Adjunct Faculty
Adjunct faculty typically have an academic or research appointment at another institution and contribute or collaborate with one or more School of Medicine faculty members or programs.
Adjunct rank detailsVince Calhoun, PhD
About
Research
Publications
2026
Grassmannian Kernel Framework for Site Effect Correction in Multi-Site fMRI Studies
Wang W, Gois L, Yang H, Kumbasar E, Gabrielson B, Calhoun V, Roy A, Adali T. Grassmannian Kernel Framework for Site Effect Correction in Multi-Site fMRI Studies. 2026, 00: 7732-7736. DOI: 10.1109/icassp55912.2026.11460858.Peer-Reviewed Original ResearchDomain-Informed Independent Vector Analysis for Multisubject Fmri Analysis
Gois L, Yang H, Vu T, Kumbasar E, Fantinato D, Neves A, Calhoun V, Adali T. Domain-Informed Independent Vector Analysis for Multisubject Fmri Analysis. 2026, 00: 8122-8126. DOI: 10.1109/icassp55912.2026.11461746.Peer-Reviewed Original ResearchTensor Coreset Decomposition for Robust Dynamic Functional Connectivity Analysis
Jia C, Yang H, Gabrielson B, Calhoun V, Adali T. Tensor Coreset Decomposition for Robust Dynamic Functional Connectivity Analysis. 2026, 00: 6571-6575. DOI: 10.1109/icassp55912.2026.11463717.Peer-Reviewed Original ResearchWarp Quantification Analysis: A Framework for Path-Based Signal Alignment Metrics
Wiafe S, Calhoun V. Warp Quantification Analysis: A Framework for Path-Based Signal Alignment Metrics. 2026, 00: 126-130. DOI: 10.1109/icassp55912.2026.11460580.Peer-Reviewed Original ResearchComplex-Valued Phase Synchrony Reveals Directional Coupling in fMRI and Tracks Medication Effects
Wiafe S, Soleimani N, Seraji M, Baker B, Miller R, Faghiri A, Calhoun V. Complex-Valued Phase Synchrony Reveals Directional Coupling in fMRI and Tracks Medication Effects. 2026, 00: 6396-6400. DOI: 10.1109/icassp55912.2026.11461898.Peer-Reviewed Original ResearchParallel multilink group joint ICA (pmg-jICA): Fusion of 3D structural and 4D functional data across multiple resting fMRI networks
Khalilullah K, Phadikar S, Agcaoglu O, Sui J, Duda M, Adali T, Calhoun V. Parallel multilink group joint ICA (pmg-jICA): Fusion of 3D structural and 4D functional data across multiple resting fMRI networks. Network Neuroscience 2026, 1-22. DOI: 10.1162/netn.a.575.Peer-Reviewed Original ResearchStructural magnetic resonance imagingFunctional network connectivityFunctional MRICognitive control systemAlzheimer's diseaseJoint ICADynamic neural activityStructure-function couplingGroup-level statistical analysesCognitive controlGray matter imagesPsychiatric disordersHigh-resolution anatomical detailsBrain networksNeuroimaging dataFMRI networksVisual regionsNeural activityMagnetic resonance imagingBrainSubject-specific variabilityMultimodal fusion techniquesResonance imagingNetwork connectivityData-driven framework573. Cognitive Impairment and Emotional Dysregulation After Trauma Map to Precuneus–Visual Circuit Disruption
Sendi M, Stevens J, McLean S, Calhoun V, Ressler K, Dillon D. 573. Cognitive Impairment and Emotional Dysregulation After Trauma Map to Precuneus–Visual Circuit Disruption. Biological Psychiatry 2026, 99: s345. DOI: 10.1016/j.biopsych.2026.03.807.Peer-Reviewed Original ResearchNeuroMark-DyFICA: NeuroMark dynamic frequency-informed ICA with high-frequency spatial filtering for windowed fMRI analysis
Behzadfar N, Iraji A, Soleimani N, Adali T, Calhoun V. NeuroMark-DyFICA: NeuroMark dynamic frequency-informed ICA with high-frequency spatial filtering for windowed fMRI analysis. Network Neuroscience 2026, 1-27. DOI: 10.1162/netn.a.551.Peer-Reviewed Original ResearchBrain networksIndependent component analysisGroup-level independent component analysisResting-state fMRIFunctional brain networksSchizophrenia patientsPsychiatric disordersDynamic independent component analysisFMRI analysisFMRI dataBrain functionSpatial filteringHigh-pass spatial filterHigh-frequency dynamicsNetwork topographySchizophreniaFMRIDynamic stateHealthy controlsNeuromarkersBrainTime-varyingSpatial-frequencySpatial shiftBrain functional network connectivity interpolation characterizes the neuropsychiatric continuum and heterogeneity
Li X, Geenjaar E, Fu Z, Pearlson G, Calhoun V. Brain functional network connectivity interpolation characterizes the neuropsychiatric continuum and heterogeneity. Imaging Neuroscience 2026, 4: imag.a.1220. PMID: 42065117, PMCID: PMC13125074, DOI: 10.1162/imag.a.1220.Peer-Reviewed Original ResearchAutism spectrum disorderFunctional network connectivityVariational autoencoderStatic FNCDynamic FNCSensory domainsStatic functional network connectivityVariational autoencoder latent spaceDynamic functional network connectivityIndividual differencesSpectrum disorderGroup differencesSchizophreniaVisual networkCerebellar domainsNeurodevelopmental disordersLatent spaceHidden relationshipsSubcortical domainNetwork connectivityImputation of missing valuesFramework offerOriginal dataDisordersTraditional methodsInvestigating white matter functional network connectivity across the Alzheimer’s disease spectrum using resting-state fMRI
Itkyal V, LaGrow T, Jensen K, Iraji A, Calhoun V. Investigating white matter functional network connectivity across the Alzheimer’s disease spectrum using resting-state fMRI. Frontiers In Neuroimaging 2026, 5: 1796824. PMID: 42112106, PMCID: PMC13149195, DOI: 10.3389/fnimg.2026.1796824.Peer-Reviewed Original ResearchFunctional network connectivityFunctional connectivityWM-GMResting-state fMRI dataAD continuumResting-state fMRIIntrinsic connectivity networksWhite matterAlzheimer's diseaseFunctional disruptionAlzheimer's disease spectrumWM circuitsOccipitotemporal networkFMRI researchFalse discovery rate correctionGroup differencesFMRI dataGM networksAlzheimer's Disease Neuroimaging InitiativeBOLD fluctuationsNetwork connectivityEffect sizeOvert dementiaHedges’ g.FMRI