2022
Age, gender and body-mass-index relationships with in vivo CB1 receptor availability in healthy humans measured with [11C]OMAR PET
Radhakrishnan R, Worhunsky PD, Zheng MQ, Najafzadeh S, Gallezot JD, Planeta B, Henry S, Nabulsi N, Ranganathan M, Skosnik PD, Pittman B, Cyril D'Souza D, Carson RE, Huang Y, Potenza MN, Matuskey D. Age, gender and body-mass-index relationships with in vivo CB1 receptor availability in healthy humans measured with [11C]OMAR PET. NeuroImage 2022, 264: 119674. PMID: 36243269, DOI: 10.1016/j.neuroimage.2022.119674.Peer-Reviewed Original ResearchMeSH KeywordsAdolescentAdultBody Mass IndexBrainFemaleHumansMaleMiddle AgedPositron-Emission TomographyRadiopharmaceuticalsReceptor, Cannabinoid, CB1Young Adult
2021
Assessment 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
Kinetic Modeling and Test–Retest Reproducibility of 11C-EKAP and 11C-FEKAP, Novel Agonist Radiotracers for PET Imaging of the κ-Opioid Receptor in Humans
Naganawa M, Li S, Nabulsi N, Lin SF, Labaree D, Ropchan J, Gao H, Mei M, Henry S, Matuskey D, Carson RE, Huang Y. Kinetic Modeling and Test–Retest Reproducibility of 11C-EKAP and 11C-FEKAP, Novel Agonist Radiotracers for PET Imaging of the κ-Opioid Receptor in Humans. Journal Of Nuclear Medicine 2020, 61: 1636-1642. PMID: 32169917, PMCID: PMC9364890, DOI: 10.2967/jnumed.119.227694.Peer-Reviewed Original Research
2019
Imaging the Enzyme 11β-Hydroxysteroid Dehydrogenase Type 1 with PET: Evaluation of the Novel Radiotracer 11C-AS2471907 in Human Brain
Gallezot JD, Nabulsi N, Henry S, Pracitto R, Planeta B, Ropchan J, Lin SF, Labaree D, Kapinos M, Shirali A, Lara-Jaime T, Gao H, Matuskey D, Walzer M, Marek GJ, Bellaire S, Yuan N, Carson RE, Huang Y. Imaging the Enzyme 11β-Hydroxysteroid Dehydrogenase Type 1 with PET: Evaluation of the Novel Radiotracer 11C-AS2471907 in Human Brain. Journal Of Nuclear Medicine 2019, 60: 1140-1146. PMID: 30877174, DOI: 10.2967/jnumed.118.219766.Peer-Reviewed Original ResearchConceptsTest-retest variabilityNondisplaceable distribution volumeOccipital cortexEnzyme 11β-hydroxysteroid dehydrogenase type 1White matterDistribution volumeTreatment of depressionDehydrogenase type 1Large cortical regionsPosttraumatic stress disorderHuman brainAdditional scansIntraclass correlation coefficientAge-related cognitive functionBolus administrationFrontal cortexCaudate nucleusAdipose tissueTime-activity curvesNovel radiotracersGlucocorticoid levelsParietal cortexCortical regionsPattern of uptakeType 1
2015
Preclinical to Clinical Translation of CNS Transporter Occupancy of TD-9855, a Novel Norepinephrine and Serotonin Reuptake Inhibitor
Smith J, Patil D, Daniels O, Ding YS, Gallezot JD, Henry S, Kim K, Kshirsagar S, Martin W, Obedencio G, Stangeland E, Tsuruda P, Williams W, Carson R, Patil. Preclinical to Clinical Translation of CNS Transporter Occupancy of TD-9855, a Novel Norepinephrine and Serotonin Reuptake Inhibitor. The International Journal Of Neuropsychopharmacology 2015, 18: pyu027. PMID: 25522383, PMCID: PMC4368888, DOI: 10.1093/ijnp/pyu027.Peer-Reviewed Original ResearchMeSH KeywordsAdultAniline CompoundsAnimalsBlood Chemical AnalysisBrainHalf-LifeHumansMagnetic Resonance ImagingMaleModels, BiologicalMorpholinesNeurotransmitter Uptake InhibitorsNorepinephrine Plasma Membrane Transport ProteinsPhenyl EthersPiperidinesPositron-Emission TomographyRadiopharmaceuticalsRats, Sprague-DawleyReboxetineSerotonin Plasma Membrane Transport ProteinsSpinal CordSulfidesConceptsReuptake inhibitorsPositron emission tomographyNorepinephrine transporterSerotonin transporterSerotonin reuptake inhibitorsSingle oral doseUnique clinical profileMonoamine reuptake inhibitorsFuture clinical evaluationRat spinal cordNET occupancySERT occupancyClinical profileOral dosePlasma levelsTransporter profilesClinical evaluationSpinal cordTransporter occupancyCNS penetrationHealthy malesPharmacodynamic modelingNorepinephrineEmission tomographyPET studies
2007
Serotonin transporter binding after recovery from eating disorders
Bailer U, Frank G, Henry S, Price J, Meltzer C, Becker C, Ziolko S, Mathis C, Wagner A, Barbarich-Marsteller N, Putnam K, Kaye W. Serotonin transporter binding after recovery from eating disorders. Psychopharmacology 2007, 195: 315-324. PMID: 17690869, DOI: 10.1007/s00213-007-0896-7.Peer-Reviewed Original ResearchConceptsAnorexia nervosaBulimia nervosaControl womenMethodsPositron emission tomographyHealthy control womenRestricting-type anorexia nervosaRationaleSeveral linesDorsal rapheDistribution volume valuesBP valuesFunction persistEmission tomographyDisorder subjectsResultsAfter correctionMultiple comparisonsTracer kinetic modelNervosaSpecific bindingAffective regulation