activated and the percentage ofchange in signal amplitude. In the pre-SMA, activation was moreextensive for SI than for VT movements, and for fast than forslow movements; the extent of activation was larger in the ipsilateralpre-SMA. In the SMA, the difference was not significant in theextent and magnitude of activation between SI and VT movements,but activation was more extensive for sequential than for fixedmovements. In the RCZ and CCZ, both the extent and magnitude ofactivation were larger for SI than for VT movements. In the CCZ,both indices of activation were also larger for sequential thanfor fixed movements, and for fast than for slow movements. Thesedata suggest functional specificities of the frontomesial motorareas with respect not only to the mode of movement initiation(self-initiated or externally triggered) but also to the movementtype andrate.

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