2020
A sensorimotor control framework for understanding emotional communication and regulation
Williams J, Huggins C, Zupan B, Willis M, Van Rheenen T, Sato W, Palermo R, Ortner C, Krippl M, Kret M, Dickson J, Li C, Lowe L. A sensorimotor control framework for understanding emotional communication and regulation. Neuroscience & Biobehavioral Reviews 2020, 112: 503-518. PMID: 32070695, PMCID: PMC7505116, DOI: 10.1016/j.neubiorev.2020.02.014.Peer-Reviewed Original ResearchMeSH KeywordsAnimalsBrainCommunicationConsciousnessEmotional RegulationEmotionsExecutive FunctionGoalsHumansPsychomotor PerformanceThinkingConceptsEmotional communicationCommunication of emotionsContext of consciousnessGoal-directed actionsLanguage of emotionsAction wordsEmotional statesEmotionsFeeling wordsCultural learningLinguistic analysisEmbodied natureAllostatic mechanismsContextual useSensorimotor controlMotor controlLearning processWordsFeelingsCommunicationNeuroscienceLanguageMeaningSelfSenses
2019
Neural correlates of enhanced response inhibition in the aftermath of stress
Chang J, Hu J, Li CR, Yu R. Neural correlates of enhanced response inhibition in the aftermath of stress. NeuroImage 2019, 204: 116212. PMID: 31546050, PMCID: PMC7509808, DOI: 10.1016/j.neuroimage.2019.116212.Peer-Reviewed Original ResearchConceptsInhibitory controlAcute stressMagnetic resonance imaging studySignal taskResonance imaging studyFunctional magnetic resonance imaging studyMiddle frontal gyrusTrier Social Stress TestControl conditionSignal reaction timeAftermath of stressSocial Stress TestImaging studiesCognitive functionDynamic causal modelingStress exposureEnhanced response inhibitionPilot studyFrontal gyrusLife stressNeural mechanismsStriatumResponse inhibitionNeural correlatesImmediate effectsA consensus guide to capturing the ability to inhibit actions and impulsive behaviors in the stop-signal task
Verbruggen F, Aron AR, Band GP, Beste C, Bissett PG, Brockett AT, Brown JW, Chamberlain SR, Chambers CD, Colonius H, Colzato LS, Corneil BD, Coxon JP, Dupuis A, Eagle DM, Garavan H, Greenhouse I, Heathcote A, Huster RJ, Jahfari S, Kenemans JL, Leunissen I, Li C, Logan G, Matzke D, Morein-Zamir S, Murthy A, Paré M, Poldrack RA, Ridderinkhof KR, Robbins TW, Roesch M, Rubia K, Schachar RJ, Schall JD, Stock AK, Swann NC, Thakkar KN, van der Molen MW, Vermeylen L, Vink M, Wessel JR, Whelan R, Zandbelt BB, Boehler CN. A consensus guide to capturing the ability to inhibit actions and impulsive behaviors in the stop-signal task. ELife 2019, 8: e46323. PMID: 31033438, PMCID: PMC6533084, DOI: 10.7554/elife.46323.Peer-Reviewed Original Research
2018
Structural and functional cerebral bases of diminished inhibitory control during healthy aging
Hu S, Ide JS, Chao HH, Castagna B, Fischer KA, Zhang S, Li C. Structural and functional cerebral bases of diminished inhibitory control during healthy aging. Human Brain Mapping 2018, 39: 5085-5096. PMID: 30113124, PMCID: PMC6287913, DOI: 10.1002/hbm.24347.Peer-Reviewed Original ResearchConceptsProlonged stop signal reaction timeStop-signal reaction timeAge-related reductionInhibitory controlFunctional changesPrefrontal cortexAge-related diminutionSignal taskRight dorsolateral prefrontal cortexSame brain regionsFunctional magnetic resonance imagingMagnetic resonance imagingMedial prefrontal cortexInferior parietal cortexResponse inhibitionDorsolateral prefrontal cortexInferior frontal cortexDiminished inhibitory controlCerebral changesStructure-function associationsSignal reaction timeCaudate headAge-related differencesStop-signal taskFrontal cortex
2017
Connectome-based predictive modeling of attention: Comparing different functional connectivity features and prediction methods across datasets
Yoo K, Rosenberg MD, Hsu WT, Zhang S, Li CR, Scheinost D, Constable RT, Chun MM. Connectome-based predictive modeling of attention: Comparing different functional connectivity features and prediction methods across datasets. NeuroImage 2017, 167: 11-22. PMID: 29122720, PMCID: PMC5845789, DOI: 10.1016/j.neuroimage.2017.11.010.Peer-Reviewed Original ResearchDistinct neural processes support post-success and post-error slowing in the stop signal task
Zhang Y, Ide JS, Zhang S, Hu S, Valchev NS, Tang X, Li CR. Distinct neural processes support post-success and post-error slowing in the stop signal task. Neuroscience 2017, 357: 273-284. PMID: 28627420, PMCID: PMC6359720, DOI: 10.1016/j.neuroscience.2017.06.011.Peer-Reviewed Original ResearchProactive Control: Neural Oscillatory Correlates of Conflict Anticipation and Response Slowing
Chang A, Ide JS, Li HH, Chen CC, Li CR. Proactive Control: Neural Oscillatory Correlates of Conflict Anticipation and Response Slowing. ENeuro 2017, 4: eneuro.0061-17.2017. PMID: 28560315, PMCID: PMC5446487, DOI: 10.1523/eneuro.0061-17.2017.Peer-Reviewed Original ResearchConceptsStop-signal taskProactive controlConflict anticipationReaction timeTrial behavioral adjustmentsPrevious functional MRI studiesNeural oscillatory correlatesFunctional MRI studyDelta-theta bandLower theta bandDifferent behavioral paradigmsOscillatory correlatesNeural processesLow beta bandResponse slowingBehavioral adjustmentBehavioral paradigmsFunctional MRITime-frequency activityBehavioral strategiesElectrophysiological studiesElectrophysiological substrateMRI studiesBrain regionsRT clusters
2016
The Right Superior Frontal Gyrus and Individual Variation in Proactive Control of Impulsive Response
Hu S, Ide JS, Zhang S, Li CR. The Right Superior Frontal Gyrus and Individual Variation in Proactive Control of Impulsive Response. Journal Of Neuroscience 2016, 36: 12688-12696. PMID: 27974616, PMCID: PMC5157110, DOI: 10.1523/jneurosci.1175-16.2016.Peer-Reviewed Original ResearchConceptsStop-signal reaction timeRight superior frontal gyrusSuperior frontal gyrusConflict anticipationProactive controlFrontal gyrusImpulsive responsesCognitive controlSignal taskInhibitory controlImpulse controlRegional activationEfficient response inhibitionReaction time differencesMotor urgencyVentromedial prefrontal cortexStop-signal taskYoung adultsSignal reaction timePosterior cingulate cortexIndividual variationError RTAction restraintNeural basisResponse inhibitionA dual but asymmetric role of the dorsal anterior cingulate cortex in response inhibition and switching from a non-salient to salient action
Manza P, Hu S, Chao HH, Zhang S, Leung HC, Li CS. A dual but asymmetric role of the dorsal anterior cingulate cortex in response inhibition and switching from a non-salient to salient action. NeuroImage 2016, 134: 466-474. PMID: 27126003, PMCID: PMC4912860, DOI: 10.1016/j.neuroimage.2016.04.055.Peer-Reviewed Original ResearchConceptsDorsal anterior cingulate cortexStop-signal reaction timeAnterior cingulate cortexSignal reaction timeCingulate cortexResponse inhibitionMotor inhibitionPre-supplementary motor areaRegional activationPre-SMA functionRegional brain activationMotor response inhibitionMotor areaStop trialsSalience processingBrain activationSalience detectionSuccess trialsSignal taskTrialsInhibitionSuccessful inhibitionInfrequent stimuliCortexActivationThe 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
2015
Anticipating conflict: Neural correlates of a Bayesian belief and its motor consequence
Hu S, Ide JS, Zhang S, Li CS. Anticipating conflict: Neural correlates of a Bayesian belief and its motor consequence. NeuroImage 2015, 119: 286-295. PMID: 26095091, PMCID: PMC4564311, DOI: 10.1016/j.neuroimage.2015.06.032.Peer-Reviewed Original ResearchConceptsProactive controlMedial prefrontal cortexNeural correlatesPrefrontal cortexPre-supplementary motor areaTrial reaction timeStop-signal taskBilateral anterior insulaProlonged response timeReaction timeMotor consequencesCognitive controlConflict anticipationRT slowingSignal taskAnterior insulaTarget onsetLarge fMRI data setsPrediction errorBehavioral paradigmsBehavioral consequencesGranger causality analysisFMRI data setsBayesian beliefFMRI signalsIndependent component analysis of functional networks for response inhibition: Inter‐subject variation in stop signal reaction time
Zhang S, Tsai S, Hu S, Xu J, Chao HH, Calhoun VD, Li C. Independent component analysis of functional networks for response inhibition: Inter‐subject variation in stop signal reaction time. Human Brain Mapping 2015, 36: 3289-3302. PMID: 26089095, PMCID: PMC4545723, DOI: 10.1002/hbm.22819.Peer-Reviewed Original ResearchConceptsStop-signal reaction timeStop-signal taskCognitive controlSignal reaction timeResponse inhibitionStop successBeta weightsReaction timeCritical executive functionFunctional networksIndependent component analysisExecutive functionError trialsSignal taskComponent processesMotor preparationBrain networksBehavioral validityMotor regionsRace modelLinear modelingGeneral linear modelingLarge sampleIndependent componentsFMRIConflict anticipation in alcohol dependence — A model-based fMRI study of stop signal task
Hu S, Ide JS, Zhang S, Sinha R, Li CS. Conflict anticipation in alcohol dependence — A model-based fMRI study of stop signal task. NeuroImage Clinical 2015, 8: 39-50. PMID: 26106526, PMCID: PMC4473266, DOI: 10.1016/j.nicl.2015.03.008.Peer-Reviewed Original ResearchConceptsStop-signal reaction timeHealthy control individualsConflict anticipationAlcohol dependenceCognitive controlProactive controlSignal taskSequential effectsModel-based fMRI studyAlcohol consumptionStop signalPre-supplementary motor areaBilateral inferior parietal cortexPerigenual anterior cingulate cortexSignificant sequential effectInferior parietal cortexSignal reaction timeWhole-brain responsesAnterior cingulate cortexRecent alcohol consumptionNeural correlatesFMRI studyNeural markersMotor areaTrial onsetPerigenual anterior cingulate event-related potential precedes stop signal errors
Chang A, Chen CC, Li HH, Li CS. Perigenual anterior cingulate event-related potential precedes stop signal errors. NeuroImage 2015, 111: 179-185. PMID: 25700955, PMCID: PMC4511155, DOI: 10.1016/j.neuroimage.2015.02.017.Peer-Reviewed Original Research
2014
Dissociable Roles of Right Inferior Frontal Cortex and Anterior Insula in Inhibitory Control: Evidence from Intrinsic and Task-Related Functional Parcellation, Connectivity, and Response Profile Analyses across Multiple Datasets
Cai W, Ryali S, Chen T, Li CS, Menon V. Dissociable Roles of Right Inferior Frontal Cortex and Anterior Insula in Inhibitory Control: Evidence from Intrinsic and Task-Related Functional Parcellation, Connectivity, and Response Profile Analyses across Multiple Datasets. Journal Of Neuroscience 2014, 34: 14652-14667. PMID: 25355218, PMCID: PMC4212065, DOI: 10.1523/jneurosci.3048-14.2014.Peer-Reviewed Original ResearchConceptsRight inferior frontal cortexRight anterior insulaTask-evoked functional connectivityInferior frontal cortexFrontal cortexInhibitory controlFunctional connectivityAnterior insulaFronto-parietal cortexIntrinsic brain activityAnterior cingulate cortexResponse profilesDissociable rolesCortex volumeIndependent cohortControl studyCingulate cortexDorsomedial prefrontalCortexDistinct functional characteristicsGreater activationResponse profile analysisBrain activityDifferential rolesInsula
2013
Ventromedial prefrontal cortex and the regulation of physiological arousal
Zhang S, Hu S, Chao HH, Ide JS, Luo X, Farr OM, Li CS. Ventromedial prefrontal cortex and the regulation of physiological arousal. Social Cognitive And Affective Neuroscience 2013, 9: 900-908. PMID: 23620600, PMCID: PMC4090954, DOI: 10.1093/scan/nst064.Peer-Reviewed Original ResearchConceptsSkin conductance levelVentromedial prefrontal cortexPrefrontal cortexDorsal anterior cingulate cortexCausal roleAnterior cingulate cortexFunctional magnetic resonance imagingMagnetic resonance imagingCerebral blood oxygenationSkin conductance measurementsHealthy adultsPhysiological arousalUnderstanding of dysfunctionCingulate cortexResonance imagingBrain regionsBlood oxygenationAnxiety disordersAltered controlCortexGranger causality analysisSkin conductance responsesBehavioral tasksPhasic skin conductance responsesSkin conductanceBayesian Prediction and Evaluation in the Anterior Cingulate Cortex
Ide JS, Shenoy P, Yu AJ, Li CS. Bayesian Prediction and Evaluation in the Anterior Cingulate Cortex. Journal Of Neuroscience 2013, 33: 2039-2047. PMID: 23365241, PMCID: PMC3711643, DOI: 10.1523/jneurosci.2201-12.2013.Peer-Reviewed Original ResearchMeSH KeywordsAdolescentAdultBayes TheoremCognitionFemaleGyrus CinguliHumansMaleMiddle AgedModels, NeurologicalPsychomotor PerformanceReaction TimeConceptsDorsal anterior cingulate cortexStop-signal taskAnterior cingulate cortexBayesian ideal observer modelCingulate cortexCognitive control functionsFunctional magnetic resonance imagingNeural recording studiesIdeal observer modelPrediction errorMonitoring of conflictStimulus expectationError likelihoodError anticipationResponse errorsObserver modelRecording studiesProbabilistic expectationsResponse outcomesTaskCortexHemodynamic responseMagnetic resonance imagingConflictExpectations
2012
Saliency Processing and Obesity: A Preliminary Imaging Study of the Stop Signal Task
Hendrick OM, Luo X, Zhang S, Li C. Saliency Processing and Obesity: A Preliminary Imaging Study of the Stop Signal Task. Obesity 2012, 20: 1796-1802. PMID: 21720427, PMCID: PMC3653271, DOI: 10.1038/oby.2011.180.Peer-Reviewed Original ResearchConceptsStop-signal taskObese femalesBrain activationCognitive controlAltered cerebral functionSupplementary motor areaSignal taskRegional brain activationInferior parietal cortexSaliency processingCerebral functionLean femalesMotor areaFunctional magnetic resonance imagesParietal cortexSimilar behavioral performanceImaging studiesStop trialsPreliminary imaging studyObesityMagnetic resonance imagesTrialsGreater activationResonance imagesResponse inhibitionEffects of androgen deprivation on brain function in prostate cancer patients – a prospective observational cohort analysis
Chao HH, Uchio E, Zhang S, Hu S, Bednarski SR, Luo X, Rose M, Concato J, Li CS. Effects of androgen deprivation on brain function in prostate cancer patients – a prospective observational cohort analysis. BMC Cancer 2012, 12: 371. PMID: 22925152, PMCID: PMC3502584, DOI: 10.1186/1471-2407-12-371.Peer-Reviewed Original ResearchMeSH KeywordsAgedAndrogen AntagonistsAnilidesAntineoplastic Agents, HormonalBrainCognitionCohort StudiesGoserelinHumansMagnetic Resonance ImagingMaleMemoryMiddle AgedNeuropsychological TestsNitrilesProspective StudiesProstatic NeoplasmsPsychomotor PerformanceQuality of LifeSurveys and QuestionnairesTosyl CompoundsTreatment OutcomeConceptsAndrogen deprivation therapyFunctional magnetic resonance imagingProspective observational cohort analysisObservational cohort analysisN-back taskStop-signal taskCognitive controlProstate cancerBrain activationCohort analysisLow-risk prostate cancerNon-metastatic prostate cancerVeterans Affairs Medical CenterLong-term clinical implicationsBrain connectivityProstate cancer patientsPrefrontal cortical activationQuality of lifeFunctional brain connectivityMagnetic resonance imagingMedial prefrontal cortexParticular clinical concernDeprivation therapyADT useAndrogen deprivation
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