2023
Laminar mechanisms of saccadic suppression in primate visual cortex
Denagamage S, Morton M, Hudson N, Reynolds J, Jadi M, Nandy A. Laminar mechanisms of saccadic suppression in primate visual cortex. Cell Reports 2023, 42: 112720. PMID: 37392385, PMCID: PMC10528056, DOI: 10.1016/j.celrep.2023.112720.Peer-Reviewed Original ResearchMeSH KeywordsAnimalsNeuronsPhotic StimulationPrimatesReaction TimeSaccadesVisual CortexVisual PerceptionConceptsSaccadic suppressionFiring rateInter-neuronal correlationsLocal inhibitory activityCortical firing ratesEye movementsSaccadic eye movementsPutative inhibitory interneuronsDistinct neural subpopulationsVisual cortical networkPrimate visual cortexVisual area V4Inhibitory interneuronsCortical circuitryVisual cortexSaccade onsetArea V4Single neuronsCortical networksNeural subpopulationsVisual stabilityNeuronsInhibitory activityTemporary reductionVisual sensitivity
2013
Rapid and Persistent Adaptability of Human Oculomotor Control in Response to Simulated Central Vision Loss
Kwon M, Nandy AS, Tjan BS. Rapid and Persistent Adaptability of Human Oculomotor Control in Response to Simulated Central Vision Loss. Current Biology 2013, 23: 1663-1669. PMID: 23954427, PMCID: PMC3773263, DOI: 10.1016/j.cub.2013.06.056.Peer-Reviewed Original ResearchConceptsCentral vision lossVision lossOculomotor systemHigh acuity visionHuman oculomotor controlRehabilitation regimenFixation locusClinical observationsBallistic eye movementsCentral visionOculomotor referenceArtificial scotomaSimulated scotomaScotomaHuman retinaPeripheral locusOculomotor controlEye movementsFoveaPatientsFoveal visionSaccadesFixationRegimenRetina
2012
Saccade-confounded image statistics explain visual crowding
Nandy AS, Tjan BS. Saccade-confounded image statistics explain visual crowding. Nature Neuroscience 2012, 15: 463-469. PMID: 22231425, PMCID: PMC3288353, DOI: 10.1038/nn.3021.Peer-Reviewed Original Research