2024
Researching COVID to enhance recovery (RECOVER) pediatric study protocol: Rationale, objectives and design
Gross R, Thaweethai T, Rosenzweig E, Chan J, Chibnik L, Cicek M, Elliott A, Flaherman V, Foulkes A, Witvliet M, Gallagher R, Gennaro M, Jernigan T, Karlson E, Katz S, Kinser P, Kleinman L, Lamendola-Essel M, Milner J, Mohandas S, Mudumbi P, Newburger J, Rhee K, Salisbury A, Snowden J, Stein C, Stockwell M, Tantisira K, Thomason M, Truong D, Warburton D, Wood J, Ahmed S, Akerlundh A, Alshawabkeh A, Anderson B, Aschner J, Atz A, Aupperle R, Baker F, Balaraman V, Banerjee D, Barch D, Baskin-Sommers A, Bhuiyan, Bind M, Bogie A, Bradford T, Buchbinder N, Bueler E, Bükülmez H, Casey B, Chang L, Chrisant M, Clark D, Clifton R, Clouser K, Cottrell L, Cowan K, D’Sa V, Dapretto M, Dasgupta S, Dehority W, Dionne A, Dummer K, Elias M, Esquenazi-Karonika S, Evans D, Faustino E, Fiks A, Forsha D, Foxe J, Friedman N, Fry G, Gaur S, Gee D, Gray K, Handler S, Harahsheh A, Hasbani K, Heath A, Hebson C, Heitzeg M, Hester C, Hill S, Hobart-Porter L, Hong T, Horowitz C, Hsia D, Huentelman M, Hummel K, Irby K, Jacobus J, Jacoby V, Jone P, Kaelber D, Kasmarcak T, Kluko M, Kosut J, Laird A, Landeo-Gutierrez J, Lang S, Larson C, Lim P, Lisdahl K, McCrindle B, McCulloh R, McHugh K, Mendelsohn A, Metz T, Miller J, Mitchell E, Morgan L, Müller-Oehring E, Nahin E, Neale M, Ness-Cochinwala M, Nolan S, Oliveira C, Osakwe O, Oster M, Payne R, Portman M, Raissy H, Randall I, Rao S, Reeder H, Rosas J, Russell M, Sabati A, Sanil Y, Sato A, Schechter M, Selvarangan R, Tejtel S, Shakti D, Sharma K, Squeglia L, Srivastava S, Stevenson M, Szmuszkovicz J, Talavera-Barber M, Teufel R, Thacker D, Trachtenberg F, Udosen M, Warner M, Watson S, Werzberger A, Weyer J, Wood M, Yin H, Zempsky W, Zimmerman E, Dreyer B, Consortium O. Researching COVID to enhance recovery (RECOVER) pediatric study protocol: Rationale, objectives and design. PLOS ONE 2024, 19: e0285635. PMID: 38713673, PMCID: PMC11075869, DOI: 10.1371/journal.pone.0285635.Peer-Reviewed Original ResearchConceptsYoung adultsClinical courseAdolescent Brain Cognitive DevelopmentCaregiver-child pairsLong-term outcomesObservational cohort studyOutcomes of COVID-19De novo cohortAdolescent Brain Cognitive Development StudySociodemographic correlatesCommunity partnersBaseline assessmentLongitudinal follow-upPotential therapeutic interventionsPediatric protocolsCohort studyCollaborative partnershipsProspective cohortFollow-upStudy protocolFederal partnersNIH Researching COVIDLong-term outcomes of COVID-19Enhanced recoveryData collection
2022
Associations among Household and Neighborhood Socioeconomic Disadvantages, Resting-state Frontoamygdala Connectivity, and Internalizing Symptoms in Youth
Ip KI, Sisk LM, Horien C, Conley MI, Rapuano KM, Rosenberg MD, Greene AS, Scheinost D, Constable RT, Casey BJ, Baskin-Sommers A, Gee DG. Associations among Household and Neighborhood Socioeconomic Disadvantages, Resting-state Frontoamygdala Connectivity, and Internalizing Symptoms in Youth. Journal Of Cognitive Neuroscience 2022, 34: 1810-1841. PMID: 35104356, DOI: 10.1162/jocn_a_01826.Peer-Reviewed Original ResearchConceptsSocioeconomic disadvantageNeighbourhood deprivationResting-state functional connectivityInternalizing symptomsSymptoms 1 yearHigher neighborhood deprivationNeighborhood socioeconomic disadvantageCognitive Development StudyAdolescent Brain Cognitive Development (ABCD) studyEarly interventionBilateral amygdalaElevated symptomsNegative connectivitySymptomsFunctional connectivityMental healthPositive connectivityBaselineHigher internalizing symptomsFrontoparietal networkOFC regionsFunctional couplingDeleterious effectsHigh disadvantageNeeds ratio
2021
Genetic variation in endocannabinoid signaling is associated with differential network‐level functional connectivity in youth
Sisk LM, Rapuano KM, Conley MI, Greene AS, Horien C, Rosenberg MD, Scheinost D, Constable RT, Glatt CE, Casey BJ, Gee DG. Genetic variation in endocannabinoid signaling is associated with differential network‐level functional connectivity in youth. Journal Of Neuroscience Research 2021, 100: 731-743. PMID: 34496065, PMCID: PMC8866205, DOI: 10.1002/jnr.24946.Peer-Reviewed Original ResearchConceptsEndocannabinoid signalingAllele carriersLower anxiety symptomsC385A polymorphismNetwork-level functional connectivityEnhanced endocannabinoid signalingLarge-scale resting-state brain networksAnxiety symptomsResting-state brain networksGenotype-associated differencesBrain networksFronto-amygdala connectivityFunctional connectionsCognitive Development StudyNetwork-level changesPotential protective factorsAdolescent Brain Cognitive Development (ABCD) studyEndocannabinoid systemNetwork-level differencesYounger ageFunctional connectivityProtective factorsNeural phenotypesAnxiety disordersNeural connectivityParental Buffering of Stress in the Time of COVID-19: Family-Level Factors May Moderate the Association Between Pandemic-Related Stress and Youth Symptomatology
Cohodes EM, McCauley S, Gee DG. Parental Buffering of Stress in the Time of COVID-19: Family-Level Factors May Moderate the Association Between Pandemic-Related Stress and Youth Symptomatology. Research On Child And Adolescent Psychopathology 2021, 49: 935-948. PMID: 33591457, PMCID: PMC7885749, DOI: 10.1007/s10802-020-00732-6.Peer-Reviewed Original ResearchConceptsPandemic-related stressChild symptomatologyAnxiety-related symptomatologyYouth symptomatologyFamily-level factorsCross-sectional study designCOVID-19-related stressYouth mental healthEffects of exposureParental bufferingStudy designSymptomatologyMental healthChildren's exposureParental reportsHigh levelsCOVID-19COVID-19 pandemicNegative emotionsGlobal pandemicDegree of stressExposureLight of evidenceHome routinesParenting stressDecomposing complex links between the childhood environment and brain structure in school-aged youth
Hong SJ, Sisk LM, Caballero C, Mekhanik A, Roy AK, Milham MP, Gee DG. Decomposing complex links between the childhood environment and brain structure in school-aged youth. Developmental Cognitive Neuroscience 2021, 48: 100919. PMID: 33556882, PMCID: PMC7868609, DOI: 10.1016/j.dcn.2021.100919.Peer-Reviewed Original ResearchConceptsSupportive caregivingAdolescent Brain Cognitive Development (ABCD) studyOverall mental health problemsCross-modal integrationHigh family conflictCognitive Development StudyBrain structuresDistinct environmental exposuresSchool-aged youthMental health problemsSchool-aged childrenGreater cortical thicknessExternalizing symptomsFamily conflictGreater myelinationBehavioral developmentBrain morphometricsStructural neurodevelopmentChildhood experiencesProtective factorsOptimize interventionsNeighborhood safetyDifferent facetsSchool environmentSpecific experiences
2020
Comparing neural correlates of conditioned inhibition between children with and without anxiety disorders – A preliminary study
Harrewijn A, Kitt ER, Abend R, Matsumoto C, Odriozola P, Winkler AM, Leibenluft E, Pine DS, Gee DG. Comparing neural correlates of conditioned inhibition between children with and without anxiety disorders – A preliminary study. Behavioural Brain Research 2020, 399: 112994. PMID: 33160010, PMCID: PMC7855938, DOI: 10.1016/j.bbr.2020.112994.Peer-Reviewed Original ResearchConceptsCognitive behavioral therapyPediatric anxiety disordersAnxiety disordersNeural correlatesHigher skin conductance responsesDorsal anterior cingulate cortexRight ventromedial prefrontal cortexVentromedial prefrontal cortexSkin conductance responsesReduced fear responsesAnterior cingulate cortexCurrent pilot studyThreat learningAnxious youthSafety cuesThreat cuesFear acquisitionVmPFC activityAversive soundSafety compoundCBT responseFear responsesNovel cuesConductance responsesPrefrontal cortex
2019
Meta-analysis of Structural Magnetic Resonance Imaging Studies in Pediatric Posttraumatic Stress Disorder and Comparison With Related Conditions
Kribakaran S, Danese A, Bromis K, Kempton MJ, Gee DG. Meta-analysis of Structural Magnetic Resonance Imaging Studies in Pediatric Posttraumatic Stress Disorder and Comparison With Related Conditions. Biological Psychiatry Cognitive Neuroscience And Neuroimaging 2019, 5: 23-34. PMID: 31690501, PMCID: PMC6954289, DOI: 10.1016/j.bpsc.2019.08.006.Peer-Reviewed Original ResearchConceptsPediatric PTSDPediatric posttraumatic stress disorderPTSD groupTrauma exposurePosttraumatic stress disorderHippocampal volumeVolumetric brain differencesStructural magnetic resonance imaging (MRI) studiesStructural brain volumesMagnetic resonance imaging studyResonance imaging studySmaller total gray matterPediatric anxietyPosttraumatic stressAnxiety groupStress disorderNeurobiological differencesBrain differencesSmaller hippocampal volumesPediatric psychiatric conditionsTemporal lobeEffect of agePediatric depressionPsychiatric conditionsComparison groupNovel insights from actigraphy: Anxiety is associated with sleep quantity but not quality during childhood
Cohodes EM, Abusch A, Odriozola P, Gee DG. Novel insights from actigraphy: Anxiety is associated with sleep quantity but not quality during childhood. Clinical Child Psychology And Psychiatry 2019, 25: 189-199. PMID: 30696260, PMCID: PMC6667310, DOI: 10.1177/1359104518822685.Peer-Reviewed Original ResearchConceptsSleep quantitySleep-related interventionsSleep functionPredictors of anxietyPediatric clinical samplesAge-related changesHigh anxietyAnxietyPediatric samplesPrevious researchSleep dysfunctionClinical samplesChildhoodFunction changesAdolescenceAdolescentsActigraphyPresent studyYouthQuantitative measuresCorrelatesAssociationSleepChildrenIntervention
2016
Stimulus-Elicited Connectivity Influences Resting-State Connectivity Years Later in Human Development: A Prospective Study
Gabard-Durnam LJ, Gee DG, Goff B, Flannery J, Telzer E, Humphreys KL, Lumian DS, Fareri DS, Caldera C, Tottenham N. Stimulus-Elicited Connectivity Influences Resting-State Connectivity Years Later in Human Development: A Prospective Study. Journal Of Neuroscience 2016, 36: 4771-4784. PMID: 27122035, PMCID: PMC4846673, DOI: 10.1523/jneurosci.0598-16.2016.Peer-Reviewed Original ResearchConceptsMedial prefrontal cortexFunctional connectivityAmygdala-medial prefrontal cortex circuitInferior frontal gyrusResting-state functional networksFunctional architectureResting-state connectivityAmygdala functional connectivityFunctional network architecturePrefrontal cortex circuitAmygdala-mPFC circuitResting-state networksFunctional connectionsEmotional stimuliCourse of developmentFrontal gyrusAge-related changesPrefrontal cortexMotivate future investigationsCortex circuitPredictive associationsSensitive periodFunctional networksDevelopmental periodBrain functionIndividual differences in frontolimbic circuitry and anxiety emerge with adolescent changes in endocannabinoid signaling across species
Gee DG, Fetcho RN, Jing D, Li A, Glatt CE, Drysdale AT, Cohen AO, Dellarco DV, Yang RR, Dale AM, Jernigan TL, Lee FS, Casey BJ, Jernigan T, San Diego U, McCabe C, San Diego U, Chang L, Hawaii U, Akshoomoff N, San Diego U, Newman E, San Diego U, Dale A, San Diego U, Core M, Ernst T, Hawaii U, Dale A, San Diego U, Van Zijl P, Kuperman J, San Diego U, Murray S, Bloss C, Schork N, Appelbaum M, San Diego U, Gamst A, San Diego U, Thompson W, San Diego U, Bartsch H, San Diego U, Jernigan T, Dale A, Akshoomoff N, Chang L, Ernst T, Keating B, Amaral D, Sowell E, Kaufmann W, Van Zijl P, Mostofsky S, Casey B, Ruberry E, Powers A, Rosen B, Kenet T, Frazier J, Kennedy D, University Y, Gruen J. Individual differences in frontolimbic circuitry and anxiety emerge with adolescent changes in endocannabinoid signaling across species. Proceedings Of The National Academy Of Sciences Of The United States Of America 2016, 113: 4500-4505. PMID: 27001846, PMCID: PMC4843434, DOI: 10.1073/pnas.1600013113.Peer-Reviewed Original ResearchConceptsFatty acid amide hydrolaseAnxiety-related behaviorGene expressionFrontolimbic circuitryEndocannabinoid signalingAnxiety disordersNeural circuit maturationPostnatal day 45Phenotypic differencesFrontoamygdala circuitryAnandamide levelsGenetic effectsAEA levelsBiological stateIndividual differencesCircuit maturationGenetic alterationsFAAH genotypeMouse modelDevelopmental neurobiologyLevels of analysisAdolescent changesDevelopmental windowAmide hydrolaseBrain circuitry
2015
Reliability of an fMRI paradigm for emotional processing in a multisite longitudinal study
Gee DG, McEwen SC, Forsyth JK, Haut KM, Bearden CE, Addington J, Goodyear B, Cadenhead KS, Mirzakhanian H, Cornblatt BA, Olvet D, Mathalon DH, McGlashan TH, Perkins DO, Belger A, Seidman LJ, Thermenos H, Tsuang MT, van Erp TG, Walker EF, Hamann S, Woods SW, Constable T, Cannon TD. Reliability of an fMRI paradigm for emotional processing in a multisite longitudinal study. Human Brain Mapping 2015, 36: 2558-2579. PMID: 25821147, PMCID: PMC4478164, DOI: 10.1002/hbm.22791.Peer-Reviewed Original ResearchConceptsFunctional magnetic resonance imaging (fMRI) taskBlood oxygen level-dependent (BOLD) signalFusiform gyrusRobust activationEmotion processing areasAnterior cingulate cortexLevel-dependent signalBrain-related changesMean activationExcellent reliabilityPatient groupRare conditionInferior frontal gyrusHealthy volunteersGeneral populationEmotion processing taskHealthy individualsCingulate cortexMultisite longitudinal studyConsecutive daysFrontal gyrusAmygdalaBrain activationMultisite studyMixed effects models
2014
Maternal Buffering of Human Amygdala-Prefrontal Circuitry During Childhood but Not During Adolescence
Gee DG, Gabard-Durnam L, Telzer EH, Humphreys KL, Goff B, Shapiro M, Flannery J, Lumian DS, Fareri DS, Caldera C, Tottenham N. Maternal Buffering of Human Amygdala-Prefrontal Circuitry During Childhood but Not During Adolescence. Psychological Science 2014, 25: 2067-2078. PMID: 25280904, PMCID: PMC4377225, DOI: 10.1177/0956797614550878.Peer-Reviewed Original ResearchConceptsAmygdala-prefrontal circuitryMaternal bufferingMaternal stimuliAmygdala-prefrontal connectivityMature connectivityAmygdala reactivityPotential mechanismsMaternal modulationChildhoodMother-child relationshipNeural mechanismsSensitive periodChildrenCaregiversMaternal influenceRegulatory influenceAdolescenceStimuliBehavioral regulationNeurocircuitryCircuitry
2013
A Developmental Shift from Positive to Negative Connectivity in Human Amygdala–Prefrontal Circuitry
Gee DG, Humphreys KL, Flannery J, Goff B, Telzer EH, Shapiro M, Hare TA, Bookheimer SY, Tottenham N. A Developmental Shift from Positive to Negative Connectivity in Human Amygdala–Prefrontal Circuitry. Journal Of Neuroscience 2013, 33: 4584-4593. PMID: 23467374, PMCID: PMC3670947, DOI: 10.1523/jneurosci.3446-12.2013.Peer-Reviewed Original ResearchConceptsAmygdala-prefrontal circuitryFunctional connectivityNegative connectivityAmygdala reactivityRecent human imagingParticipants 10 yearsTask-based functional magnetic resonance imagingNegative functional connectivityFunctional magnetic resonance imagingMagnetic resonance imagingAmygdala-prefrontal connectivityAmygdala-cortical connectivityAnxiety-related disordersFrontoamygdala circuitryAnimal studiesReciprocal connectionsResonance imagingTracing studyPositive connectivityAdolescent periodEarly childhoodNeurobiological basisEmotional behaviorPresent studyDevelopmental changes
2011
Altered age-related trajectories of amygdala-prefrontal circuitry in adolescents at clinical high risk for psychosis: A preliminary study
Gee DG, Karlsgodt KH, van Erp TG, Bearden CE, Lieberman MD, Belger A, Perkins DO, Olvet DM, Cornblatt BA, Constable T, Woods SW, Addington J, Cadenhead KS, McGlashan TH, Seidman LJ, Tsuang MT, Walker EF, Cannon TD, Consortium O. Altered age-related trajectories of amygdala-prefrontal circuitry in adolescents at clinical high risk for psychosis: A preliminary study. Schizophrenia Research 2011, 134: 1-9. PMID: 22056201, PMCID: PMC3245800, DOI: 10.1016/j.schres.2011.10.005.Peer-Reviewed Original ResearchConceptsClinical high riskFunctional connectivityPrefrontal cortexCHR adolescentsHigh riskAmygdala-prefrontal functional connectivityAmygdala-prefrontal circuitryCross-sectional analysisPsychophysiological interaction analysisVLPFC activationIllness onsetAge-related trajectoriesRisk syndromeVentrolateral prefrontal cortexInteraction of ageOvert psychosisAge-related variationsPsychosisAmygdala reactivityBrain connectivityFunctional activationAmygdalaCortexLater deficitsFMRI task
2010
Low frequency fluctuations reveal integrated and segregated processing among the cerebral hemispheres
Gee DG, Biswal BB, Kelly C, Stark DE, Margulies DS, Shehzad Z, Uddin LQ, Klein DF, Banich MT, Castellanos FX, Milham MP. Low frequency fluctuations reveal integrated and segregated processing among the cerebral hemispheres. NeuroImage 2010, 54: 517-527. PMID: 20570737, PMCID: PMC3134281, DOI: 10.1016/j.neuroimage.2010.05.073.Peer-Reviewed Original ResearchConceptsResting-state functional connectivityFunctional magnetic resonance imagingFunctional connectivityResting-state functional magnetic resonance imagingInterhemispheric interactionsResting-state fMRI scansSpontaneous low-frequency fluctuationsLow-frequency fluctuationsInterhemispheric processingMagnetic resonance imagingRSFC strengthCerebral hemispheresHomotopic regionsIntrahemispheric processingResonance imagingNegative connectivityEntire cerebrumConnectivity strengthFMRI scansHealthy participantsBOLD signalSegregated processingPresent studyOpposite hemisphereHemisphere