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You are here: Home Publications CENs Bibliography Functional magnetic resonance imaging of sensorimotor transformations in saccades and antisaccades

Nora A Herweg, Bernd Weber, Anna-Maria Kasparbauer, Inga Meyhöfer, Maria Steffens, Nikos Smyrnis, and Ulrich Ettinger (2014)

Functional magnetic resonance imaging of sensorimotor transformations in saccades and antisaccades

NeuroImage, 102:848--860.

Saccades to peripheral targets require a direct visuomotor transformation. In contrast, antisaccades, saccades in opposite direction of a peripheral target, require more complex transformation processes due to the inversion of the spatial vector. Here, the differential neural mechanisms underlying sensorimotor control in saccades and antisaccades were investigated using functional magnetic resonance imaging (fMRI) at 3 T field strength in 22 human volunteers. We combined a task factor (prosaccades: look towards target; antisaccades: look away from target) with a parametric factor of transformation demand (single vs. multiple peripheral targets) in a two-factorial block design. Behaviorally, a greater number of peripheral targets resulted in decreased spatial accuracy and increased reaction times in antisaccades. No effects were seen on the percentage of antisaccade direction errors or on any prosaccade measures. Neurally, a greater number of targets led to increased BOLD signal in the posterior parietal cortex (PPC) bilaterally. This effect was partially qualified by an interaction that extended into somatosensory cortex, indicating greater increases during antisaccades than prosaccades. The results implicate the PPC as a sensorimotor interface that is especially important in nonstandard mapping for antisaccades and point to a supportive role ofsomatosensory areas in antisaccade sensorimotor control, possibly by means of proprioceptive processes.

Dorsal stream, Eye movements, Parietal cortex, Sensorimotor transformation, fMRI
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