2024
Comparative analysis of two parametric imaging programs for NeuroEXPLORER studies
Zhang J, Gallezot J, Ye Q, Lu Y, Carson R. Comparative analysis of two parametric imaging programs for NeuroEXPLORER studies. 2024, 00: 1-1. DOI: 10.1109/nss/mic/rtsd57108.2024.10655797.Peer-Reviewed Original Research
2023
Reductions in synaptic marker SV2A in early-course Schizophrenia
Yoon J, Zhang Z, Mormino E, Davidzon G, Minzenberg M, Ballon J, Kalinowski A, Hardy K, Naganawa M, Carson R, Khalighi M, Park J, Levinson D, Chin F. Reductions in synaptic marker SV2A in early-course Schizophrenia. Journal Of Psychiatric Research 2023, 161: 213-217. PMID: 36934603, DOI: 10.1016/j.jpsychires.2023.02.026.Peer-Reviewed Original ResearchConceptsChronic patientsSynaptic pruningStage of illnessEarly course patientsEarly course schizophreniaSeverity of delusionsWidespread reductionMajor disease mechanismsSynaptic deficitsSynaptic markersSynaptic eliminationPET scansFormal onsetBrain regionsSignificant positive correlationPatientsSchizophrenia studiesSchizophreniaDisease mechanismsCognitive performanceIllnessEarly phaseSpecific bindingPresent studyPositive correlationIn Vivo Imaging and Kinetic Modeling of Novel Glycogen Synthase Kinase-3 Radiotracers [11C]OCM-44 and [18F]OCM-50 in Non-Human Primates
Smart K, Zheng M, Holden D, Felchner Z, Zhang L, Han Y, Ropchan J, Carson R, Vasdev N, Huang Y. In Vivo Imaging and Kinetic Modeling of Novel Glycogen Synthase Kinase-3 Radiotracers [11C]OCM-44 and [18F]OCM-50 in Non-Human Primates. Pharmaceuticals 2023, 16: 194. PMID: 37259346, PMCID: PMC9959234, DOI: 10.3390/ph16020194.Peer-Reviewed Original ResearchPositron emission tomographyNon-human primatesMetabolite-corrected arterial input functionML/Free fractionWarrants further evaluationPotential therapeutic targetGood brain uptakeAdult rhesus macaquesPlasma free fractionArterial blood samplingGray matter regionsTwo-tissue compartment modelBrain uptakeRegional time-activity curvesBlood samplingPsychiatric disordersPET scansTherapeutic targetTime-activity curvesGray matterBrain regionsEmission tomographyFurther evaluationArterial input function
2021
PET Imaging Estimates of Regional Acetylcholine Concentration Variation in Living Human Brain
Smart K, Naganawa M, Baldassarri SR, Nabulsi N, Ropchan J, Najafzadeh S, Gao H, Navarro A, Barth V, Esterlis I, Cosgrove KP, Huang Y, Carson RE, Hillmer AT. PET Imaging Estimates of Regional Acetylcholine Concentration Variation in Living Human Brain. Cerebral Cortex 2021, 31: 2787-2798. PMID: 33442731, PMCID: PMC8355478, DOI: 10.1093/cercor/bhaa387.Peer-Reviewed Original ResearchConceptsACh concentrationHuman volunteersHigh ACh concentrationsMuscarinic antagonist scopolamineHealthy human volunteersHuman brainCholinergic receptorsNicotine challengeAntagonist scopolaminePreclinical studiesStriatal regionsPET scansEndogenous neurotransmittersNeuropsychiatric diseasesNonhuman primatesWhole-brain imagesDrug occupancyNicotinic ligandsClinical populationsBrainAcetylcholineDistinct functional rolesStriatumVolunteersFunctional roleAssessment of test-retest reproducibility of [18F]SynVesT-1, a novel radiotracer for PET imaging of synaptic vesicle glycoprotein 2A
Li S, Naganawa M, Pracitto R, Najafzadeh S, Holden D, Henry S, Matuskey D, Emery PR, Cai Z, Ropchan J, Nabulsi N, Carson RE, Huang Y. Assessment of test-retest reproducibility of [18F]SynVesT-1, a novel radiotracer for PET imaging of synaptic vesicle glycoprotein 2A. European Journal Of Nuclear Medicine And Molecular Imaging 2021, 48: 1327-1338. PMID: 33416954, DOI: 10.1007/s00259-020-05149-3.Peer-Reviewed Original ResearchConceptsTest-retest reproducibilityTime-activity curvesBPND valuesNonhuman primatesAbsolute test-retest variabilitySynaptic vesicle glycoprotein 2AHigh brain uptakeNon-displaceable binding potentialExcellent test-retest reproducibilityGray matter areasHealthy human subjectsHigh uptakeTest-retest variabilityDynamic PET scanningTest-retest reliabilityBrain uptakeDistribution volume valuesCentrum semiovaleUrinary bladderOne-tissue compartment modelMaximum SUVPET scanningPET scansTracer uptakeBrain disorders
2020
Quantification of SV2A Binding in Rodent Brain Using [18F]SynVesT-1 and PET Imaging
Sadasivam P, Fang XT, Toyonaga T, Lee S, Xu Y, Zheng MQ, Spurrier J, Huang Y, Strittmatter SM, Carson RE, Cai Z. Quantification of SV2A Binding in Rodent Brain Using [18F]SynVesT-1 and PET Imaging. Molecular Imaging And Biology 2020, 23: 372-381. PMID: 33258040, PMCID: PMC8105262, DOI: 10.1007/s11307-020-01567-9.Peer-Reviewed Original ResearchConceptsBrain stemAlzheimer's diseaseMin postinjectionAnimal modelsAPP/PS1 miceReference regionStandardized uptake value ratioDynamic PET imaging dataUptake value ratioRodent brain tissueStatic PET scansDifferent imaging windowsPET imaging dataWild-type controlsReference tissue modelPS1 miceAD pathogenesisTherapeutic effectMouse modelRodent modelsLittermate controlsPET scansRodent brainPreclinical imaging studiesTherapeutic drug efficacyBinding of the synaptic vesicle radiotracer [11C]UCB-J is unchanged during functional brain activation using a visual stimulation task
Smart K, Liu H, Matuskey D, Chen MK, Torres K, Nabulsi N, Labaree D, Ropchan J, Hillmer AT, Huang Y, Carson RE. Binding of the synaptic vesicle radiotracer [11C]UCB-J is unchanged during functional brain activation using a visual stimulation task. Cerebrovascular And Brain Metabolism Reviews 2020, 41: 1067-1079. PMID: 32757741, PMCID: PMC8054713, DOI: 10.1177/0271678x20946198.Peer-Reviewed Original ResearchConceptsVisual cortexVisual stimulationPositron emission tomography radioligandBrain activationBlood flow increasesVolume of distributionPrimary visual cortexCheckerboard visual stimulationFunctional brain activationFunctional magnetic resonanceReference tissue modelFMRI BOLD responsesSynaptic densityVisual stimulation taskOne-tissue compartment modelHealthy volunteersNeuronal firingTomography radioligandPET scansTissue influxVivo measuresRobust increaseBOLD responseTracer influxStimulation taskHuman adult and adolescent biodistribution and dosimetry of the synaptic vesicle glycoprotein 2A radioligand 11C-UCB-J
Bini J, Holden D, Fontaine K, Mulnix T, Lu Y, Matuskey D, Ropchan J, Nabulsi N, Huang Y, Carson RE. Human adult and adolescent biodistribution and dosimetry of the synaptic vesicle glycoprotein 2A radioligand 11C-UCB-J. EJNMMI Research 2020, 10: 83. PMID: 32666239, PMCID: PMC7359974, DOI: 10.1186/s13550-020-00670-w.Peer-Reviewed Original ResearchDose-limiting organUrinary bladderTime-activity curvesSynaptic densityOLINDA/EXM 1.0 softwareWhole-body PET scansWhole-body scanHuman adultsDose limitTotal radiation doseGastrointestinal tractPET scansHealthy adultsInjected activityRegion of interestLarge intestineNeuropsychiatric disordersEffective doseRelevant disordersBladderLiverRadiation doseAdultsMBqHigh uptake
2019
Kappa-opioid receptors, dynorphin, and cocaine addiction: a positron emission tomography study
Martinez D, Slifstein M, Matuskey D, Nabulsi N, Zheng MQ, Lin SF, Ropchan J, Urban N, Grassetti A, Chang D, Salling M, Foltin R, Carson RE, Huang Y. Kappa-opioid receptors, dynorphin, and cocaine addiction: a positron emission tomography study. Neuropsychopharmacology 2019, 44: 1720-1727. PMID: 31026862, PMCID: PMC6785004, DOI: 10.1038/s41386-019-0398-4.Peer-Reviewed Original ResearchConceptsCocaine use disorderStress-induced relapsePositron emission tomographyCocaine bingeKappa-opioid receptor/dynorphin systemKOR selective agonistPositron emission tomography studyKappa-opioid receptorsCold pressor testCocaine self-administration sessionsEmission tomography studiesSelf-administration sessionsStress-induced cocaineEndogenous dynorphinDynorphin systemHealthy controlsPressor testSelective agonistPET scansAnimal studiesKOR bindingReceptor availabilitySignificant associationBrain regionsEmission tomographyEvaluation of 11C-LSN3172176 as a Novel PET Tracer for Imaging M1 Muscarinic Acetylcholine Receptors in Nonhuman Primates
Nabulsi NB, Holden D, Zheng MQ, Bois F, Lin SF, Najafzadeh S, Gao H, Ropchan J, Lara-Jaime T, Labaree D, Shirali A, Slieker L, Jesudason C, Barth V, Navarro A, Kant N, Carson RE, Huang Y. Evaluation of 11C-LSN3172176 as a Novel PET Tracer for Imaging M1 Muscarinic Acetylcholine Receptors in Nonhuman Primates. Journal Of Nuclear Medicine 2019, 60: 1147-1153. PMID: 30733324, DOI: 10.2967/jnumed.118.222034.Peer-Reviewed Original ResearchConceptsMuscarinic acetylcholine receptorsAcetylcholine receptorsNonhuman primatesM1 muscarinic acetylcholine receptorBrain time-activity curvesRich brain regionsArterial blood samplingNovel PET tracersSuitable reference regionRegional distribution volumesReference regionDevelopment of drugsBrain uptakeGlobus pallidusDistribution volume valuesNucleus accumbensBlood samplingPET scansTime-activity curvesCognitive impairmentAlzheimer's diseaseBrain regionsDistribution volumeSelective radiotracerRhesus monkeys
2016
Evaluation of pancreatic VMAT2 binding with active and inactive enantiomers of 18F-FP-DTBZ in baboons
Naganawa M, Lin SF, Lim K, Labaree D, Ropchan J, Harris P, Huang Y, Ichise M, Carson RE, Cline GW. Evaluation of pancreatic VMAT2 binding with active and inactive enantiomers of 18F-FP-DTBZ in baboons. Nuclear Medicine And Biology 2016, 43: 743-751. PMID: 27673755, PMCID: PMC5248981, DOI: 10.1016/j.nucmedbio.2016.08.018.Peer-Reviewed Original ResearchConceptsRenal cortexPositron emission tomographyInactive enantiomerRadiometabolite fractionΒ-cell massHuman β-cell massNon-displaceable bindingEx vivo studyF-FPLow inter-subject variabilityPET scansDTBZ bindingSpleen uptakeDistribution volumeEmission tomographySpleenPancreasDTBZCortexVivo studiesTissue samplesInter-subject variabilityHigh uptakePET signalRadiometabolites
2015
Imaging robust microglial activation after lipopolysaccharide administration in humans with PET
Sandiego CM, Gallezot JD, Pittman B, Nabulsi N, Lim K, Lin SF, Matuskey D, Lee JY, O’Connor K, Huang Y, Carson RE, Hannestad J, Cosgrove KP. Imaging robust microglial activation after lipopolysaccharide administration in humans with PET. Proceedings Of The National Academy Of Sciences Of The United States Of America 2015, 112: 12468-12473. PMID: 26385967, PMCID: PMC4603509, DOI: 10.1073/pnas.1511003112.Peer-Reviewed Original ResearchConceptsMicroglial activationBrain microglial activationLPS administrationInflammatory cytokinesLPS challengeRobust microglial activationSystemic LPS challengeActivation of microgliaInnate immune cellsVital sign changesHealthy male subjectsEscherichia coli lipopolysaccharidePositron emission tomography (PET) radiotracerNeuroinflammatory responseSystemic inflammationLipopolysaccharide administrationAntiinflammatory effectsBlood levelsImmune cellsNew medicationsSystemic administrationColi lipopolysaccharidePET scansPsychiatric diseasesMale subjectsTest–Retest Reproducibility of Binding Parameters in Humans with 11C-LY2795050, an Antagonist PET Radiotracer for the κ Opioid Receptor
Naganawa M, Zheng MQ, Henry S, Nabulsi N, Lin SF, Ropchan J, Labaree D, Najafzadeh S, Kapinos M, Tauscher J, Neumeister A, Carson RE, Huang Y. Test–Retest Reproducibility of Binding Parameters in Humans with 11C-LY2795050, an Antagonist PET Radiotracer for the κ Opioid Receptor. Journal Of Nuclear Medicine 2015, 56: 243-248. PMID: 25593119, PMCID: PMC4322754, DOI: 10.2967/jnumed.114.147975.Peer-Reviewed Original ResearchConceptsTest-retest variabilityOpioid receptorsOutcome measuresAbsolute test-retest variabilityMultilinear analysis 1Healthy human subjectsSuitable reference regionTest-retest reproducibilityIntraclass correlation coefficientAntagonist radiotracersHealthy subjectsLY2795050PET scansBrain regionsDistribution volumePET radioligandTest-retest performancePET studiesArterial input functionPET radiotracersHuman subjectsReference regionReceptorsVT valuesKOR
2014
In Vivo Ketamine-Induced Changes in [11C]ABP688 Binding to Metabotropic Glutamate Receptor Subtype 5
DeLorenzo C, DellaGioia N, Bloch M, Sanacora G, Nabulsi N, Abdallah C, Yang J, Wen R, Mann JJ, Krystal JH, Parsey RV, Carson RE, Esterlis I. In Vivo Ketamine-Induced Changes in [11C]ABP688 Binding to Metabotropic Glutamate Receptor Subtype 5. Biological Psychiatry 2014, 77: 266-275. PMID: 25156701, PMCID: PMC4277907, DOI: 10.1016/j.biopsych.2014.06.024.Peer-Reviewed Original ResearchConceptsSubtype 5Ketamine administrationPET scansMetabotropic glutamate receptor subtype 5Prefrontal cortexAspartate glutamate receptor antagonistIntravenous ketamine administrationKetamine-induced effectsPositron emission tomography (PET) ligandGlutamate receptor antagonistsVolume of distributionMedial prefrontal cortexNegative allosteric modulatorsKetamine initiationGlutamate releaseDorsal putamenKetamine responseSubanesthetic dosesOrbital prefrontal cortexReceptor antagonistAcute effectsBolus injectionDorsal caudateArterial bloodScan 1