banner

Representative Publications (All from Google Scholar)

Crawford JD, Henriques DYP, Vilis T. Curvature of visual space under vertical eye rotation: Implications for spatial vision and visuomotor control. Journal of Neuroscience 201: 2360-2368, 2000.
Connolly JD, Goodale MA, Desouza JF, Menon RS, Vilis T. A comparison of frontoparietal fMRI activation during anti-saccades and anti-pointing. J. Neurophysiology;84(3):1645-55. 2000
DeSouza JF, Dukelow SP, Gati JS, Menon RS, Andersen RA, Vilis T. Eye position signal modulates a human parietal pointing region during memory-guided movements. Journal of Neuroscience 1;20(15):5835-40 2000. PDF
Dukelow S, DeSouza J, Culham J, van den Berg AV, Menon R, Vilis T. Distinguishing Subregions of the Human MT1 Complex Using Visual Fields and Pursuit Eye Movements. J Neurophysiol 86: 1991–2000, 2001 PDF
James F.M.K, Whitehead S, Humphrey G.K, Banks M.S, Vilis T. Eye Position Sense Contributes to the Judgement of Slant,. Vision Res. 41: 3447–3454, 2001 PDF
Joseph F.X. DeSouza, Sean P. Dukelow and Tutis Vilis. Eye Position Signals Modulate Early Dorsal and Ventral Pathways. Cerebral Cortex. 12: 991-997, 2002
Henriques DY, Crawford JD, Vilis T. The visuomotor transformation for arm movement accounts for 3-D eye orientation and retinal geometry. Ann N Y Acad Sci. 956:515-9. 2002
Susanne Ferber, G. Keith Humphrey, Tutis Vilis. LOC subserves the perceptual persistence of motion-defined groupings. Cerebral Cortex 13(7):716-21, 2003. PDF
W. P. Medendorp, H. C. Goltz, T. Vilis, J. D. Crawford. Gaze-centered Updating of Visual Space in Human Parietal Cortex. J. Neurosci. 23(15):6209-14 2003. PDF
Goltz HC, DeSouza JFX, Menon RS, Tweed DB, Vilis T. Interaction of retinal image and eye velocity in motion perception. Neuron 39(3):569-76 2003. PDF
Crawford JD, Tweed DB, and Vilis T. Static Ocular Counterroll is implemented through the 3-D Neural Integrator. J. of Neurophysiol., 90(4):2777-84 2003. PDF
Niemeier M, Goltz HC, Kuchinad A, Tweed DB, Vilis T A contralateral preference in the lateral occipital area: sensory and attentional mechanisms. Cerebral Cortex, 15(3):325-31 2005 PDF
Medendorp WP, Goltz HC, Crawford JD Vilis T Integration of target and effector information in human posterior parietal cortex for the planning of action. J. of Neurophysiol. Feb;93(2):954-62 2005 PDF
Ferber S, Humphrey GK, Vilis T Segregation and persistence of form in the lateral occipital complex. Neuropsychologia.;43(1):41-51 2005 PDF
Large ME, Aldcroft A, Vilis T. Perceptual continuity and the emergence of perceptual persistence in the ventral visual pathway. J. Neurophysiol. 93(6):3453-62. 2005 PDF
Medendorp WP, Goltz HC, Vilis T. Remapping the remembered target location for anti-saccades in human posterior parietal cortex. J. Neurophysiol. 2005 Jul;94(1):734-40 PDF
Medendorp WP, Goltz HC, Vilis T. Directional selectivity of BOLD activity in human posterior parietal cortex for memory-guided double-step saccades J. Neurophysiol. 2006 Mar;95(3):1645-55.PDF
Matthew R. G. Brown, Herb C. Goltz, Tutis Vilis, Kristen A. Ford, Stefan Everling. Inhibition and Generation of Saccades: Rapid Event-related fMRI of Prosaccades, Antisaccades, and Nogo Trials. Neuroimage. Nov 1;33(2):644-659. 2006
H.H.L.M. Goossens, S.P. Dukelow, R.S. Menon, T. Vilis, A.V. van den Berg. Representation of head-centric flow in the human motion complex. J Neurosci. May 24;26(21):5616-27. 2006 PDF
Mary-Ellen Large, Adrian Aldcroft, Tutis Vilis. Task related laterality effects in the lateral occipital complex. Brain Res Jan 12;1128(1):130-8. 2007 PDF
Fernandez-Ruiz J, Goltz HC, Desouza JF, Vilis T, Crawford JD. Human Parietal "Reach Region" Primarily Encodes Intrinsic Visual Direction, Not Extrinsic Movement Direction, in a Visual-Motor Dissociation Task. Cereb Cortex. 2007 Oct;17(10):2283-92. PDF
Mary-Ellen Large, Jody Culham, Anil Kuchinad, Adrian Aldcroft, and Tutis Vilis. fMRI reveals greater within- than between-hemifield integration in the human lateral occipital cortex. European J. Neuroscience 27: 3299-3309, 2008 PDF