2024
Support vector machine prediction of individual Autism Diagnostic Observation Schedule (ADOS) scores based on neural responses during live eye-to-eye contact
Zhang X, Noah J, Singh R, McPartland J, Hirsch J. Support vector machine prediction of individual Autism Diagnostic Observation Schedule (ADOS) scores based on neural responses during live eye-to-eye contact. Scientific Reports 2024, 14: 3232. PMID: 38332184, PMCID: PMC10853508, DOI: 10.1038/s41598-024-53942-z.Peer-Reviewed Original ResearchConceptsAutism Diagnostic Observation ScheduleAutism spectrum disorderAutism Diagnostic Observation Schedule scoresEye-to-eye contactSocial difficultiesNeural processesNeural responsesObservation ScheduleSymptoms of autism spectrum disorderBehavioural symptoms of autism spectrum disorderNeural activity patternsLive interaction paradigmTD groupSupport vector machineNeural mechanismsSymptom severityADOS scoresBehavioral symptomsSpectrum disorderASD diagnosisNeural dataActivity patternsAutismClassification methodMultivariate classification methods
2020
Neural processes for live pro-social dialogue between dyads with socioeconomic disparity
Descorbeth O, Zhang X, Noah JA, Hirsch J. Neural processes for live pro-social dialogue between dyads with socioeconomic disparity. Social Cognitive And Affective Neuroscience 2020, 15: 875-887. PMID: 32879986, PMCID: PMC7543936, DOI: 10.1093/scan/nsaa120.Peer-Reviewed Original ResearchConceptsDorsolateral pre-frontal cortexFrontal lobe hypothesisFrontal lobe processesFrontal lobe networksPre-frontal cortexGroups of dyadsNeural processesNovel neuroimaging techniquesFrontopolar areaNeural activationPars triangularisSpeech dialogueNeuroimaging techniquesDialectic discourseDyadsNeural functionTheoretical frameworkSocioeconomic backgroundHemodynamic signalsSocioeconomic statusAnxietyStereotypingNeuroimagingPrejudiceTriangularisReal-Time Eye-to-Eye Contact Is Associated With Cross-Brain Neural Coupling in Angular Gyrus
Noah JA, Zhang X, Dravida S, Ono Y, Naples A, McPartland JC, Hirsch J. Real-Time Eye-to-Eye Contact Is Associated With Cross-Brain Neural Coupling in Angular Gyrus. Frontiers In Human Neuroscience 2020, 14: 19. PMID: 32116606, PMCID: PMC7016046, DOI: 10.3389/fnhum.2020.00019.Peer-Reviewed Original ResearchTemporal-parietal junctionAngular gyrusEye contactRight temporal-parietal junctionNeural couplingInteractive behaviorDirect eye contactDynamic videosNeural processesNeural mechanismsEye gazeInterpersonal interactionsHuman participantsReal-time eyeSocial behaviorNeural signalsTime eyesFace videosGyrusTheoretical frameworkCoupling hypothesisGeneral theoretical frameworkParticipantsEye conditionsProcessing system
2017
Frontal temporal and parietal systems synchronize within and across brains during live eye-to-eye contact
Hirsch J, Zhang X, Noah JA, Ono Y. Frontal temporal and parietal systems synchronize within and across brains during live eye-to-eye contact. NeuroImage 2017, 157: 314-330. PMID: 28619652, PMCID: PMC5863547, DOI: 10.1016/j.neuroimage.2017.06.018.Peer-Reviewed Original ResearchConceptsEye contactInterpersonal interactionsSupplementary motor cortexSpecificity hypothesisFrontal clusterSubcentral areaLeft superior temporal gyrusInteractive brain hypothesisTwo-person neuroscienceLimited head motionSuperior temporal gyrusTwo-person interactionsConventional neuroimaging methodsNeural correlatesSocial cuesNeural processesBrain hypothesisNeural mechanismsNeural responsesParietal systemSupramarginal gyrusMutual gazeSynchrony hypothesisLanguage functionTemporal gyrusNeural correlates of conflict between gestures and words: A domain-specific role for a temporal-parietal complex
Noah JA, Dravida S, Zhang X, Yahil S, Hirsch J. Neural correlates of conflict between gestures and words: A domain-specific role for a temporal-parietal complex. PLOS ONE 2017, 12: e0173525. PMID: 28278240, PMCID: PMC5344449, DOI: 10.1371/journal.pone.0173525.Peer-Reviewed Original ResearchConceptsTemporal-parietal junctionDorsolateral prefrontal cortexRight temporal-parietal junctionRight dorsolateral prefrontal cortexLeft dorsolateral prefrontal cortexSuperior temporal gyrusColor taskConflict taskIncongruent trialsSocial cuesGesture tasksSupramarginal gyrusBehavioral interference effectDomain-general mechanismsUnderlying neural processesReceptive language areasHuman social behaviorAuditory association cortexDomain-specific rolesFrontal eye fieldConflict processing mechanismCongruent trialsGestural cuesNeural correlatesNeural processes
2013
Shared space, separate processes: Neural activation patterns for auditory description and visual object naming in healthy adults
Hamberger MJ, Habeck CG, Pantazatos SP, Williams AC, Hirsch J. Shared space, separate processes: Neural activation patterns for auditory description and visual object naming in healthy adults. Human Brain Mapping 2013, 35: 2507-2520. PMID: 23918095, PMCID: PMC4091775, DOI: 10.1002/hbm.22345.Peer-Reviewed Original ResearchConceptsVisual namingVisual objectsAuditory descriptionActivation patternsPosterior temporal activationNeural activation patternsCommon neural substrateTask-related differencesTask-specific regionsPosterior temporal regionsAnterior temporal cortexTypes of tasksCortical stimulation studiesTemporo-parietal regionsTemporal lobe epilepsy patientsHealthy adultsCognitive scientistsStandard univariate analysisNeural processesNeural substratesFunctional neuroimagingCerebral organizationTask specificityTemporal cortexLeft posterior
2011
Brain Mapping for Neurosurgery and Cognitive Neuroscience
Hirsch J. Brain Mapping for Neurosurgery and Cognitive Neuroscience. 2011, 513-543. DOI: 10.1007/978-1-4419-0345-7_27.Peer-Reviewed Original Research
2010
Brain Mapping for Neurosurgery and Cognitive Neuroscience
Hirsch J. Brain Mapping for Neurosurgery and Cognitive Neuroscience. 2010, 119-159. DOI: 10.1007/978-1-4419-1329-6_6.Peer-Reviewed Original Research
2006
Brain Mapping for Neurosurgery and Cognitive Neuroscience
Hirsch J. Brain Mapping for Neurosurgery and Cognitive Neuroscience. 2006, 139-182. DOI: 10.1007/0-387-34665-1_7.Peer-Reviewed Original Research
2005
Functional neuroimaging during altered states of consciousness: how and what do we measure?
Hirsch J. Functional neuroimaging during altered states of consciousness: how and what do we measure? Progress In Brain Research 2005, 150: 25-590. PMID: 16186013, DOI: 10.1016/s0079-6123(05)50003-7.Peer-Reviewed Original ResearchConceptsCognitive processesFunctional neuroimagingDisorders of consciousnessPassive stimulationLanguage-related tasksFunctional magnetic resonanceSpecific traumatic eventStudy of consciousnessFunctional brain activityAltered statesAffective systemsCognitive systemNeural processesTraumatic eventsNeurocognitive healthBrain activitySensory-motor functionParadigm selectionMotor systemVolitional tasksCortical functionExperimental manipulationTaskBrain injuryTemporal sequence