Cerebrocerebellar Circuits for the Perceptual Cancellation of Eye-movement-induced Retinal Image Motion

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(Journal of Cognitive Neuroscience. 2006;18:1899-1912.)
© 2006 The MIT Press

Cerebrocerebellar Circuits for the Perceptual Cancellation of Eye-movement-induced Retinal Image Motion

Axel Lindner, Thomas Haarmeier, Michael Erb, Wolfgang Grodd and Peter Thier

Hertie-Institut für Clinical Brain Research, Germany

Reprint requests should be sent to Peter Thier or Alex Lindner, Hertie-Institute for Clinical Brain Research, Department of Cognitive Neurology, Hoppe-Seyler-Str. 3, 72076 Tübingen, Germany, or via e-mail: thier{at}uni-tuebingen.dealindner{at}caltech.edu.

Despite smooth pursuit eye movements, we are unaware of resultantretinal image motion. This example of perceptual invarianceis achieved by comparing retinal image slip with an internalreference signal predicting the sensory consequences of theeye movement. This prediction can be manipulated experimentally,allowing one to vary the amount of self-induced image motionfor which the reference signal compensates and, accordingly,the resulting percept of motion. Here we were able to map regionsin CRUS I within the lateral cerebellar hemispheres that exhibiteda significant correlation between functional magnetic resonanceimaging signal amplitudes and the amount of motion predictedby the reference signal. The fact that these cerebellar regionswere found to be functionally coupled with the left parieto-insularcortex and the supplementary eye fields points to these corticalareas as the sites of interaction between predicted and experiencedsensory events, ultimately giving rise to the perception ofa stable world despite self-induced retinal motion.

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