2000
Supplementary Eye Field: Representation of Saccades and Relationship Between Neural Response Fields and Elicited Eye Movements
Russo G, Bruce C. Supplementary Eye Field: Representation of Saccades and Relationship Between Neural Response Fields and Elicited Eye Movements. Journal Of Neurophysiology 2000, 84: 2605-2621. PMID: 11068002, DOI: 10.1152/jn.2000.84.5.2605.Peer-Reviewed Original ResearchConceptsSupplementary eye fieldElicited saccadesEye fieldElicited eye movementsSaccade directionVisual field coordinatesPeripheral target locationFrontal eye fieldNeural response fieldsVisual receptive fieldsVisuomovement neuronsCentral fixation pointPresaccadic activityOculomotor structuresContralateral saccadesOculomotor functionDirection of saccadesSuperior colliculusNeural dischargeSEF neuronsCentral fixationResponse fieldSaccade amplitudeSaccadesNeurons
1996
Neurons in the supplementary eye field of rhesus monkeys code visual targets and saccadic eye movements in an oculocentric coordinate system
Russo GS, Bruce CJ. Neurons in the supplementary eye field of rhesus monkeys code visual targets and saccadic eye movements in an oculocentric coordinate system. Journal Of Neurophysiology 1996, 76: 825-848. PMID: 8871203, DOI: 10.1152/jn.1996.76.2.825.Peer-Reviewed Original ResearchMeSH KeywordsAnimalsBrain MappingFixation, OcularFrontal LobeMacaca mulattaMaleNeuronsPhotic StimulationSaccadesVisual PerceptionConceptsSupplementary eye fieldPresaccadic activitySaccadic eye movementsSEF neuronsOculocentric coordinate systemEye fieldEccentric orbital positionEye positionEye movementsInitial eye positionBeginning of saccadesMemory saccade taskFixation pointCentral fixation pointOculocentric coordinatesVisual cue presentationMacaque monkeysOculomotor rangeRhesus monkeysCraniocentric coordinatesNeuronsSaccade directionVisual targetsStimulus directionSaccades
1994
Frontal eye field activity preceding aurally guided saccades
Russo G, Bruce C. Frontal eye field activity preceding aurally guided saccades. Journal Of Neurophysiology 1994, 71: 1250-1253. PMID: 8201415, DOI: 10.1152/jn.1994.71.3.1250.Peer-Reviewed Original ResearchConceptsFrontal eye fieldSaccade-related burst neuronsAuditory targetsMonkey frontal eye fieldVisual targetsFrontal eye field activityMovement fieldsGoal-directed saccadesVisuomovement cellsBurst neuronsIntracortical microstimulationSuch saccadesFEF activityFEF neuronsNeuronal activitySuperior colliculusEye fieldSaccadesSaccadic processingNeuronsComparable burstsMovement cellsCellsFixation directionTarget
1990
Visuospatial coding in primate prefrontal neurons revealed by oculomotor paradigms
Funahashi S, Bruce C, Goldman-Rakic P. Visuospatial coding in primate prefrontal neurons revealed by oculomotor paradigms. Journal Of Neurophysiology 1990, 63: 814-831. PMID: 2341879, DOI: 10.1152/jn.1990.63.4.814.Peer-Reviewed Original ResearchConceptsODR taskVisual cuesPrefrontal cortexVisual responsesVisual probe taskLocation of cuesPrincipal sulcusVisual fieldDelay-period activitySame visual stimuliPrimate Prefrontal NeuronsDirectional visual responsesPassive visual responsesPS neuronsTask-related activityProbe taskSaccadic eye movementsVisuospatial codingCue locationSingle neuron activityVisual stimuliBehavioral enhancementOculomotor paradigmsPhasic visual responsesPrefrontal neurons
1989
Mnemonic coding of visual space in the monkey's dorsolateral prefrontal cortex
Funahashi S, Bruce C, Goldman-Rakic P. Mnemonic coding of visual space in the monkey's dorsolateral prefrontal cortex. Journal Of Neurophysiology 1989, 61: 331-349. PMID: 2918358, DOI: 10.1152/jn.1989.61.2.331.Peer-Reviewed Original ResearchMeSH KeywordsAnimalsFrontal LobeMacaca mulattaMemoryNeural InhibitionNeuronsOcular Physiological PhenomenaReaction TimeVisual PerceptionConceptsDelay-period activityDorsolateral prefrontal cortexPS neuronsPrefrontal cortexPrincipal sulcusDirectional delay-period activityMonkey dorsolateral prefrontal cortexSpontaneous rateFrontal eye field regionOculomotor delayed-response taskSpatial memory functionPeriod activityCue directionSaccadic eye movementsOculomotor behaviorPrimate prefrontal cortexSubsequent delay periodTask-related activityVisual field locationsExcitatory responsesMost neuronsAnterior bankArcuate sulcusInhibitory responsesFixation target
1986
Both striate cortex and superior colliculus contribute to visual properties of neurons in superior temporal polysensory area of macaque monkey
Bruce C, Desimone R, Gross C. Both striate cortex and superior colliculus contribute to visual properties of neurons in superior temporal polysensory area of macaque monkey. Journal Of Neurophysiology 1986, 55: 1057-1075. PMID: 3711967, DOI: 10.1152/jn.1986.55.5.1057.Peer-Reviewed Original ResearchConceptsSuperior temporal polysensory areaStriate lesionsIntact monkeysContralateral visual fieldSuperior colliculusHemifield contralateralStriate cortexUnilateral removalPolysensory areaGeniculostriate systemVisual responsesVisual hemifieldVisual fieldReceptive fieldsPrimate cerebral cortexVisual stimuliContralateral visual hemifieldStimulus motionBilateral receptive fieldsCerebral cortexIpsilateral hemifieldReceptive field sizeContralateralMacaque monkeysContralateral field
1984
Stimulus-selective properties of inferior temporal neurons in the macaque
Desimone R, Albright T, Gross C, Bruce C. Stimulus-selective properties of inferior temporal neurons in the macaque. Journal Of Neuroscience 1984, 4: 2051-2062. PMID: 6470767, PMCID: PMC6564959, DOI: 10.1523/jneurosci.04-08-02051.1984.Peer-Reviewed Original ResearchMeSH KeywordsAnimalsElectric ConductivityFaceHumansMacaca mulattaNeuronsPhotic StimulationRotationTemporal LobeVision, OcularVisual PerceptionConceptsInferior temporalIT neuronsStimulus-selective cellsInferior temporal neuronsResponsive neuronsHigh incidenceSuperior temporal sulcusTemporal neuronsNeuronsTemporal sulcusLarge receptive fieldsReceptive fieldsSuch cellsStimulus sizePresent studyCellsStimuliSeparate populationsPrevious studiesResponseComplex stimuliIncidence
1981
Visual properties of neurons in a polysensory area in superior temporal sulcus of the macaque.
Bruce C, Desimone R, Gross C. Visual properties of neurons in a polysensory area in superior temporal sulcus of the macaque. Journal Of Neurophysiology 1981, 46: 369-384. PMID: 6267219, DOI: 10.1152/jn.1981.46.2.369.Peer-Reviewed Original ResearchVisual experience and development of interocular orientation disparity in visual cortex.
Bruce C, Isley M, Shinkman P. Visual experience and development of interocular orientation disparity in visual cortex. Journal Of Neurophysiology 1981, 46: 215-228. PMID: 7264711, DOI: 10.1152/jn.1981.46.2.215.Peer-Reviewed Original Research
1979
Analysis of the effects of operant conditioning on cortical unit response patterns
Shinkman P, Bruce C. Analysis of the effects of operant conditioning on cortical unit response patterns. Physiology & Behavior 1979, 23: 377-383. PMID: 504425, DOI: 10.1016/0031-9384(79)90381-0.Peer-Reviewed Original ResearchConceptsSpontaneous discharge rateCat visual cortexResponse patternsCell response patternsPeristimulus time histogramsVisual stimuliHigh spontaneous ratesVisual cortexCell preconditioningCell activityPattern of responseSpontaneous rateTime histogramsBaseline patternsConditioning paradigmCellsSpecific changesOperant conditioning paradigmPreconditioningCell patternFrequency of reinforcementConditioning procedureResponseStimuliCortex
1977
Binocular Differences in Cortical Receptive Fields of Kittens After Rotationally Disparate Binocular Experience
Shinkman P, Bruce C. Binocular Differences in Cortical Receptive Fields of Kittens After Rotationally Disparate Binocular Experience. Science 1977, 197: 285-287. PMID: 877554, DOI: 10.1126/science.877554.Peer-Reviewed Original ResearchMeSH KeywordsAnimalsCatsDepth PerceptionEye MovementsOrientationVision, OcularVisual CortexVisual FieldsVisual Perception
1975
Quantitative analysis of unit response patterns in cat visual cortex
Pfingst B, Bruce C, Shinkman P. Quantitative analysis of unit response patterns in cat visual cortex. Experimental Neurology 1975, 46: 215-228. PMID: 1109339, DOI: 10.1016/0014-4886(75)90044-8.Peer-Reviewed Original ResearchMeSH KeywordsAnimalsCatsElectrophysiologyMaleMathematicsNeural InhibitionNeuronsReaction TimeTime FactorsVisual CortexVisual PerceptionConceptsCat visual cortexArea 18Visual cortexLong-latency componentsResponse patternsPeristimulus time histogramsContralateral eyeArea 17Cortical areasInhibitory periodExtracellular recordingsFlash stimuliTime histogramsResponse latency increasesLatency increaseExcitatoryCortexInhibitory activityTrial varianceSame vertical columnCellsDurationResponsePeriodNearby cells