Citation Relationships

Legends: Link to a Model Reference cited by multiple papers

Morén J, Shibata T, Doya K (2013) The mechanism of saccade motor pattern generation investigated by a large-scale spiking neuron model of the superior colliculus. PLoS One 8:e57134 [PubMed]

   A spatial model of the intermediate superior colliculus (Moren et. al. 2013)

References and models cited by this paper

References and models that cite this paper

Aizawa H, Kobayashi Y, Yamamoto M, Isa T (1999) Injection of nicotine into the superior colliculus facilitates occurrence of express saccades in monkeys. J Neurophysiol 82:1642-6 [Journal] [PubMed]
Aizawa H, Wurtz RH (1998) Reversible inactivation of monkey superior colliculus. I. Curvature of saccadic trajectory. J Neurophysiol 79:2082-96 [Journal] [PubMed]
Anderson RW, Keller EL, Gandhi NJ, Das S (1998) Two-dimensional saccade-related population activity in superior colliculus in monkey. J Neurophysiol 80:798-817 [Journal] [PubMed]
Baloh RW, Sills AW, Kumley WE, Honrubia V (1975) Quantitative measurement of saccade amplitude, duration, and velocity. Neurology 25:1065-70 [PubMed]
Brette R, Gerstner W (2005) Adaptive exponential integrate-and-fire model as an effective description of neuronal activity. J Neurophysiol 94:3637-42 [Journal] [PubMed]
   Adaptive exponential integrate-and-fire model (Brette & Gerstner 2005) [Model]
Choi WY, Guitton D (2009) Firing patterns in superior colliculus of head-unrestrained monkey during normal and perturbed gaze saccades reveal short-latency feedback and a sluggish rostral shift in activity. J Neurosci 29:7166-80 [Journal] [PubMed]
Cromer JA, Waitzman DM (2007) Comparison of saccade-associated neuronal activity in the primate central mesencephalic and paramedian pontine reticular formations. J Neurophysiol 98:835-50 [Journal] [PubMed]
Cui H, Malpeli JG (2003) Activity in the parabigeminal nucleus during eye movements directed at moving and stationary targets. J Neurophysiol 89:3128-42 [Journal] [PubMed]
Everling S, Paré M, Dorris MC, Munoz DP (1998) Comparison of the discharge characteristics of brain stem omnipause neurons and superior colliculus fixation neurons in monkey: implications for control of fixation and saccade behavior. J Neurophysiol 79:511-28 [Journal] [PubMed]
Fuchs AF (1967) Saccadic and smooth pursuit eye movements in the monkey. J Physiol 191:609-31 [PubMed]
Gandhi NJ, Barton EJ, Sparks DL (2008) Coordination of eye and head components of movements evoked by stimulation of the paramedian pontine reticular formation. Exp Brain Res 189:35-47 [Journal] [PubMed]
Gewaltig M-O, Diesmann M (2007) NEST (Neural Simulation Tool) Scholarpedia 2:1430
Girard B, Berthoz A (2005) From brainstem to cortex: computational models of saccade generation circuitry. Prog Neurobiol 77:215-51 [Journal] [PubMed]
Goossens HH, Van Opstal AJ (2000) Blink-perturbed saccades in monkey. II. Superior colliculus activity. J Neurophysiol 83:3430-52 [Journal] [PubMed]
Grantyn A, Moschovakis A (2004) Structure-function relationships in the superior colliculus of higher mammals The Superior Colliculus: New Approaches for Studying Sensorimotor Integration, Hall WC:Moschovakis AK, ed. pp.107
Hafed ZM, Goffart L, Krauzlis RJ (2009) A neural mechanism for microsaccade generation in the primate superior colliculus. Science 323:940-3 [Journal] [PubMed]
Harris CM, Wolpert DM (2006) The main sequence of saccades optimizes speed-accuracy trade-off. Biol Cybern 95:21-9 [Journal] [PubMed]
Helms MC, Ozen G, Hall WC (2004) Organization of the intermediate gray layer of the superior colliculus. I. Intrinsic vertical connections. J Neurophysiol 91:1706-15 [Journal] [PubMed]
Hikosaka O, Takikawa Y, Kawagoe R (2000) Role of the basal ganglia in the control of purposive saccadic eye movements. Physiol Rev 80:953-78 [Journal] [PubMed]
Isa T, Hall WC (2009) Exploring the superior colliculus in vitro. J Neurophysiol 102:2581-93 [Journal] [PubMed]
Isa T, Sasaki S (2002) Brainstem control of head movements during orienting; organization of the premotor circuits. Prog Neurobiol 66:205-41 [PubMed]
Isoda M, Hikosaka O (2008) A neural correlate of motivational conflict in the superior colliculus of the macaque. J Neurophysiol 100:1332-42 [Journal] [PubMed]
Jay MF, Sparks DL (1987) Sensorimotor integration in the primate superior colliculus. I. Motor convergence. J Neurophysiol 57:22-34 [Journal] [PubMed]
Johnston K, Everling S (2008) Neurophysiology and neuroanatomy of reflexive and voluntary saccades in non-human primates. Brain Cogn 68:271-83 [Journal] [PubMed]
Keller EL (2004) Distributed neural processing in the saccadic system The Superior Colliculus: New Approaches for Studying Sensorimotor Integration, Hall WC:Moschovakis A, ed. pp.277
Krauzlis RJ (2005) The control of voluntary eye movements: new perspectives. Neuroscientist 11:124-37 [Journal] [PubMed]
Lee P, Hall WC (2006) An in vitro study of horizontal connections in the intermediate layer of the superior colliculus. J Neurosci 26:4763-8 [Journal] [PubMed]
Lefevre P, Galiana HL (1992) Dynamic feedback to the superior colliculus in a neural network model of the gaze control system Neural Networks 5:871-900
Marino RA, Rodgers CK, Levy R, Munoz DP (2008) Spatial relationships of visuomotor transformations in the superior colliculus map. J Neurophysiol 100:2564-76 [Journal] [PubMed]
Meredith MA, Ramoa AS (1998) Intrinsic circuitry of the superior colliculus: pharmacophysiological identification of horizontally oriented inhibitory interneurons. J Neurophysiol 79:1597-602 [Journal] [PubMed]
Meredith MA, Stein BE (1986) Visual, auditory, and somatosensory convergence on cells in superior colliculus results in multisensory integration. J Neurophysiol 56:640-62 [Journal] [PubMed]
Munoz DP, Istvan PJ (1998) Lateral inhibitory interactions in the intermediate layers of the monkey superior colliculus. J Neurophysiol 79:1193-209 [Journal] [PubMed]
Munoz DP, Pélisson D, Guitton D (1991) Movement of neural activity on the superior colliculus motor map during gaze shifts. Science 251:1358-60 [PubMed]
Munoz DP, Wurtz RH (1995) Saccade-related activity in monkey superior colliculus. II. Spread of activity during saccades. J Neurophysiol 73:2334-48 [Journal] [PubMed]
Munoz DP, Wurtz RH (1995) Saccade-related activity in monkey superior colliculus. I. Characteristics of burst and buildup cells. J Neurophysiol 73:2313-33 [Journal] [PubMed]
Nakahara H, Morita K, Wurtz RH, Optican LM (2006) Saccade-related spread of activity across superior colliculus may arise from asymmetry of internal connections. J Neurophysiol 96:765-74 [Journal] [PubMed]
Ottes FP, Van Gisbergen JA, Eggermont JJ (1986) Visuomotor fields of the superior colliculus: a quantitative model. Vision Res 26:857-73 [PubMed]
Pettit DL, Helms MC, Lee P, Augustine GJ, Hall WC (1999) Local excitatory circuits in the intermediate gray layer of the superior colliculus. J Neurophysiol 81:1424-7 [Journal] [PubMed]
Port NL, Sommer MA, Wurtz RH (2000) Multielectrode evidence for spreading activity across the superior colliculus movement map. J Neurophysiol 84:344-57 [Journal] [PubMed]
Saito Y, Isa T (1999) Electrophysiological and morphological properties of neurons in the rat superior colliculus. I. Neurons in the intermediate layer. J Neurophysiol 82:754-67 [Journal] [PubMed]
Saito Y, Isa T (2003) Local excitatory network and NMDA receptor activation generate a synchronous and bursting command from the superior colliculus. J Neurosci 23:5854-64 [PubMed]
Saito Y, Isa T (2005) Organization of interlaminar interactions in the rat superior colliculus. J Neurophysiol 93:2898-907 [Journal] [PubMed]
Schiller PH, Sandell JH, Maunsell JH (1987) The effect of frontal eye field and superior colliculus lesions on saccadic latencies in the rhesus monkey. J Neurophysiol 57:1033-49 [Journal] [PubMed]
Schiller PH, True SD, Conway JL (1979) Effects of frontal eye field and superior colliculus ablations on eye movements. Science 206:590-2 [PubMed]
Soetedjo R, Kaneko CR, Fuchs AF (2002) Evidence against a moving hill in the superior colliculus during saccadic eye movements in the monkey. J Neurophysiol 87:2778-89 [Journal] [PubMed]
Soetedjo R, Kaneko CR, Fuchs AF (2002) Evidence that the superior colliculus participates in the feedback control of saccadic eye movements. J Neurophysiol 87:679-95 [Journal] [PubMed]
Sparks DL (1978) Functional properties of neurons in the monkey superior colliculus: coupling of neuronal activity and saccade onset. Brain Res 156:1-16 [PubMed]
Sparks DL, Mays LE (1980) Movement fields of saccade-related burst neurons in the monkey superior colliculus. Brain Res 190:39-50 [PubMed]
Tabareau N, Bennequin D, Berthoz A, Slotine JJ, Girard B (2007) Geometry of the superior colliculus mapping and efficient oculomotor computation. Biol Cybern 97:279-92 [Journal] [PubMed]
Takagi M, Zee DS, Tamargo RJ (1998) Effects of lesions of the oculomotor vermis on eye movements in primate: saccades. J Neurophysiol 80:1911-31 [Journal] [PubMed]
Takahashi M, Sugiuchi Y, Shinoda Y (2010) Topographic organization of excitatory and inhibitory commissural connections in the superior colliculi and their functional roles in saccade generation. J Neurophysiol 104:3146-67 [Journal] [PubMed]
van Gisbergen JA, van Opstal AJ, Schoenmakers JJ (1985) Experimental test of two models for the generation of oblique saccades. Exp Brain Res 57:321-36 [PubMed]
van Opstal AJ, Goossens HH (2008) Linear ensemble-coding in midbrain superior colliculus specifies the saccade kinematics. Biol Cybern 98:561-77 [Journal] [PubMed]
Waitzman DM, Silakov VL, DePalma-Bowles S, Ayers AS (2000) Effects of reversible inactivation of the primate mesencephalic reticular formation. I. Hypermetric goal-directed saccades. J Neurophysiol 83:2260-84 [Journal] [PubMed]
Wallman J, Fuchs AF (1998) Saccadic gain modification: visual error drives motor adaptation. J Neurophysiol 80:2405-16 [Journal] [PubMed]
Zhou L, Warren S, May PJ (2008) The feedback circuit connecting the central mesencephalic reticular formation and the superior colliculus in the macaque monkey: tectal connections. Exp Brain Res 189:485-96 [Journal] [PubMed]
Zhu JJ, Lo FS (2000) Recurrent inhibitory circuitry in the deep layers of the rabbit superior colliculus. J Physiol 523 Pt 3:731-40 [PubMed]
(57 refs)