Tuning for the orientation of spatial attention in dorsal premotor cortex.

We tested whether neuronal activity in the dorsal premotor cortex (PMd) reflected the orientation of selective spatial attention, as opposed to the target of a reaching movement, eye position and saccade direction. These four spatial variables were dissociated in two tasks, which both required that a monkey attend to a robot's location in order to know when to make a movement. However, the target of the reaching movement varied; it was the robot's location in one task, but a different location in the other task. Eye position was recorded, but not explicitly controlled. Of 199 PMd neurons sampled, 19% had activity related to eye position, and an overlapping 11% were related to saccade direction (totaling 24% of the PMd sample). Of the 152 PMd neurons that lacked oculomotor relationships, approximately 20% reflected the orientation of selective spatial attention. Attentional tuning may account, at least in part, for gaze-independent receptive fields and visuospatial, target or goal relationships in tasks involving stimulus-response incompatibility.