2020
Effects of early ketamine exposure on cerebral gray matter volume and functional connectivity
Hung CC, Liu YH, Huang CC, Chou CY, Chen CM, Duann JR, Li CR, Lee TS, Lin CP. Effects of early ketamine exposure on cerebral gray matter volume and functional connectivity. Scientific Reports 2020, 10: 15488. PMID: 32968108, PMCID: PMC7512006, DOI: 10.1038/s41598-020-72320-z.Peer-Reviewed Original ResearchConceptsGray matter volumeCerebral gray matter volumeKetamine exposureFunctional connectivityMatter volumeKetamine usersBrain structuresLower gray matter volumeFunctional brain changesTreatment of depressionAdolescent-onset groupCerebral functional organizationHigher functional connectivitySuperior frontal gyrusInferior parietal lobuleMedial orbitofrontal cortexSeed-based correlation analysisKetamine groupBrain changesKetamine abuseLarge cohortRight insulaLeft precuneusKetamine misuseRight precuneus
2018
Resting State Functional Connectivity of the Lateral and Medial Hypothalamus in Cocaine Dependence: An Exploratory Study
Zhang S, Wang W, Zhornitsky S, Li CR. Resting State Functional Connectivity of the Lateral and Medial Hypothalamus in Cocaine Dependence: An Exploratory Study. Frontiers In Psychiatry 2018, 9: 344. PMID: 30100886, PMCID: PMC6072838, DOI: 10.3389/fpsyt.2018.00344.Peer-Reviewed Original ResearchState functional connectivityMedial hypothalamusHealthy controlsCocaine dependenceDorsolateral prefrontal cortexFunctional connectivityHypothalamic connectivityPrefrontal cortexVentral striatumCocaine misuseConnectivity strengthCocaine Craving QuestionnaireRole of dopamineInferior parietal lobuleLateral hypothalamusTrend-level significanceMesocorticolimbic circuitPreclinical workHypothalamusVentromedial prefrontal cortexCocaine usePast monthParietal lobuleTemporal gyrusHypothalamus functions
2016
Craving behavioral intervention for internet gaming disorder: remediation of functional connectivity of the ventral striatum
Zhang J, Ma S, Li C, Liu L, Xia C, Lan J, Wang L, Liu B, Yao Y, Fang X. Craving behavioral intervention for internet gaming disorder: remediation of functional connectivity of the ventral striatum. Addiction Biology 2016, 23: 337-346. PMID: 27894158, PMCID: PMC5446940, DOI: 10.1111/adb.12474.Peer-Reviewed Original ResearchConceptsResting-state functional connectivityPsychobehavioral interventionsIGD subjectsFunctional connectivityHealthy controlsInternet gaming disorderGreater resting-state functional connectivityFrontal gyrusEffects of CBICross-sectional studyBehavioral intervention studyDirect current stimulationInferior parietal lobuleMiddle frontal gyrusGaming disorderSeverity of IGDInferior frontal gyrusSimilar time intervalsEffective treatmentIntervention studiesNon-invasive techniquePotential biomarkersVentral striatumParietal lobuleCurrent stimulationNovelty Seeking, Harm Avoidance, and Cerebral Responses to Conflict Anticipation: An Exploratory Study
Hu J, Hu S, Maisano JR, Chao HH, Zhang S, Li CR. Novelty Seeking, Harm Avoidance, and Cerebral Responses to Conflict Anticipation: An Exploratory Study. Frontiers In Human Neuroscience 2016, 10: 546. PMID: 27857686, PMCID: PMC5093128, DOI: 10.3389/fnhum.2016.00546.Peer-Reviewed Original ResearchInferior parietal lobuleConflict anticipationProactive controlLateral orbitofrontal cortexMiddle frontal gyrusHarm avoidancePre-supplementary motor areaBilateral inferior parietal lobuleRight inferior parietal lobuleCognitive control circuitsWhole-brain linear regressionTrial reaction timeStop-signal taskRegional brain activationRight lateral orbitofrontal cortexCerebral responsesIndividual differencesSignal taskBrain activationFMRI studyTridimensional Personality QuestionnaireFrontal gyrusGreater activationHA traitExploratory studyThe effects of methylphenidate on cerebral responses to conflict anticipation and unsigned prediction error in a stop-signal task
Manza P, Hu S, Ide JS, Farr OM, Zhang S, Leung HC, Li CR. The effects of methylphenidate on cerebral responses to conflict anticipation and unsigned prediction error in a stop-signal task. Journal Of Psychopharmacology 2016, 30: 283-293. PMID: 26755547, PMCID: PMC4837899, DOI: 10.1177/0269881115625102.Peer-Reviewed Original ResearchConceptsUnsigned prediction errorsStop-signal taskConflict anticipationVentromedial prefrontal cortexEffects of methylphenidateDorsal anterior cingulateInferior parietal lobulePresupplementary motor areaCognitive controlHealthy young adultsNeural processesUpcoming conflictTask performanceNeural mechanismsBilateral caudate headParietal lobulePrediction errorPrefrontal cortexAnterior cingulateAdaptive behaviorParahippocampal gyrusMethylphenidateMotor areaAnticipation activityYoung adults
2014
Functional Clustering of the Human Inferior Parietal Lobule by Whole-Brain Connectivity Mapping of Resting-State Functional Magnetic Resonance Imaging Signals
Zhang S, Li CS. Functional Clustering of the Human Inferior Parietal Lobule by Whole-Brain Connectivity Mapping of Resting-State Functional Magnetic Resonance Imaging Signals. Brain Connectivity 2014, 4: 53-69. PMID: 24308753, PMCID: PMC3929139, DOI: 10.1089/brain.2013.0191.Peer-Reviewed Original ResearchConceptsInferior parietal lobuleHuman inferior parietal lobuleParietal lobulePosterior inferior parietal lobuleFunctional magnetic resonance imaging (fMRI) dataResting-state functional magnetic resonance imaging (fMRI) dataInferior frontal gyrusFunctional magnetic resonance imaging (fMRI) signalsEarlier fMRI studiesDefault mode networkSpatial attentionCognitive challengesIntraparietal sulcusFMRI studyMathematical cognitionFrontal gyrusAngular gyrusSupramarginal gyrusHemispheric differencesMode networkMagnetic resonance imaging dataFunctional segregationRegional activationLanguage processingPosterior subregions
2013
Changes in cerebral morphometry and amplitude of low-frequency fluctuations of BOLD signals during healthy aging: correlation with inhibitory control
Hu S, Chao H, Zhang S, Ide JS, Li CS. Changes in cerebral morphometry and amplitude of low-frequency fluctuations of BOLD signals during healthy aging: correlation with inhibitory control. Brain Structure And Function 2013, 219: 983-994. PMID: 23553547, PMCID: PMC3760988, DOI: 10.1007/s00429-013-0548-0.Peer-Reviewed Original ResearchConceptsDorsal lateral prefrontal cortexInferior parietal lobuleSupplementary motor areaFrontal regionsInhibitory controlCingulate cortexStop-signal reaction timeBilateral dorsal lateral prefrontal cortexGM volumeCognitive performance decreasesRight inferior parietal lobuleLow-frequency fluctuationsLateral prefrontal cortexSignal reaction timePosterior cingulate cortexAnterior cingulate cortexBlood oxygenation level-dependent (BOLD) signalLevel-dependent signalFamily-wise errorGray matter volumeRecent alcohol useCognitive challengesParietal lobuleSpontaneous neural activityVoxel-based morphometry
2011
Neural processes of preparatory control for stop signal inhibition
Hu S, Li C. Neural processes of preparatory control for stop signal inhibition. Human Brain Mapping 2011, 33: 2785-2796. PMID: 21976392, PMCID: PMC3293936, DOI: 10.1002/hbm.21399.Peer-Reviewed Original ResearchConceptsStop-signal reaction timeFunctional magnetic resonance imagingMotor inhibitionShorter stop-signal reaction timesPrefrontal cortexRight orbital frontal cortexMotor executionPrimary motor cortexOrbital frontal cortexSignal inhibitionMagnetic resonance imagingPosterior cingulate cortexInferior parietal lobuleRight prefrontal cortexMotor cortexSignal reaction timeBilateral putamenFrontal cortexHealthy adultsVentromedial prefrontal cortexCingulate cortexResonance imagingPreparatory inhibitionParietal lobuleStop-signal trials
2009
Gender Differences in Cognitive Control: an Extended Investigation of the Stop Signal Task
Li CS, Zhang S, Duann JR, Yan P, Sinha R, Mazure CM. Gender Differences in Cognitive Control: an Extended Investigation of the Stop Signal Task. Brain Imaging And Behavior 2009, 3: 262-276. PMID: 19701485, PMCID: PMC2728908, DOI: 10.1007/s11682-009-9068-1.Peer-Reviewed Original ResearchRegional brain activationTrial reaction timeStop-signal taskCognitive controlBrain activationGo-trial reaction timesRight inferior parietal lobuleGender differencesReaction timeSub-cortical areasInferior parietal lobuleFunctional magnetic resonancePost-SEClinical conditionsControl disordersCortical activationClinical implicationsParietal lobuleInitiate studiesResponse inhibitionNeural processesSignal taskGreater activationWomenMen