The role of the ventrolateral frontal cortex in inhibitory oculomotor control

doi:10.1093/brain/awm064

Brain Advance Access published online on April 23, 2007
Brain, doi:10.1093/brain/awm064

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The role of the ventrolateral frontal cortex in inhibitory oculomotor control

Tim Hodgson¹, Marcia Chamberlain², Benjamin Parris¹, Martin James³, Nicholas Gutowski³, Masud Husain⁴ and Christopher Kennard²

¹Exeter Centre for Cognitive Neuroscience, School of Psychology, University of Exeter, Washington Singer Laboratories, Prince of Wales Road, Exeter EX4 4QG, ²Division of Neuroscience, Imperial College School of Science Technology and Medicine, Faculty of Medicine, Charing Cross Campus, 10th Floor East Wing, St Dunstans Road, London W6 8RP, ³Royal Devon and Exeter Hospital, Barrack Road, Exeter EX2 5DW and ⁴Institute of Cognitive Neuroscience, University College London, Alexandra House, 17 Queen Square, London WC1N 3AR, UK

Correspondence to: Tim Hodgson, Exeter Centre for Cognitive Neuroscience, School of Psychology, University of Exeter, Washington Singer Laboratories, Prince of Wales Road, Exeter EX4 4QG, UK E-mail: t.l.hodgson{at}exeter.ac.uk

It has been proposed that the inferior/ventrolateral frontalcortex plays a critical role in the inhibitory control of actionduring cognitive tasks. However, the contribution of this regionto the control of eye movements has not been clearly established.Here, we describe the performance of a group of 23 frontal lobedamaged patients in an oculomotor rule switching task for whichthe association between a centrally presented visual cue andthe direction of a saccade could change from trial to trial.A subset of 16 patients also completed the standard antisaccadetask. Ventrolateral damage was found to be a significant predictorof errors in both tasks. Analysis of the rate at which patientscorrected errors in the rule switching task also revealed animportant dissociation between left and right hemisphere damagedpatients. Whilst patients with left ventrolateral damage usuallycorrected response errors with secondary saccades, those withright hemisphere lesions often failed to do so. The resultssuggest that the inferior frontal cortex forms part of a widerfrontal network mediating inhibitory control over stimulus elicitedeye movements. The critical role played by the right ventrolateralregion in cognitive tasks may arise due to an additional functionalspecialization for the monitoring and updating of task rules.

Key Words: executive control; eye tracking; antisaccades; task switching; frontal lobe

Abbreviations: DLPFC, dorsolateral prefrontal cortex; FEF, frontal eye fields; VLF, ventrolateral frontal

Received November 12, 2006. Revised February 20, 2007. Accepted March 8, 2007.

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