2024
Reliability of dynamic causal modelling of resting‐state magnetoencephalography
Jafarian A, Assem M, Kocagoncu E, Lanskey J, Williams R, Cheng Y, Quinn A, Pitt J, Raymont V, Lowe S, Singh K, Woolrich M, Nobre A, Henson R, Friston K, Rowe J. Reliability of dynamic causal modelling of resting‐state magnetoencephalography. Human Brain Mapping 2024, 45: e26782. PMID: 38989630, PMCID: PMC11237883, DOI: 10.1002/hbm.26782.Peer-Reviewed Original ResearchMeSH KeywordsAgedAlzheimer DiseaseBayes TheoremFemaleHumansMagnetoencephalographyMaleModels, NeurologicalReproducibility of Results
2022
New Therapeutics in Alzheimer’s Disease Longitudinal Cohort study (NTAD): study protocol
Lanskey J, Kocagoncu E, Quinn A, Cheng Y, Karadag M, Pitt J, Lowe S, Perkinton M, Raymont V, Singh K, Woolrich M, Nobre A, Henson R, Rowe J. New Therapeutics in Alzheimer’s Disease Longitudinal Cohort study (NTAD): study protocol. BMJ Open 2022, 12: e055135. PMID: 36521898, PMCID: PMC9756184, DOI: 10.1136/bmjopen-2021-055135.Peer-Reviewed Original ResearchMeSH KeywordsAgedAged, 80 and overAlzheimer DiseaseCognitive DysfunctionCohort StudiesDisease ProgressionHumansLongitudinal StudiesMiddle AgedReproducibility of ResultsConceptsMild cognitive impairmentEarly-stage Alzheimer's diseaseCognitive impairmentPeer-reviewed scientific journalsLongitudinal cohort studyResearch Ethics CommitteeAlzheimer's diseaseAmyloid-positive mild cognitive impairmentAlzheimer's disease studyConference presentationsCohort studyMeasures of diseaseCognitive AssessmentDisease StudyStudy protocolPrimary analysisEthics CommitteeLongitudinal changesParticipantsCognitive changesWebsite publicationClinical trial durationNew therapeuticsEast of England-Cambridge Central Research Ethics CommitteeProgression of Alzheimer's disease
2014
Attention Biases Visual Activity in Visual Short-term Memory
Kuo B, Stokes M, Murray A, Nobre A. Attention Biases Visual Activity in Visual Short-term Memory. Journal Of Cognitive Neuroscience 2014, 26: 1377-1389. PMID: 24456394, DOI: 10.1162/jocn_a_00577.Peer-Reviewed Original ResearchConceptsVisual STMRetrospective cuesVisual short-term memoryTop-down control mechanismsTop-down attentional modulationVisual STM tasksShifts of attentionModulation of visual activityModulation of activityAreas V1-V4Relevant memorandaAttentional controlRetention intervalShort-term memoryFunctional connectivityVisual activityRetinotopic regionsAssociated with changesLarge-scale networksCuesV1-V4AttentionPFCMemoryMemorandaInter- and intra-individual variability in alpha peak frequency
Haegens S, Cousijn H, Wallis G, Harrison P, Nobre A. Inter- and intra-individual variability in alpha peak frequency. NeuroImage 2014, 92: 46-55. PMID: 24508648, PMCID: PMC4013551, DOI: 10.1016/j.neuroimage.2014.01.049.Peer-Reviewed Original ResearchConceptsAlpha peak frequencyAlpha rhythmVisual stimulation conditionsN-back working memory paradigmHealthy human subjectsBeta peak frequencyWorking memory paradigmN-back paradigmN-back taskBetween-subject SDIncreased cognitive demandsAlpha frequency bandPassive visual stimulationPeak frequencyElectrophysiological evidenceIntra-individual variabilityMemory paradigmParietal cortexCognitive processesBrain activityPosterior regionCognitive demandsAlpha activityStimulation conditionsOccipital sources
2012
Lacking Control over the Trade-Off between Quality and Quantity in Visual Short-Term Memory
Murray A, Nobre A, Astle D, Stokes M. Lacking Control over the Trade-Off between Quality and Quantity in Visual Short-Term Memory. PLOS ONE 2012, 7: e41223. PMID: 22905099, PMCID: PMC3414487, DOI: 10.1371/journal.pone.0041223.Peer-Reviewed Original ResearchConceptsVisual short-term memoryShort-term memoryMemory-based judgmentsStimulus-driven factorsTop-down controlPrecision of itemsMnemonic demandsExperiment 4Experiment 3Task demandsQuality of itemsItemsMemoryStrategic trade-offsContextual informationParticipantsLack controlJudgmentTaskMotivationTrade-offs
1999
Orienting attention in time
Miniussi C, Wilding E, Coull J, Nobre A. Orienting attention in time. Brain 1999, 122: 1507-1518. PMID: 10430834, DOI: 10.1093/brain/122.8.1507.Peer-Reviewed Original ResearchMeSH KeywordsAdultAnalysis of VarianceAttentionBrainBrain MappingCuesElectroencephalographyEvoked PotentialsFemaleFixation, OcularHumansMaleOrientationReaction TimeReproducibility of ResultsConceptsEvent-related potentialsCue-target intervalAttentional orientingNeural activityModulate visual attentionTarget detection taskDynamic neural activityReaction timeOrienting attentionAttentional resourcesCentral cuesNeural mechanismsTarget stimuliP300 amplitudeMotor preparationTemporal expectationsVisual attentionTemporal contingencyCuesDetection taskStimuliTaskHuman subjectsAttentionTime intervalA large-scale distributed network for covert spatial attention
Gitelman D, Nobre A, Parrish T, LaBar K, Kim Y, Meyer J, Mesulam M. A large-scale distributed network for covert spatial attention. Brain 1999, 122: 1093-1106. PMID: 10356062, DOI: 10.1093/brain/122.6.1093.Peer-Reviewed Original ResearchConceptsSpatial attention taskSpatial attentionAttention taskParietal cortexInhibition of eye movementsTemporo-occipital activationTemporo-occipital cortexLateral premotor cortexRight parietal cortexPosterior parietal cortexTemporo-occipital areasCovert spatial attentionCognitive controlAnterior insulaWorking memoryCingulate cortexRight hemisphereAttention shiftsSubcortical activityPremotor cortexFunctional MRIAttentional focusExperimental tasksCerebral activityBasal ganglia