2024
Cognitive Control Network and Language Reorganization in Patients with Brain Tumors
Pasquini L, Napolitano A, Spitoni L, Schmid M, Dellepiane F, Jenabi M, Peck K, Holodny A. Cognitive Control Network and Language Reorganization in Patients with Brain Tumors. American Journal Of Neuroradiology 2024, 46: ajnr.a8638. PMID: 39730156, PMCID: PMC12152808, DOI: 10.3174/ajnr.a8638.Peer-Reviewed Original ResearchCognitive control networkLanguage reorganizationResting-state fMRIHealthy controlsFunctional magnetic resonance imagingControl networkTask-based fMRIResting state networksRight-handed patientsCognitive controlLanguage lateralizationReorganize languageEffect of lateralitySpeech deficitsLaterality indexFMRIAge-matched healthy controlsRight-handednessPatient's speechBrain tumorsTask-basedCognitive networksIndependent component analysisMagnetic resonance imagingBrainTumor-induced modifications of resting-state networks in patients with glioma
Pasquini L, Napolitano A, Schmid M, Jenabi M, Peck K, Holodny A. Tumor-induced modifications of resting-state networks in patients with glioma. Proceedings Of The International Society For Magnetic Resonance In Medicine ... Scientific Meeting And Exhibition. 2024 DOI: 10.58530/2024/3149.Peer-Reviewed Original ResearchBrain networksHealthy controlsResting-state functional MRITumor locationResting-state networksFunctional MRIAssociated with tumor locationTumor boundariesCognitive disabilitiesTumor-induced alterationsCognitive networksBrainChi-square testTumor effectWHO-gradeFunctional alterationsEloquent areasTumor growthGlioma patientsWidespread effectsTumorPatient networksPatientsGliomaAlterations
2022
Links between electroconvulsive therapy responsive and cognitive impairment multimodal brain networks in late-life major depressive disorder
Qi S, Calhoun V, Zhang D, Miller J, Deng Z, Narr K, Sheline Y, McClintock S, Jiang R, Yang X, Upston J, Jones T, Sui J, Abbott C. Links between electroconvulsive therapy responsive and cognitive impairment multimodal brain networks in late-life major depressive disorder. BMC Medicine 2022, 20: 477. PMID: 36482369, PMCID: PMC9733153, DOI: 10.1186/s12916-022-02678-6.Peer-Reviewed Original ResearchConceptsMultimodal brain networksElectroconvulsive therapyBrain networksHippocampal complexCognitive impairmentSingle site clinical trialsCognitive impairing effectsSuperior orbitofrontal cortexECT seriesMedial temporal cortexLate-life depressionHDRS reductionAntidepressant outcomesOrbitofrontal cortexNeurobiological underpinningsCognitive safetyImpairing effectsTemporal cortexOptimal pulse amplitudeCognitive outcomesCognitive AssessmentCognitive-impairmentLongitudinal multimodal imagingCognitive networksDepression
2018
Spontaneous cortical activity transiently organises into frequency specific phase-coupling networks
Vidaurre D, Hunt L, Quinn A, Hunt B, Brookes M, Nobre A, Woolrich M. Spontaneous cortical activity transiently organises into frequency specific phase-coupling networks. Nature Communications 2018, 9: 2987. PMID: 30061566, PMCID: PMC6065434, DOI: 10.1038/s41467-018-05316-z.Peer-Reviewed Original ResearchConceptsHigher-order cognitive networksPatterns of oscillatory powerBrain statesCognitive networksFunctional brain networksTransient brain statesFrequency-specific oscillationsSpontaneous cortical activityDelta/theta rangeMode networkCognitive tasksResting networksBrain areasBrain networksIntrinsic timescalesOscillatory powerPosterior alphaCortical activityMotor networkAnterior subdivisionFunctional specialisationNeuronal populationsBrainBandCoherence
2006
Cortical Activation While Watching Video Montage: An fMRI Study
Anderson D, Fite K, Petrovich N, Hirsch J. Cortical Activation While Watching Video Montage: An fMRI Study. Media Psychology 2006, 8: 7-24. DOI: 10.1207/s1532785xmep0801_2.Peer-Reviewed Original ResearchFunctional magnetic resonance imagingHemisphere language areasMultiple brain areasLanguage areasAction sequencesPosterior cingulateLeft hemisphere language areasCortical networksHigher-level cognitive networksBrain areasRight hemisphere homologueFlow of actionsCognitive activityFMRI studyVisual actionsRight hemisphereCortical activationFrontal areasCoordinated activityCognitive networksVideo montageCingulateMagnetic resonance imagingExtrastriateComprehension
2003
fMRI identifies regional specialization of neural networks for reading in young children
Gaillard WD, Balsamo LM, Ibrahim Z, Sachs BC, Xu B. fMRI identifies regional specialization of neural networks for reading in young children. Neurology 2003, 60: 94-100. PMID: 12525725, DOI: 10.1212/wnl.60.1.94.Peer-Reviewed Original ResearchConceptsMiddle frontal gyrusFrontal gyrusTemporal-occipital junctionMiddle temporal gyrusYoung childrenSupplementary motor areaFusiform gyrusLanguage networkTemporal gyrusOccipital junctionLanguage lateralizationNative EnglishEarly readersWernicke's areaNeural networkMotor areaBrain regionsCognitive networksAge 6Prominent activationGyrusFMRIChildren 7Interest approachBOLD technique
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