2024
Ketamine induces multiple individually distinct whole-brain functional connectivity signatures
Moujaes F, Ji J, Rahmati M, Burt J, Schleifer C, Adkinson B, Savic A, Santamauro N, Tamayo Z, Diehl C, Kolobaric A, Flynn M, Rieser N, Fonteneau C, Camarro T, Xu J, Cho Y, Repovs G, Fineberg S, Morgan P, Seifritz E, Vollenweider F, Krystal J, Murray J, Preller K, Anticevic A. Ketamine induces multiple individually distinct whole-brain functional connectivity signatures. ELife 2024, 13: e84173. PMID: 38629811, PMCID: PMC11023699, DOI: 10.7554/elife.84173.Peer-Reviewed Original ResearchConceptsResponse to ketamineAcute ketamineBehavioral effectsQuantified resting-state functional connectivityEffects of acute ketamineSymptom variationResting-state functional connectivityTreatment-resistant depressionFunctional connectivity signaturesGlobal brain connectivitySingle-subject levelInter-individual variabilityPlacebo-controlled studyFunctional connectivityConnectivity signaturesBrain connectivityHealthy participantsSingle-blind placebo-controlled studyNeural variationsTreatment conditionsKetamineGene expression targetsPharmacological biomarkersPilot awardParvalbuminOn the stability of canonical correlation analysis and partial least squares with application to brain-behavior associations
Helmer M, Warrington S, Mohammadi-Nejad A, Ji J, Howell A, Rosand B, Anticevic A, Sotiropoulos S, Murray J. On the stability of canonical correlation analysis and partial least squares with application to brain-behavior associations. Communications Biology 2024, 7: 217. PMID: 38383808, PMCID: PMC11245620, DOI: 10.1038/s42003-024-05869-4.Peer-Reviewed Original Research
2014
Altered global brain signal in schizophrenia
Yang GJ, Murray JD, Repovs G, Cole MW, Savic A, Glasser MF, Pittenger C, Krystal JH, Wang XJ, Pearlson GD, Glahn DC, Anticevic A. Altered global brain signal in schizophrenia. Proceedings Of The National Academy Of Sciences Of The United States Of America 2014, 111: 7438-7443. PMID: 24799682, PMCID: PMC4034208, DOI: 10.1073/pnas.1405289111.Peer-Reviewed Original ResearchConceptsGlobal brain signalBrain dysfunctionHealthy subjectsBipolar patientsCortical powerBipolar disorderNeuropsychiatric conditionsFunctional MRIPatient samplesBrain connectivitySchizophreniaComplex neurobiologyDiagnostic specificityPatientsBrain signalsAlterationsDysfunctionSymptomsFindingsBaselineBrainMRI
2013
Global Resting-State Functional Magnetic Resonance Imaging Analysis Identifies Frontal Cortex, Striatal, and Cerebellar Dysconnectivity in Obsessive-Compulsive Disorder
Anticevic A, Hu S, Zhang S, Savic A, Billingslea E, Wasylink S, Repovs G, Cole MW, Bednarski S, Krystal JH, Bloch MH, Li CS, Pittenger C. Global Resting-State Functional Magnetic Resonance Imaging Analysis Identifies Frontal Cortex, Striatal, and Cerebellar Dysconnectivity in Obsessive-Compulsive Disorder. Biological Psychiatry 2013, 75: 595-605. PMID: 24314349, PMCID: PMC3969771, DOI: 10.1016/j.biopsych.2013.10.021.Peer-Reviewed Original ResearchConceptsObsessive-compulsive disorderPrefrontal cortexResting-state functional connectivity dataStriatum/nucleus accumbensVentral striatum/nucleus accumbensResting-state functional connectivity studiesVentral anterior cingulate cortexCortico-striatal circuitsMagnetic Resonance Imaging AnalysisAnterior cingulate cortexFunctional connectivity studiesBasal gangliaControl subjectsFunctional connectivity dataAnterior thalamusRight putamenFrontal cortexNucleus accumbensDorsal striatumCerebellar cortexAbnormal neural connectivityCerebellar dysconnectivityCingulate cortexWhole brainFunctional magnetic resonance imaging (fMRI) analysisMulti-task connectivity reveals flexible hubs for adaptive task control
Cole MW, Reynolds JR, Power JD, Repovs G, Anticevic A, Braver TS. Multi-task connectivity reveals flexible hubs for adaptive task control. Nature Neuroscience 2013, 16: 1348-1355. PMID: 23892552, PMCID: PMC3758404, DOI: 10.1038/nn.3470.Peer-Reviewed Original Research
2012
The role of default network deactivation in cognition and disease
Anticevic A, Cole MW, Murray JD, Corlett PR, Wang XJ, Krystal JH. The role of default network deactivation in cognition and disease. Trends In Cognitive Sciences 2012, 16: 584-592. PMID: 23142417, PMCID: PMC3501603, DOI: 10.1016/j.tics.2012.10.008.Peer-Reviewed Original ResearchConceptsDMN suppressionDefault network deactivationGoal-directed cognitionSpecific behavioral tasksDefault mode networkCognitive neurosciencePharmacological neuroimagingSuppression deficitsBehavioral tasksFocused attentionClinical neuroscienceTheoretical neuroscienceBrain regionsNeuroscienceCognitionSevere mental illnessMental illnessConsiderable bodyNeuroimagingTaskDeficitsDMNExternal environmentMindDiseaseNMDA receptor function in large-scale anticorrelated neural systems with implications for cognition and schizophrenia
Anticevic A, Gancsos M, Murray JD, Repovs G, Driesen NR, Ennis DJ, Niciu MJ, Morgan PT, Surti TS, Bloch MH, Ramani R, Smith MA, Wang XJ, Krystal JH, Corlett PR. NMDA receptor function in large-scale anticorrelated neural systems with implications for cognition and schizophrenia. Proceedings Of The National Academy Of Sciences Of The United States Of America 2012, 109: 16720-16725. PMID: 23012427, PMCID: PMC3478611, DOI: 10.1073/pnas.1208494109.Peer-Reviewed Original ResearchMeSH KeywordsAdultAlgorithmsBrainCognitionDouble-Blind MethodExcitatory Amino Acid AntagonistsFemaleHumansInfusions, IntravenousKetamineMagnetic Resonance ImagingMaleMemoryModels, NeurologicalPattern Recognition, VisualPsychomotor PerformanceReceptors, N-Methyl-D-AspartateSchizophreniaSynaptic TransmissionYoung AdultConceptsNeural systemsLarge-scale brain systemsTask-dependent activationN-methyl-D-aspartate receptorsRealistic computational modelingSevere neuropsychiatric illnessNMDA glutamate receptor antagonistGlutamate receptor antagonistsBrain systemsNMDA receptor functionTask performanceMultiple interacting regionsCognitionCortical disinhibitionGlutamatergic neurotransmissionReceptor antagonistCortical computationGlutamate's roleReciprocal relationshipNeuropsychiatric illnessLocal circuitsReceptor functionSchizophreniaPresent findingsComputational modeling
2011
Variable Global Dysconnectivity and Individual Differences in Schizophrenia
Cole MW, Anticevic A, Repovs G, Barch D. Variable Global Dysconnectivity and Individual Differences in Schizophrenia. Biological Psychiatry 2011, 70: 43-50. PMID: 21496789, PMCID: PMC3204885, DOI: 10.1016/j.biopsych.2011.02.010.Peer-Reviewed Original ResearchConceptsIndividual differencesWechsler Adult Intelligence Scale-Third EditionDorsolateral prefrontal cortex regionsState functional connectivity magnetic resonanceFunctional connectivity magnetic resonanceFocal brain regionsPrefrontal cortex regionsSternberg taskCognitive functioningPFC involvementCognitive deficitsDSM-IV schizophreniaSymptom domainsConnectivity methodsBrain regionsNegative symptomsSymptom severitySymptom presentationCortex regionsDysconnectivityHub regionsNeuropathology of schizophreniaSchizophreniaSuch findingsSymptom expression
2010
Resisting emotional interference: Brain regions facilitating working memory performance during negative distraction
Anticevic A, Barch D, Repovs G. Resisting emotional interference: Brain regions facilitating working memory performance during negative distraction. Cognitive, Affective, & Behavioral Neuroscience 2010, 10: 159-173. PMID: 20498341, PMCID: PMC3856369, DOI: 10.3758/cabn.10.2.159.Peer-Reviewed Original ResearchConceptsPrefrontal cortical regionsNegative distractionPrefrontal regionsEmotional interferenceNeutral distractionIncorrect trialsCortical regionsPrefrontal cortexNegative emotional distractionActive cognitive engagementLateral prefrontal regionsVentrolateral prefrontal regionsFrontopolar prefrontal cortexSurvival-relevant informationParietal cortical regionsEmotional distractionWM performanceCognitive operationsAmygdala signalMemory performanceCognitive engagementIndividual differencesAmygdala activityActivation differencesMore deactivation
2009
When less is more: TPJ and default network deactivation during encoding predicts working memory performance
Anticevic A, Repovs G, Shulman GL, Barch DM. When less is more: TPJ and default network deactivation during encoding predicts working memory performance. NeuroImage 2009, 49: 2638-2648. PMID: 19913622, PMCID: PMC3226712, DOI: 10.1016/j.neuroimage.2009.11.008.Peer-Reviewed Original ResearchConceptsTemporo-parietal junctionDefault mode networkWM performanceDMN deactivationSlow event-related fMRIDefault network deactivationBetter WM performanceTask-relevant featuresEvent-related fMRITypes of distractersVentral attention networkStronger functional connectivityRapid visual searchFunctional connectivity resultsWM encodingWM taskTask demandsDistracter stimuliMemory performanceCognitive engagementVisual searchFunctional dissociationIrrelevant objectsAttention networkMode network
2008
Comparing surface-based and volume-based analyses of functional neuroimaging data in patients with schizophrenia
Anticevic A, Dierker DL, Gillespie SK, Repovs G, Csernansky JG, Van Essen DC, Barch DM. Comparing surface-based and volume-based analyses of functional neuroimaging data in patients with schizophrenia. NeuroImage 2008, 41: 835-848. PMID: 18434199, PMCID: PMC2527864, DOI: 10.1016/j.neuroimage.2008.02.052.Peer-Reviewed Original Research