Javid Dadashkarimi
About
Biography
I’m Javid Dadashkarimi, a Ph.D. candidate in the computer science department at Yale University. I’m grateful to work with Dustin Scheinost and Amin Karbasi in my Ph.D. I am working on a data harmonization problem where connectomes derived from functional magnetic resonance imaging (fMRI) are released in different resolutions through given brain atlases. Due to privacy issues, individuals may not agree to release their data in a raw form, which limits the usability of your brain-behavior association models. We recently launched CAROT, an optimization technique that enables us to estimate functional connectomes in the target atlas: http://carotproject.com
For more information, you can visit http://dadashkarimi.github.io or http://www.dadashkarimi.com.
Appointments
Departments & Organizations
- Multi-modal Imaging, Neuroinformatics, & Data Science (MINDS) Laboratory
Education & Training
- PhD
- Yale University, computer science (2023)
- MSc
- University of Tehran, Electrical and Software Engineering (2015)
- BSc
- University of Tehran, Electrical and Software Engineering (2012)
Research
Overview
Whether using large-scale projects---like the Human Connectome Project (HCP), the Adolescent Brain Cognitive Development (ABCD) study, Healthy Brain Network (HBN), and the UK Biobank---or pooling together several smaller studies, open-source, publicly available datasets allow for unprecedented sample sizes and promote generalization efforts. Overall, releasing preprocessing data can enhance participant privacy, democratize science, and lead to unique scientific discoveries. But releasing preprocessed data also limits the choices available to the end-user. For connectomics, this is especially true as connectomes created from different atlases (i.e., ways of dividing the brain into distinct regions) are not directly comparable. In addition, there exist several atlases with no gold standards, and more being developed yearly, making it unrealistic to have processed, open-source data available from all atlases. To address these limitations, as part of my PhD with Dustin Scheinost --MINDS lab -- and Amin Karbasi -- IID lab --, we propose Cross Atlas Remapping via Optimal Transport (CAROT) to find a mapping between two atlases, allowing data processed from one atlas to be directly transformed into a connectome based on another atlas without needing raw data.
Research at a Glance
Yale Co-Authors
Publications Timeline
Dustin Scheinost, PhD, BS
Abigail Greene
Max Rolison, MD
Qinghao Liang
Brendan Adkinson
Corey Horien
Publications
2024
Brain-phenotype predictions of language and executive function can survive across diverse real-world data: Dataset shifts in developmental populations
Adkinson B, Rosenblatt M, Dadashkarimi J, Tejavibulya L, Jiang R, Noble S, Scheinost D. Brain-phenotype predictions of language and executive function can survive across diverse real-world data: Dataset shifts in developmental populations. Developmental Cognitive Neuroscience 2024, 70: 101464. PMID: 39447452, PMCID: PMC11538622, DOI: 10.1016/j.dcn.2024.101464.Peer-Reviewed Original ResearchConceptsBrain-phenotype associationsConnectome-based predictive modelingBrain-behavior associationsPrediction of languagePhiladelphia Neurodevelopmental CohortHealthy Brain NetworkClinical symptom burdenFMRI taskHuman Connectome ProjectExecutive functionBehavioral measuresDevelopmental populationsNeurodevelopmental CohortBrain networksDevelopmental sampleConnectome ProjectResearch settingsGeneralizabilitySymptom burdenExternal validationFMRIClinical settingAssociationEthnic minority representationTaskPrediction of craving across studies: A commentary on conceptual and methodological considerations when using data-driven methods
Antons S, Yip S, Lacadie C, Dadashkarimi J, Scheinost D, Brand M, Potenza M. Prediction of craving across studies: A commentary on conceptual and methodological considerations when using data-driven methods. Journal Of Behavioral Addictions 2024, 13: 695-701. PMID: 39356557, PMCID: PMC11457034, DOI: 10.1556/2006.2024.00050.Peer-Reviewed Original ResearchMeSH Keywords and ConceptsConceptsAddictive behaviorsDisorders due to addictive behaviorsConnectome-based predictive modelingPrediction of cravingInvestigate neural mechanismsSubstance use disordersNeural mechanismsCravingSubstance useMethodological considerationsDisordersMethodological featuresBehaviorConceptualizationCommentaryStudyFindingsSubstancesEdge-centric network control on the human brain structural network
Sun H, Rosenblatt M, Dadashkarimi J, Rodriguez R, Tejavibulya L, Scheinost D. Edge-centric network control on the human brain structural network. Imaging Neuroscience 2024, 2: 1-15. DOI: 10.1162/imag_a_00191.Peer-Reviewed Original ResearchConceptsHuman brain structural networksNetwork control theoryEdge controlWhole-brain networksHuman Connectome ProjectDiffusion MRI dataWhite matter connectivityConnectome ProjectBrain dynamicsExecutive functionBrain structural networksBrain network connectivityBrain connectivityFunctional connectomeState transitionsTransitionEnergy patternsTheory modelBrain energy consumptionDynamic processStructural networkStateNetwork control mechanismsCognitive statesNetwork pairs
2022
Transforming Connectomes to “Any” Parcellation via Graph Matching
Liang Q, Dadashkarimi J, Dai W, Karbasi A, Chang J, Zhou H, Scheinost D. Transforming Connectomes to “Any” Parcellation via Graph Matching. Lecture Notes In Computer Science 2022, 13754: 118-127. DOI: 10.1007/978-3-031-21083-9_12.Peer-Reviewed Original ResearchCitationsMachine Learning and Prediction in Fetal, Infant, and Toddler Neuroimaging: A Review and Primer
Scheinost D, Pollatou A, Dufford A, Jiang R, Farruggia M, Rosenblatt M, Peterson H, Rodriguez R, Dadashkarimi J, Liang Q, Dai W, Foster M, Camp C, Tejavibulya L, Adkinson B, Sun H, Ye J, Cheng Q, Spann M, Rolison M, Noble S, Westwater M. Machine Learning and Prediction in Fetal, Infant, and Toddler Neuroimaging: A Review and Primer. Biological Psychiatry 2022, 93: 893-904. PMID: 36759257, PMCID: PMC10259670, DOI: 10.1016/j.biopsych.2022.10.014.Peer-Reviewed Reviews, Practice Guidelines, Standards, and Consensus StatementsCitationsAltmetricCombining Multiple Atlases to Estimate Data-Driven Mappings Between Functional Connectomes Using Optimal Transport
Dadashkarimi J, Karbasi A, Scheinost D. Combining Multiple Atlases to Estimate Data-Driven Mappings Between Functional Connectomes Using Optimal Transport. Lecture Notes In Computer Science 2022, 13431: 386-395. DOI: 10.1007/978-3-031-16431-6_37.Peer-Reviewed Original ResearchCitationsAltmetricPredicting the future of neuroimaging predictive models in mental health
Tejavibulya L, Rolison M, Gao S, Liang Q, Peterson H, Dadashkarimi J, Farruggia MC, Hahn CA, Noble S, Lichenstein SD, Pollatou A, Dufford AJ, Scheinost D. Predicting the future of neuroimaging predictive models in mental health. Molecular Psychiatry 2022, 27: 3129-3137. PMID: 35697759, PMCID: PMC9708554, DOI: 10.1038/s41380-022-01635-2.Peer-Reviewed Reviews, Practice Guidelines, Standards, and Consensus StatementsCitationsAltmetricPredicting Transdiagnostic Social Impairments in Childhood Using Connectome-Based Predictive Modeling
Dufford A, Kimble V, Tejavibulya L, Dadashkarimi J, Scheinost D. Predicting Transdiagnostic Social Impairments in Childhood Using Connectome-Based Predictive Modeling. Biological Psychiatry 2022, 91: s87. DOI: 10.1016/j.biopsych.2022.02.234.Peer-Reviewed Original ResearchCitations
2021
Data-Driven Mapping Between Functional Connectomes Using Optimal Transport
Dadashkarimi J, Karbasi A, Scheinost D. Data-Driven Mapping Between Functional Connectomes Using Optimal Transport. Lecture Notes In Computer Science 2021, 12903: 293-302. DOI: 10.1007/978-3-030-87199-4_28.Peer-Reviewed Original ResearchCitationsAltmetricFunctional connectivity during frustration: a preliminary study of predictive modeling of irritability in youth
Scheinost D, Dadashkarimi J, Finn ES, Wambach CG, MacGillivray C, Roule AL, Niendam TA, Pine DS, Brotman MA, Leibenluft E, Tseng WL. Functional connectivity during frustration: a preliminary study of predictive modeling of irritability in youth. Neuropsychopharmacology 2021, 46: 1300-1306. PMID: 33479511, PMCID: PMC8134471, DOI: 10.1038/s41386-020-00954-8.Peer-Reviewed Original ResearchCitationsAltmetricMeSH Keywords and ConceptsConceptsFunctional connectivityAttention-deficit/hyperactivity disorderCognitive flexibility taskDisruptive mood dysregulation disorderAffective Reactivity IndexLevels of irritabilityPreliminary fMRI studyCognitive flexibilityFlexibility taskIndividual differencesTransdiagnostic sampleFrontal networkFMRI studyHyperactivity disorderTask difficultyNeural mechanismsParent reportAnxiety symptomsSalience networkAnxiety disordersFrustrative nonrewardDimensional measuresPreliminary evidenceReactivity indexChild psychiatry
Academic Achievements & Community Involvement
honor Best Paper Award
International AwardBest Paper Award at Graphs in Biomedical Image Analysis (part of MICCAI 2022)Details09/01/2022Singaporehonor Brain Initiative Trainee Award
National AwardBrain Initiative Invesigator MeetingDetails01/01/2020United Stateshonor Best Poster Award
International AwardConnectomics in Neuroimaging ( part of MICCAI 2019)Details01/01/2019China