2024
Double Functionally Independent Primitives Provide Disorder Specific Fingerprints of Mental Illnesses
Soleimani N, Pearlson G, Iraji A, Calhoun V. Double Functionally Independent Primitives Provide Disorder Specific Fingerprints of Mental Illnesses. 2024, 00: 1-4. DOI: 10.1109/isbi56570.2024.10635116.Peer-Reviewed Original ResearchAutism spectrum disorderMental illnessBipolar disorderMental disordersManifestations of mental illnessAssociated with mental illnessFunctional network connectivityFunctional network connectivity patternsNetwork connectivity patternsDisorder-specificDepressive disorderNeural underpinningsSpectrum disorderPsychological disordersNeuroimaging techniquesConnectivity patternsDisordersSchizophreniaHealthy controlsIllnessBrainFunctional changesMDDAutismNetwork connectivity
2023
Evaluation of boundaries between mood and psychosis disorder using dynamic functional network connectivity (dFNC) via deep learning classification
Rokham H, Falakshahi H, Fu Z, Pearlson G, Calhoun V. Evaluation of boundaries between mood and psychosis disorder using dynamic functional network connectivity (dFNC) via deep learning classification. Human Brain Mapping 2023, 44: 3180-3195. PMID: 36919656, PMCID: PMC10171526, DOI: 10.1002/hbm.26273.Peer-Reviewed Original ResearchConceptsDynamic functional network connectivityFunctional network connectivityDSM-IVFMRI-based measuresResting-state fMRI dataBiomarker-based approachPsychosis disordersClinical courseBipolar-Schizophrenia NetworkClinical evaluationSymptomatic measuresHealthy controlsPsychotic illnessHealthy individualsNeurological observationsMental disordersReliability of diagnosisStatistical group differencesMental healthNeuroimaging techniquesStatistical ManualDiagnostic problemsGroup differencesIntermediate phenotypesDisorders
2010
Lateral Differences in the Default Mode Network in Schizophrenia
Swanson N, Eichele T, Pearlson G, Calhoun V. Lateral Differences in the Default Mode Network in Schizophrenia. 2010, 605-620. DOI: 10.7551/mitpress/8137.003.0030.Peer-Reviewed Original ResearchBrain asymmetryFunctional neuroimaging techniquesDefault mode networkCognitive processingSpeech perceptionCognitive asymmetryAuditory perceptionAuditory lateralityRight hemisphereMode networkHemispheric asymmetryNeuroimaging techniquesPerceptionSex differencesClinical levelPsychiatric disordersLateral differencesTheoretical approachHugdahlCorballisHelligeResearchMemorySuch topicsBasic aspects
1996
Striatal dopamine D2 receptor quantification and superior temporal gyrus: Volume determination in 14 chronic schizophrenic subjects
Tune L, Barta P, Wong D, Powers R, Pearlson G, Tien A, Wagner H. Striatal dopamine D2 receptor quantification and superior temporal gyrus: Volume determination in 14 chronic schizophrenic subjects. Psychiatry Research 1996, 67: 155-158. PMID: 8876015, DOI: 10.1016/0925-4927(96)02728-x.Peer-Reviewed Original ResearchConceptsSuperior temporal gyral volumeSuperior temporal gyrusPositron emission tomographyGyral volumeTemporal gyrusNormal groupSchizophrenic groupStriatal D2 receptor densityChronic schizophrenic subjectsRight superior temporal gyrusD2 receptor densityDopamine D2 receptorsStructural neuroimaging techniquesControl subjectsD2 receptorsReceptor densityNormal subjectsPET scansResonance imagingEmission tomographySchizophrenic subjectsBmax valuesNeuroimaging techniquesGyrusReceptor quantification