Neuronal Responses in Area 7a to Multiple-stimulus Displays: I. Neurons Encode the Location of the Salient Stimulus

doi:10.1093/cercor/11.7.581

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Cerebral Cortex, Vol. 11, No. 7, 581-591, July 2001
© 2001 Oxford University Press

Neuronal Responses in Area 7a to Multiple-stimulus Displays: I. Neurons Encode the Location of the Salient Stimulus

Christos Constantinidis^,1 and Michael A. Steinmetz

Zanvyl Krieger Mind/Brain Institute, Johns Hopkins University, 3400 N. Charles Street/Krieger Hall, Baltimore, MD 21218, USA

The primate posterior parietal cortex (PPC) plays an importantrole in representing and recalling spatial relationships andin the ability to orient visual attention. This is evidencedby the parietal activation observed in brain imaging experimentsperformed during visuo- spatial tasks, and by the contralateralneglect syndrome that often accompanies parietal lesions. Individualneurons in monkey parietal cortex respond vigorously to theappearance of single, behaviorally relevant stimuli, but littleis known about how they respond to more complex visual displays.The current experiments addressed this issue by recording activityfrom single neurons in area 7a of the PPC in monkeys performinga spatial version of a match-to-sample task. The task requiredthem to locate salient stimuli in multiple-stimulus displaysand release a lever after a subsequent stimulus appeared atthe same location. Neurons responded preferentially to the appearanceof salient stimuli inside their receptive fields. The presenceof multiple stimuli did not affect appreciably the spatial tuningof responses in the majority of neurons or the population codefor the location of the salient stimulus. Responses to salientstimuli could be distinguished from background stimuli ~100 msafter the onset of the cue. These results suggest thatarea 7a neurons represent the location of the stimulus attractingthe animal's attention and can provide the spatial informationrequired for directing attention to a salient stimulus in acomplex scene.

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