Neural Activity in Primate Parietal Area 7a Related to Spatial Analysis of Visual Mazes

doi:10.1093/cercor/bhg088

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Cerebral Cortex January 2004; 14:23-34
© Oxford University Press 2004

Neural Activity in Primate Parietal Area 7a Related to Spatial Analysis of Visual Mazes

David A. Crowe¹^,2, Matthew V. Chafee¹^,3, Bruno B. Averbeck¹^,2 and Apostolos P. Georgopoulos¹^,1^,5

¹ Brain Sciences Center, Veterans Affairs Medical Center, Minneapolis, MN, ² Graduate Program in Neuroscience, University of Minnesota, Minneapolis, MN, ³ Departments of Neuroscience, Neurology, ⁵ Psychiatry, University of Minnesota Medical School, Minneapolis, MN, USA

Cognitive psychological studies of humans and monkeys solvingvisual mazes have provided evidence that a covert analysis ofthe maze takes place during periods of eye fixation interspersedbetween saccades, or when mazes are solved without eye movements.We investigated the neural basis of this process in posteriorparietal cortex by recording the activity of single neuronsin area 7a during maze solution. Monkeys were required to determinefrom a single point of fixation whether a critical path throughthe maze reached an exit or a blind ending. We found that duringthis process the activity of approximately one in four neuronsin area 7a was spatially tuned to maze path direction. We obtainedevidence that path tuning did not reflect a covert saccade planinsofar as the majority of neurons active during maze solutionwere not active on a delayed-saccade control task, and the minoritythat were active on both tasks did not exhibit congruent spatialtuning in the two conditions. We also obtained evidence thatpath tuning during maze solution was not due to the locationsof visual receptive fields mapped outside the behavioral contextof maze solution, in that receptive field centers and preferredpath directions were not spatially aligned. Finally, neuronstuned to path direction were not present in area 7a when a naïveanimal viewed the same visual maze stimuli but did not solvethem. These data support the hypothesis that path tuning inparietal cortex is not due to the lower level visual featuresof the maze stimulus, but rather is associated with maze solution,and as such, reflects a cognitive process applied to a complexvisual stimulus.

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