Visual, delay and oculomotor timing and tuning in macaque dorsal pulvinar during instructed and free choice memory saccades

Abstract

AbstractCausal perturbation studies suggest that the primate dorsal pulvinar (dPul) plays a crucial role in target selection and saccade planning, but many of its basic visuomotor neuronal properties are unclear. While some functional aspects of dPul and interconnected frontoparietal areas – such as ipsilesional choice bias after inactivation – are similar, it is not known if dPul neurons share oculomotor response properties of cortical circuitry. In particular, the delay period and choice-related activity have not been explored. Here we investigated visuomotor timing and tuning in macaque dPul during instructed and free choice memory saccades using electrophysiological recordings. Most units (80%) showed significant visual (16%), visuomotor (29%) or motor-related (35%) responses. Visual cue responses were mainly contralaterally-tuned; motor responses showed weak contralateral bias. Saccade-related responses (enhancement and suppression) were more common (64%) than cue-driven responses (45%). Pre-saccadic enhancement was less frequent (9-15% depending on the definition), and only few units exhibited classical visuomotor patterns such as a combination of cue and continuous delay period activity up to the saccade onset, or pre-saccadic ramping. Instead, activity was often suppressed during movement planning (30%) and execution phases (19%). Interestingly, most spatially-selective neurons did not encode the upcoming decision during the delay in free choice trials. Thus, in absence of a visible goal, the dorsal pulvinar has only a limited role in the prospective motor planning, with response patterns partially complementary to its frontoparietal cortical partners. Conversely, prevalent cue and post-saccadic responses imply that the dorsal pulvinar participates in integrating spatial goals with processing across saccades.