@article{ref1,
title="Perceptual modulation of motor--but not visual--responses in the frontal eye field during an urgent-decision task",
journal="Journal of neuroscience",
year="2013",
author="Costello, M. Gabriela and Zhu, Dantong and Salinas, Emilio and Stanford, Terrence R.",
volume="33",
number="41",
pages="16394-16408",
abstract="Neuronal activity in the frontal eye field (FEF) ranges from purely motor (related to saccade production) to purely visual (related to stimulus presence). According to numerous studies, visual responses correlate strongly with early perceptual analysis of the visual scene, including the deployment of spatial attention, whereas motor responses do not. Thus, functionally, the consensus is that visually responsive FEF neurons select a target among visible objects, whereas motor-related neurons plan specific eye movements based on such earlier target selection. However, these conclusions are based on behavioral tasks that themselves promote a serial arrangement of perceptual analysis followed by motor planning. So, is the presumed functional hierarchy in FEF an intrinsic property of its circuitry or does it reflect just one possible mode of operation? We investigate this in monkeys performing a rapid-choice task in which, crucially, motor planning always starts ahead of task-critical perceptual analysis, and the two relevant spatial locations are equally informative and equally likely to be target or distracter. We find that the choice is instantiated in FEF as a competition between oculomotor plans, in agreement with model predictions. Notably, although perception strongly influences the motor neurons, it has little if any measurable impact on the visual cells; more generally, the more dominant the visual response, the weaker the perceptual modulation. The results indicate that, contrary to expectations, during rapid saccadic choices perceptual information may directly modulate ongoing saccadic plans, and this process is not contingent on prior selection of the saccadic goal by visually driven FEF responses. Language: en
",
language="en",
issn="0270-6474",
doi="10.1523/JNEUROSCI.1899-13.2013",
url="http://dx.doi.org/10.1523/JNEUROSCI.1899-13.2013"
}