Citation Relationships



Blohm G, Optican LM, Lefèvre P (2006) A model that integrates eye velocity commands to keep track of smooth eye displacements. J Comput Neurosci 21:51-70 [PubMed]

References and models cited by this paper

References and models that cite this paper

Andersen RA, Asanuma C, Essick G, Siegel RM (1990) Corticocortical connections of anatomically and physiologically defined subdivisions within the inferior parietal lobule. J Comp Neurol 296:65-113 [Journal] [PubMed]

Andersen RA, Bracewell RM, Barash S, Gnadt JW, Fogassi L (1990) Eye position effects on visual, memory, and saccade-related activity in areas LIP and 7a of macaque. J Neurosci 10:1176-96 [PubMed]

Andersen RA, Brotchie PR, Mazzoni P (1992) Evidence for the lateral intraparietal area as the parietal eye field. Curr Opin Neurobiol 2:840-6 [PubMed]

Andersen RA, Snyder LH, Bradley DC, Xing J (1997) Multimodal representation of space in the posterior parietal cortex and its use in planning movements. Annu Rev Neurosci 20:303-30 [Journal] [PubMed]

Aslin RN, Shea SL (1987) The amplitude and angle of saccades to double-step target displacements. Vision Res 27:1925-42 [PubMed]

Baker JT, Harper TM, Snyder LH (2003) Spatial memory following shifts of gaze. I. Saccades to memorized world-fixed and gaze-fixed targets. J Neurophysiol 89:2564-76 [Journal] [PubMed]

Barash S, Bracewell RM, Fogassi L, Gnadt JW, Andersen RA (1991) Saccade-related activity in the lateral intraparietal area. II. Spatial properties. J Neurophysiol 66:1109-24 [Journal] [PubMed]

Barborica A, Ferrera VP (2003) Estimating invisible target speed from neuronal activity in monkey frontal eye field. Nat Neurosci 6:66-74 [Journal] [PubMed]

Becker W (1991) Saccades Eye Movements, Carpenter R, ed. pp.95

Becker W, Jürgens R (1979) An analysis of the saccadic system by means of double step stimuli. Vision Res 19:967-83 [PubMed]

Bennett SJ, Barnes GR (2003) Human ocular pursuit during the transient disappearance of a visual target. J Neurophysiol 90:2504-20 [Journal] [PubMed]

Bennett SJ, Barnes GR (2004) Ocular pursuit to a predictable velocity and-or position change during the occlusion of a moving target. Annual Meeting of the Society for Neuroscience Program No 712.6

Blohm G, Missal M, Lefèvre P (2003) Interaction between smooth anticipation and saccades during ocular orientation in darkness. J Neurophysiol 89:1423-33 [Journal] [PubMed]

Blohm G, Missal M, Lefèvre P (2005) Processing of retinal and extraretinal signals for memory-guided saccades during smooth pursuit. J Neurophysiol 93:1510-22 [Journal] [PubMed]

Bradley DC, Maxwell M, Andersen RA, Banks MS, Shenoy KV (1996) Mechanisms of heading perception in primate visual cortex. Science 273:1544-7 [PubMed]

Bremmer F, Distler C, Hoffmann KP (1997) Eye position effects in monkey cortex. II. Pursuit- and fixation-related activity in posterior parietal areas LIP and 7A. J Neurophysiol 77:962-77 [Journal] [PubMed]

Bremmer F, Duhamel JR, Ben Hamed S, Graf W (2002) Heading encoding in the macaque ventral intraparietal area (VIP). Eur J Neurosci 16:1554-68 [PubMed]

Brotchie PR, Andersen RA, Snyder LH, Goodman SJ (1995) Head position signals used by parietal neurons to encode locations of visual stimuli. Nature 375:232-5 [Journal] [PubMed]

Buisseret-Delmas C (1988) Sagittal organization of the olivocerebellonuclear pathway in the rat. I. Connections with the nucleus fastigii and the nucleus vestibularis lateralis. Neurosci Res 5:475-93 [PubMed]

Carpenter RH, Williams ML (1995) Neural computation of log likelihood in control of saccadic eye movements. Nature 377:59-62 [Journal] [PubMed]

Cavada C, Goldman-Rakic PS (1989) Posterior parietal cortex in rhesus monkey: I. Parcellation of areas based on distinctive limbic and sensory corticocortical connections. J Comp Neurol 287:393-421 [Journal] [PubMed]

Chance FS, Abbott LF, Reyes AD (2002) Gain modulation from background synaptic input. Neuron 35:773-82 [PubMed]

Cheng K, Hasegawa T, Saleem KS, Tanaka K (1994) Comparison of neuronal selectivity for stimulus speed, length, and contrast in the prestriate visual cortical areas V4 and MT of the macaque monkey. J Neurophysiol 71:2269-80 [Journal] [PubMed]

Clower DM, West RA, Lynch JC, Strick PL (2001) The inferior parietal lobule is the target of output from the superior colliculus, hippocampus, and cerebellum. J Neurosci 21:6283-91 [PubMed]

Colby CL, Duhamel JR, Goldberg ME (1993) Ventral intraparietal area of the macaque: anatomic location and visual response properties. J Neurophysiol 69:902-14 [Journal] [PubMed]

Colby CL, Goldberg ME (1999) Space and attention in parietal cortex. Annu Rev Neurosci 22:319-49 [Journal] [PubMed]

Crandall WF, Keller EL (1985) Visual and oculomotor signals in nucleus reticularis tegmenti pontis in alert monkey. J Neurophysiol 54:1326-45 [Journal] [PubMed]

Curtis CE, Rao VY, D'Esposito M (2004) Maintenance of spatial and motor codes during oculomotor delayed response tasks. J Neurosci 24:3944-52 [Journal] [PubMed]

Dassonville P, Schlag J, Schlag-Rey M (1992) The frontal eye field provides the goal of saccadic eye movement. Exp Brain Res 89:300-10 [PubMed]

de Brouwer S, Missal M, Barnes G, Lefèvre P (2002) Quantitative analysis of catch-up saccades during sustained pursuit. J Neurophysiol 87:1772-80 [Journal] [PubMed]

de Brouwer S, Missal M, Lefèvre P (2001) Role of retinal slip in the prediction of target motion during smooth and saccadic pursuit. J Neurophysiol 86:550-8 [Journal] [PubMed]

de Brouwer S, Yuksel D, Blohm G, Missal M, Lefèvre P (2002) What triggers catch-up saccades during visual tracking? J Neurophysiol 87:1646-50 [Journal] [PubMed]

DeAngelis GC, Uka T (2003) Coding of horizontal disparity and velocity by MT neurons in the alert macaque. J Neurophysiol 89:1094-111 [Journal] [PubMed]

Dominey PF, Schlag J, Schlag-Rey M, Arbib MA (1997) Colliding saccades evoked by frontal eye field stimulation: artifact or evidence for an oculomotor compensatory mechanism underlying double-step saccades? Biol Cybern 76:41-52 [Journal] [PubMed]

Droulez J, Berthoz A (1988) Spatial and temporal transformations in visuo-motor coordination Neural Computers, Eckmiller R:van den Malsburg C, ed. pp.345

Droulez J, Berthoz A (1991) A neural network model of sensoritopic maps with predictive short-term memory properties. Proc Natl Acad Sci U S A 88:9653-7 [PubMed]

Duhamel JR, Colby CL, Goldberg ME (1992) The updating of the representation of visual space in parietal cortex by intended eye movements. Science 255:90-2 [PubMed]

Duhamel JR, Goldberg ME, Fitzgibbon EJ, Sirigu A, Grafman J (1992) Saccadic dysmetria in a patient with a right frontoparietal lesion. The importance of corollary discharge for accurate spatial behaviour. Brain 115 ( Pt 5):1387-402

Dürsteler MR, Wurtz RH, Newsome WT (1987) Directional pursuit deficits following lesions of the foveal representation within the superior temporal sulcus of the macaque monkey. J Neurophysiol 57:1262-87 [Journal] [PubMed]

Eccles JC, Ito M, Szentagothai J (1967) The Cerebellum as a Computational Machine

Felleman DJ, Kaas JH (1984) Receptive-field properties of neurons in middle temporal visual area (MT) of owl monkeys. J Neurophysiol 52:488-513 [Journal] [PubMed]

Gellman RS, Carl JR (1991) Motion processing for saccadic eye movements in humans. Exp Brain Res 84:660-7 [PubMed]

Gellman RS, Fletcher WA (1992) Eye position signals in human saccadic processing. Exp Brain Res 89:425-34 [PubMed]

Ghez C, Thach WT (2000) The cerebellum Principles of neural science (Ed 4), Kandel ER:Schwartz JH:Jessell TM, ed. pp.832

Gnadt JW, Andersen RA (1988) Memory related motor planning activity in posterior parietal cortex of macaque. Exp Brain Res 70:216-20 [PubMed]

Gold JI, Shadlen MN (2001) Neural computations that underlie decisions about sensory stimuli. Trends Cogn Sci 5:10-16 [PubMed]

Goossens HH, Van Opstal AJ (1997) Local feedback signals are not distorted by prior eye movements: evidence from visually evoked double saccades. J Neurophysiol 78:533-8 [Journal]

Hallett PE, Lightstone AD (1976) Saccadic eye movements to flashed targets. Vision Res 16:107-14 [PubMed]

Hallett PE, Lightstone AD (1976) Saccadic eye movements towards stimuli triggered by prior saccades. Vision Res 16:99-106 [PubMed]

Hanes DP, Schall JD (1996) Neural control of voluntary movement initiation. Science 274:427-30 [PubMed]

Heide W, Blankenburg M, Zimmermann E, Kömpf D (1995) Cortical control of double-step saccades: implications for spatial orientation. Ann Neurol 38:739-48 [Journal] [PubMed]

Henriques DY, Klier EM, Smith MA, Lowy D, Crawford JD (1998) Gaze-centered remapping of remembered visual space in an open-loop pointing task. J Neurosci 18:1583-94 [PubMed]

Herter TM, Guitton D (1998) Human head-free gaze saccades to targets flashed before gaze-pursuit are spatially accurate. J Neurophysiol 80:2785-9 [Journal] [PubMed]

Hoddevik GH, Brodal A, Walberg F (1976) The olivocerebellar projection in the cat studied with the method of retrograde axonal transport of horseradish peroxidase. III. The projection to the vermal visual area. J Comp Neurol 169:155-70 [Journal] [PubMed]

Ilg UJ, Thier P (2003) Visual tracking neurons in primate area MST are activated by smooth-pursuit eye movements of an "imaginary" target. J Neurophysiol 90:1489-502 [Journal] [PubMed]

Jürgens R, Becker W, Kornhuber HH (1981) Natural and drug-induced variations of velocity and duration of human saccadic eye movements: evidence for a control of the neural pulse generator by local feedback. Biol Cybern 39:87-96 [PubMed]

Keller E, Johnsen SD (1990) Velocity prediction in corrective saccades during smooth-pursuit eye movements in monkey. Exp Brain Res 80:525-31 [PubMed]

Keller EL, Crandall WF (1983) Neuronal responses to optokinetic stimuli in pontine nuclei of behaving monkey. J Neurophysiol 49:169-87 [Journal] [PubMed]

Keller EL, Gandhi NJ, Weir PT (1996) Discharge of superior collicular neurons during saccades made to moving targets. J Neurophysiol 76:3573-7 [Journal] [PubMed]

Kim JN, Shadlen MN (1999) Neural correlates of a decision in the dorsolateral prefrontal cortex of the macaque. Nat Neurosci 2:176-85 [Journal] [PubMed]

Komatsu H, Wurtz RH (1988) Relation of cortical areas MT and MST to pursuit eye movements. I. Localization and visual properties of neurons. J Neurophysiol 60:580-603 [Journal] [PubMed]

Komatsu H, Wurtz RH (1988) Relation of cortical areas MT and MST to pursuit eye movements. III. Interaction with full-field visual stimulation. J Neurophysiol 60:621-44 [Journal] [PubMed]

Krauzlis RJ (2004) Recasting the smooth pursuit eye movement system. J Neurophysiol 91:591-603 [Journal] [PubMed]

Krauzlis RJ, Stone LS (1999) Tracking with the mind's eye. Trends Neurosci 22:544-50 [PubMed]

Lefèvre P, Quaia C, Optican LM (1998) Distributed model of control of saccades by superior colliculus and cerebellum. Neural Netw 11:1175-1190 [PubMed]

Leon MI, Shadlen MN (2003) Representation of time by neurons in the posterior parietal cortex of the macaque. Neuron 38:317-27 [PubMed]

Lewis JW, Van Essen DC (2000) Corticocortical connections of visual, sensorimotor, and multimodal processing areas in the parietal lobe of the macaque monkey. J Comp Neurol 428:112-37 [PubMed]

Lewis RF, Zee DS, Hayman MR, Tamargo RJ (2001) Oculomotor function in the rhesus monkey after deafferentation of the extraocular muscles. Exp Brain Res 141:349-58 [Journal] [PubMed]

Lisberger SG, Fuchs AF (1978) Role of primate flocculus during rapid behavioral modification of vestibuloocular reflex. II. Mossy fiber firing patterns during horizontal head rotation and eye movement. J Neurophysiol 41:764-77 [Journal] [PubMed]

Lisberger SG, Fuchs AF (1978) Role of primate flocculus during rapid behavioral modification of vestibuloocular reflex. I. Purkinje cell activity during visually guided horizontal smooth-pursuit eye movements and passive head rotation. J Neurophysiol 41:733-63 [Journal] [PubMed]

Maunsell JH, Van Essen DC (1983) Functional properties of neurons in middle temporal visual area of the macaque monkey. I. Selectivity for stimulus direction, speed, and orientation. J Neurophysiol 49:1127-47 [Journal] [PubMed]

May JG, Keller EL, Suzuki DA (1988) Smooth-pursuit eye movement deficits with chemical lesions in the dorsolateral pontine nucleus of the monkey. J Neurophysiol 59:952-77 [Journal] [PubMed]

Mays LE, Sparks DL (1980) Saccades are spatially, not retinocentrically, coded. Science 208:1163-5 [PubMed]

Mazurek ME, Roitman JD, Ditterich J, Shadlen MN (2003) A role for neural integrators in perceptual decision making. Cereb Cortex 13:1257-69 [PubMed]

McKenzie A, Lisberger SG (1986) Properties of signals that determine the amplitude and direction of saccadic eye movements in monkeys. J Neurophysiol 56:196-207 [Journal] [PubMed]

Medendorp WP, Smith MA, Tweed DB, Crawford JD (2002) Rotational remapping in human spatial memory during eye and head motion. J Neurosci 22:RC196 [PubMed]

Merriam EP, Genovese CR, Colby CL (2003) Spatial updating in human parietal cortex. Neuron 39:361-73 [PubMed]

Miles FA, Fuller JH (1975) Visual tracking and the primate flocculus. Science 189:1000-2 [PubMed]

Missal M, Heinen SJ (2001) Facilitation of smooth pursuit initiation by electrical stimulation in the supplementary eye fields. J Neurophysiol 86:2413-25 [Journal] [PubMed]

Missal M, Heinen SJ (2004) Supplementary eye fields stimulation facilitates anticipatory pursuit. J Neurophysiol 92:1257-62 [Journal] [PubMed]

Mushiake H, Fujii N, Tanji J (1999) Microstimulation of the lateral wall of the intraparietal sulcus compared with the frontal eye field during oculomotor tasks. J Neurophysiol 81:1443-8 [Journal] [PubMed]

Mustari MJ, Fuchs AF, Wallman J (1988) Response properties of dorsolateral pontine units during smooth pursuit in the rhesus macaque. J Neurophysiol 60:664-86 [Journal] [PubMed]

Nagao S, Kitamura T, Nakamura N, Hiramatsu T, Yamada J (1997) Differences of the primate flocculus and ventral paraflocculus in the mossy and climbing fiber input organization. J Comp Neurol 382:480-98 [PubMed]

Neal JW, Pearson RC, Powell TP (1990) The connections of area PG, 7a, with cortex in the parietal, occipital and temporal lobes of the monkey. Brain Res 532:249-64 [PubMed]

Newsome WT, Wurtz RH, Dürsteler MR, Mikami A (1985) Deficits in visual motion processing following ibotenic acid lesions of the middle temporal visual area of the macaque monkey. J Neurosci 5:825-40 [PubMed]

Newsome WT, Wurtz RH, Komatsu H (1988) Relation of cortical areas MT and MST to pursuit eye movements. II. Differentiation of retinal from extraretinal inputs. J Neurophysiol 60:604-20 [Journal] [PubMed]

Noda H, Fujikado T (1987) Topography of the oculomotor area of the cerebellar vermis in macaques as determined by microstimulation. J Neurophysiol 58:359-78 [Journal] [PubMed]

Ohtsuka K (1994) Properties of memory-guided saccades toward targets flashed during smooth pursuit in human subjects. Invest Ophthalmol Vis Sci 35:509-14 [PubMed]

Optican LM, Quaia C (2002) Distributed model of collicular and cerebellar function during saccades. Ann N Y Acad Sci 956:164-77 [PubMed]

Paré M, Wurtz RH (1997) Monkey posterior parietal cortex neurons antidromically activated from superior colliculus. J Neurophysiol 78:3493-7 [Journal] [PubMed]

Pierrot-Deseilligny C, Rivaud S, Gaymard B, Agid Y (1991) Cortical control of memory-guided saccades in man. Exp Brain Res 83:607-17 [PubMed]

Quaia C, Lefèvre P, Optican LM (1999) Model of the control of saccades by superior colliculus and cerebellum. J Neurophysiol 82:999-1018 [Journal] [PubMed]

Quaia C, Optican LM, Goldberg ME (1998) The maintenance of spatial accuracy by the perisaccadic remapping of visual receptive fields. Neural Netw 11:1229-1240 [PubMed]

Rambold H, Churchland A, Selig Y, Jasmin L, Lisberger SG (2002) Partial ablations of the flocculus and ventral paraflocculus in monkeys cause linked deficits in smooth pursuit eye movements and adaptive modification of the VOR. J Neurophysiol 87:912-24 [Journal] [PubMed]

Rao SM, Mayer AR, Harrington DL (2001) The evolution of brain activation during temporal processing. Nat Neurosci 4:317-23 [Journal] [PubMed]

Reddi BA, Asrress KN, Carpenter RH (2003) Accuracy, information, and response time in a saccadic decision task. J Neurophysiol 90:3538-46 [Journal] [PubMed]

Reddi BA, Carpenter RH (2000) The influence of urgency on decision time. Nat Neurosci 3:827-30 [Journal] [PubMed]

Robinson DA (1970) Oculomotor unit behavior in the monkey. J Neurophysiol 33:393-403 [Journal] [PubMed]

Robinson DA (1973) Models of the saccadic eye movement control system. Kybernetik 14:71-83 [PubMed]

Robinson FR, Fuchs AF (2001) The role of the cerebellum in voluntary eye movements. Annu Rev Neurosci 24:981-1004 [Journal] [PubMed]

Roitman JD, Shadlen MN (2002) Response of neurons in the lateral intraparietal area during a combined visual discrimination reaction time task. J Neurosci 22:9475-89 [PubMed]

Ruskell GL (1999) Extraocular muscle proprioceptors and proprioception. Prog Retin Eye Res 18:269-91 [PubMed]

Sakata H, Shibutani H, Kawano K (1983) Functional properties of visual tracking neurons in posterior parietal association cortex of the monkey. J Neurophysiol 49:1364-80 [Journal] [PubMed]

Salinas E (2003) Self-sustained activity in networks of gain-modulated neurons Neurocomputing 52:913-918

Salinas E, Sejnowski TJ (2001) Gain modulation in the central nervous system: where behavior, neurophysiology, and computation meet. Neuroscientist 7:430-40 [Journal] [PubMed]

Salinas E, Thier P (2000) Gain modulation: a major computational principle of the central nervous system. Neuron 27:15-21 [PubMed]

Schall JD (2001) Neural basis of deciding, choosing and acting. Nat Rev Neurosci 2:33-42 [Journal] [PubMed]

Schall JD, Bichot NP (1998) Neural correlates of visual and motor decision processes. Curr Opin Neurobiol 8:211-7 [PubMed]

Schall JD, Hanes DP (1998) Neural mechanisms of selection and control of visually guided eye movements. Neural Netw 11:1241-1251 [PubMed]

Schall JD, Thompson KG (1999) Neural selection and control of visually guided eye movements. Annu Rev Neurosci 22:241-59 [Journal] [PubMed]

Schlack A, Hoffmann KP, Bremmer F (2003) Selectivity of macaque ventral intraparietal area (area VIP) for smooth pursuit eye movements. J Physiol 551:551-61 [Journal] [PubMed]

Schlag J, Schlag-Rey M (1990) Colliding saccades may reveal the secret of their marching orders. Trends Neurosci 13:410-5 [PubMed]

Schlag J, Schlag-Rey M, Dassonville P (1989) Interactions between natural and electrically evoked saccades. II. At what time is eye position sampled as a reference for the localization of a target? Exp Brain Res 76:548-58 [PubMed]

Schlag J, Schlag-Rey M, Dassonville P (1990) Saccades can be aimed at the spatial location of targets flashed during pursuit. J Neurophysiol 64:575-81 [Journal] [PubMed]

Shadlen MN, Newsome WT (1996) Motion perception: seeing and deciding. Proc Natl Acad Sci U S A 93:628-33 [PubMed]

Smeets JBJ, Bekkering H (2000) Prediction of saccadic amplitude during smooth pursuit eye movements Human Movement Science 19:275-295

Sommer MA (2003) The role of the thalamus in motor control. Curr Opin Neurobiol 13:663-70 [PubMed]

Sommer MA, Wurtz RH (2002) A pathway in primate brain for internal monitoring of movements. Science 296:1480-2 [Journal] [PubMed]

Sommer MA, Wurtz RH (2004) What the brain stem tells the frontal cortex. I. Oculomotor signals sent from superior colliculus to frontal eye field via mediodorsal thalamus. J Neurophysiol 91:1381-402 [Journal] [PubMed]

Sommer MA, Wurtz RH (2004) What the brain stem tells the frontal cortex. II. Role of the SC-MD-FEF pathway in corollary discharge. J Neurophysiol 91:1403-23 [Journal] [PubMed]

Squatrito S, Maioli MG (1997) Encoding of smooth pursuit direction and eye position by neurons of area MSTd of macaque monkey. J Neurosci 17:3847-60 [PubMed]

Suzuki DA, Keller EL (1988) The role of the posterior vermis of monkey cerebellum in smooth-pursuit eye movement control. I. Eye and head movement-related activity. J Neurophysiol 59:1-18 [Journal] [PubMed]

Suzuki DA, Keller EL (1988) The role of the posterior vermis of monkey cerebellum in smooth-pursuit eye movement control. II. Target velocity-related Purkinje cell activity. J Neurophysiol 59:19-40 [Journal] [PubMed]

Suzuki DA, Noda H, Kase M (1981) Visual and pursuit eye movement-related activity in posterior vermis of monkey cerebellum. J Neurophysiol 46:1120-39 [Journal] [PubMed]

Suzuki DA, Yamada T, Yee RD (2003) Smooth-pursuit eye-movement-related neuronal activity in macaque nucleus reticularis tegmenti pontis. J Neurophysiol 89:2146-58 [Journal] [PubMed]

Takagi M, Zee DS, Tamargo RJ (2000) Effects of lesions of the oculomotor cerebellar vermis on eye movements in primate: smooth pursuit. J Neurophysiol 83:2047-62 [Journal] [PubMed]

Tanaka M (2005) Involvement of the central thalamus in the control of smooth pursuit eye movements. J Neurosci 25:5866-76 [Journal] [PubMed]

Thier P, Andersen RA (1996) Electrical microstimulation suggests two different forms of representation of head-centered space in the intraparietal sulcus of rhesus monkeys. Proc Natl Acad Sci U S A 93:4962-7 [PubMed]

Thier P, Andersen RA (1998) Electrical microstimulation distinguishes distinct saccade-related areas in the posterior parietal cortex. J Neurophysiol 80:1713-35 [Journal] [PubMed]

Thier P, Koehler W, Buettner UW (1988) Neuronal activity in the dorsolateral pontine nucleus of the alert monkey modulated by visual stimuli and eye movements. Exp Brain Res 70:496-512 [PubMed]

Thurston SE, Leigh RJ, Crawford T, Thompson A, Kennard C (1988) Two distinct deficits of visual tracking caused by unilateral lesions of cerebral cortex in humans. Ann Neurol 23:266-73 [Journal] [PubMed]

Tian J, Schlag J, Schlag-Rey M (2000) Testing quasi-visual neurons in the monkey's frontal eye field with the triple-step paradigm. Exp Brain Res 130:433-40 [PubMed]

Tobler PN, Felblinger J, Bürki M, Nirkko AC, Ozdoba C, Müri RM (2001) Functional organisation of the saccadic reference system processing extraretinal signals in humans. Vision Res 41:1351-8 [PubMed]

Tusa RJ, Ungerleider LG (1988) Fiber pathways of cortical areas mediating smooth pursuit eye movements in monkeys. Ann Neurol 23:174-83 [Journal] [PubMed]

Ungerleider LG, Desimone R (1986) Cortical connections of visual area MT in the macaque. J Comp Neurol 248:190-222 [Journal] [PubMed]

Van Essen DC, Maunsell JH, Bixby JL (1981) The middle temporal visual area in the macaque: myeloarchitecture, connections, functional properties and topographic organization. J Comp Neurol 199:293-326 [Journal] [PubMed]

Van Gisbergen JA, Robinson DA, Gielen S (1981) A quantitative analysis of generation of saccadic eye movements by burst neurons. J Neurophysiol 45:417-42 [Journal] [PubMed]

Wang XJ (2001) Synaptic reverberation underlying mnemonic persistent activity. Trends Neurosci 24:455-63 [PubMed]

Weir CR, Knox PC, Dutton GN (2000) Does extraocular muscle proprioception influence oculomotor control? Br J Ophthalmol 84:1071-4 [PubMed]

Wolpert DM, Miall RC, Kawato M (1998) Internal models in the cerebellum. Trends Cogn Sci 2:338-47 [PubMed]

Zhang T, Heuer HW, Britten KH (2004) Parietal area VIP neuronal responses to heading stimuli are encoded in head-centered coordinates. Neuron 42:993-1001 [Journal] [PubMed]

Zivotofsky AZ, Rottach KG, Averbuch-Heller L, Kori AA, Thomas CW, Dell'Osso LF, Leigh RJ (1996) Saccades to remembered targets: the effects of smooth pursuit and illusory stimulus motion. J Neurophysiol 76:3617-32 [Journal] [PubMed]

(142 refs)