| scholarly article | Q13442814 |
| P356 | DOI | 10.1007/BF00229882 |
| P953 | full work available at URL | http://link.springer.com/article/10.1007/BF00229882/fulltext.html |
| http://link.springer.com/content/pdf/10.1007/BF00229882 | ||
| http://link.springer.com/content/pdf/10.1007/BF00229882.pdf | ||
| P698 | PubMed publication ID | 1644122 |
| P50 | author | Cristina Lucchetti | Q64851057 |
| P2093 | author name string | L. Bon | |
| P2860 | cites work | The attention system of the human brain | Q28245431 |
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| P433 | issue | 3 | |
| P407 | language of work or name | English | Q1860 |
| P921 | main subject | visual perception | Q162668 |
| P304 | page(s) | 571-580 | |
| P577 | publication date | 1992-01-01 | |
| P1433 | published in | Experimental Brain Research | Q13358841 |
| P1476 | title | The dorsomedial frontal cortex of the macaca monkey: fixation and saccade-related activity | |
| P478 | volume | 89 |
| Q46775294 | A Subconscious Interaction between Fixation and Anticipatory Pursuit |
| Q28288177 | A common network of functional areas for attention and eye movements |
| Q48223790 | Are extent and force independent movement parameters? Preparation- and movement-related neuronal activity in the monkey cortex |
| Q48810555 | Attention-related neurons in the supplementary eye field of the macaque monkey. |
| Q79983381 | Auditory-motor and cognitive aspects in area 8B of macaque monkey's frontal cortex: a premotor ear-eye field (PEEF) |
| Q47843168 | Combination of neuronal signals representing object-centered location and saccade direction in macaque supplementary eye field |
| Q48232806 | Contrasting neuronal activity in the supplementary and frontal eye fields during temporal organization of multiple saccades |
| Q48415329 | Contribution of the primate prefrontal cortex to the gap effect |
| Q40528570 | Cortical control of saccades. |
| Q37607194 | Disrupted Saccade Control in Chronic Cerebral Injury: Upper Motor Neuron-Like Disinhibition in the Ocular Motor System. |
| Q72130556 | Ear and eye representation in the frontal cortex, area 8b, of the macaque monkey: an electrophysiological study |
| Q48376461 | Electrical microstimulation distinguishes distinct saccade-related areas in the posterior parietal cortex |
| Q37610433 | Electrical microstimulation suggests two different forms of representation of head-centered space in the intraparietal sulcus of rhesus monkeys |
| Q48376989 | Electrical stimulation of the supplementary eye fields in the head-free macaque evokes kinematically normal gaze shifts. |
| Q30418670 | Evidence for a functional subdivision of Premotor Ear-Eye Field (Area 8B) |
| Q52201915 | Evolution of directional preferences in the supplementary eye field during acquisition of conditional oculomotor associations. |
| Q48521923 | Exploring the contributions of the supplementary eye field to subliminal inhibition using double-pulse transcranial magnetic stimulation |
| Q56698465 | Eye fields in the frontal lobes of primates |
| Q48226764 | Eye movement disorders after frontal eye field lesions in humans |
| Q48767901 | Frames of reference for saccadic command tested by saccade collision in the supplementary eye field |
| Q57043364 | Gaze shifts evoked by stimulation of the superior colliculus in the head-free cat conform to the motor map but also depend on stimulus strength and fixation activity |
| Q48320068 | Impact of experience on the representation of object-centered space in the macaque supplementary eye field |
| Q48475384 | In multiple-step gaze shifts: omnipause (OPNs) and collicular fixation neurons encode gaze position error; OPNs gate saccades |
| Q47900208 | Macaque supplementary eye field neurons encode object-centered locations relative to both continuous and discontinuous objects |
| Q64257888 | Modeling Saccadic Action Selection: Cortical and Basal Ganglia Signals Coalesce in the Superior Colliculus |
| Q28292309 | Movement representation in the dorsal and ventral premotor areas of owl monkeys: a microstimulation study |
| Q48452847 | Neglect syndrome for aversive stimuli in a macaque monkey with dorsomedial frontal cortex lesion. |
| Q48551720 | Neuronal activity in macaque supplementary eye field during planning of saccades in response to pattern and spatial cues |
| Q37675868 | Neuronal control of fixation and fixational eye movements. |
| Q47888928 | Neurons with object-centered spatial selectivity in macaque SEF: do they represent locations or rules? |
| Q44950460 | Oculomotor areas of the primate frontal lobes: a transneuronal transfer of rabies virus and [14C]-2-deoxyglucose functional imaging study. |
| Q81576143 | Presaccadic brain potentials in conditions of covert attention orienting |
| Q48867404 | Prestimulus cortical potentials predict the performance in a saccadic distractor paradigm |
| Q46136785 | Primate antisaccade. II. Supplementary eye field neuronal activity predicts correct performance |
| Q37373652 | Proactive inhibitory control and attractor dynamics in countermanding action: a spiking neural circuit model |
| Q47615327 | Role of frontal eye fields in countermanding saccades: visual, movement, and fixation activity |
| Q28748873 | Role of supplementary eye field in saccade initiation: executive, not direct, control |
| Q48452095 | Saccades induced electrically from the dorsomedial frontal cortex: evidence for a head-centered representation |
| Q43613648 | Self-organizing task modules and explicit coordinate systems in a neural network model for 3-D saccades. |
| Q48213543 | Stimulation-evoked saccades from the dorsomedial frontal cortex of the rhesus monkey following lesions of the frontal eye fields and superior colliculus |
| Q48394397 | The antisaccade: a review of basic research and clinical studies |
| Q48376854 | The dorsomedial frontal cortex of the rhesus monkey: topographic representation of saccades evoked by electrical stimulation |
| Q73731725 | The effects of anterior arcuate and dorsomedial frontal cortex lesions on visually guided eye movements in the rhesus monkey: 1. Single and sequential targets |
| Q46486068 | Trajectory interpretation by supplementary eye field neurons during ocular baseball |
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