2017
Evaluation of the Lysophosphatidic Acid Receptor Type 1 Radioligand 11C-BMT-136088 for Lung Imaging in Rhesus Monkeys
Gallezot JD, Nabulsi NB, Holden D, Lin SF, Labaree D, Ropchan J, Najafzadeh S, Donnelly DJ, Cao K, Bonacorsi S, Seiders J, Roppe J, Hayes W, Huang Y, Du S, Carson RE. Evaluation of the Lysophosphatidic Acid Receptor Type 1 Radioligand 11C-BMT-136088 for Lung Imaging in Rhesus Monkeys. Journal Of Nuclear Medicine 2017, 59: 327-333. PMID: 28864634, DOI: 10.2967/jnumed.117.195073.Peer-Reviewed Original ResearchConceptsMultilinear analysis 1Rhesus monkeysHighest organ doseLung tissue injuryLung regionsΜSv/MBqPlasma free fractionReceptor type 1Test-retest scansTest-retest variabilityVivo dissociationMolecule lysophosphatidic acidRight lung regionsML of plasmaNondisplaceable volumePulmonary fibrosisLung fibrosisVascular leakageInfusion protocolPlasma concentrationsTissue injuryDrug doseNormal healingOrgan doseType 1
2014
Further evaluation of [11C]MP‐10 as a radiotracer for phosphodiesterase 10A: PET imaging study in rhesus monkeys and brain tissue metabolite analysis
Lin S, Labaree D, Chen M, Holden D, Gallezot J, Kapinos M, Teng J, Najafzadeh S, Plisson C, Rabiner EA, Gunn RN, Carson RE, Huang Y. Further evaluation of [11C]MP‐10 as a radiotracer for phosphodiesterase 10A: PET imaging study in rhesus monkeys and brain tissue metabolite analysis. Synapse 2014, 69: 86-95. PMID: 25450608, PMCID: PMC4275380, DOI: 10.1002/syn.21792.Peer-Reviewed Original ResearchConceptsRhesus monkeysPhosphodiesterase 10ASprague-Dawley ratsMP-10Dose-dependent mannerSpecific PET tracersHigh specific bindingPET imaging studiesTissue uptake kineticsBaseline scanBrain regionsImaging studiesFurther evaluationMultilinear analysis methodRegional volumesPET tracersNonhuman primatesPET imagingVivo studiesReference tissueMonkeysBrainCerebellumSpecific bindingPresent studyEvaluation of [18F]-(-)-norchlorofluorohomoepibatidine ([18F]-(-)-NCFHEB) as a PET radioligand to image the nicotinic acetylcholine receptors in non-human primates
Bois F, Gallezot JD, Zheng MQ, Lin SF, Esterlis I, Cosgrove KP, Carson RE, Huang Y. Evaluation of [18F]-(-)-norchlorofluorohomoepibatidine ([18F]-(-)-NCFHEB) as a PET radioligand to image the nicotinic acetylcholine receptors in non-human primates. Nuclear Medicine And Biology 2014, 42: 570-577. PMID: 25858513, PMCID: PMC4441617, DOI: 10.1016/j.nucmedbio.2014.08.003.Peer-Reviewed Original ResearchConceptsRhesus monkeysGood test-retest reproducibilityML/Plasma free fractionReceptor binding profileNicotinic acetylcholine receptorsTest-retest reproducibilityNon-human primatesReceptor radiotracerΑ4β2 receptorsFrontal cortexPET examinationsMonkey brainAcetylcholine receptorsBrain regionsDistribution volumePET radioligandMultilinear analysis methodPharmacokinetic propertiesEnd of synthesisNon-displaceable distribution volumeFree fractionPET measurementsMonkeysEvaluation of the sensitivity of the novel α4β2* nicotinic acetylcholine receptor PET radioligand 18F‐(‐)‐NCFHEB to increases in synaptic acetylcholine levels in rhesus monkeys
Gallezot J, Esterlis I, Bois F, Zheng M, Lin S, Kloczynski T, Krystal JH, Huang Y, Sabri O, Carson RE, Cosgrove KP. Evaluation of the sensitivity of the novel α4β2* nicotinic acetylcholine receptor PET radioligand 18F‐(‐)‐NCFHEB to increases in synaptic acetylcholine levels in rhesus monkeys. Synapse 2014, 68: 556-564. PMID: 25043426, PMCID: PMC4224280, DOI: 10.1002/syn.21767.Peer-Reviewed Original ResearchConceptsSynaptic acetylcholine concentrationPositron emission tomographyAcetylcholine concentrationRhesus monkeysInfusion of physostigmineSynaptic acetylcholine levelsDose-dependent reductionNicotinic acetylcholine receptorsAcetylcholine levelsBolus injectionAcetylcholine receptorsAcetylcholine dynamicsNew radioligandEmission tomographyArterial input functionAcetylcholinesterase inhibitorsRadioligandThalamusPhysostigmineDonepezilΑ4β2Promising tracerBaselineMonkeysShort scan duration
2013
Imaging Nicotine- and Amphetamine-Induced Dopamine Release in Rhesus Monkeys with [11C]PHNO vs [11C]raclopride PET
Gallezot JD, Kloczynski T, Weinzimmer D, Labaree D, Zheng MQ, Lim K, Rabiner EA, Ridler K, Pittman B, Huang Y, Carson RE, Morris ED, Cosgrove KP. Imaging Nicotine- and Amphetamine-Induced Dopamine Release in Rhesus Monkeys with [11C]PHNO vs [11C]raclopride PET. Neuropsychopharmacology 2013, 39: 866-874. PMID: 24220025, PMCID: PMC3924521, DOI: 10.1038/npp.2013.286.Peer-Reviewed Original ResearchConceptsAmphetamine-induced DA releaseD2/D3 receptorsDA releaseD3 receptorsRhesus monkeysAmphetamine-Induced Dopamine ReleaseDopamine D2/D3 receptorsHuman tobacco smokersAmphetamine-induced changesClinical neuroimaging studiesAdult rhesus monkeysPositron emission tomography (PET) imagingEmission Tomography ImagingLow-affinity receptorsNon-human primatesTobacco smokersSubstantia nigraGlobus pallidusDopamine releaseNucleus accumbensNicotineNeuroimaging studiesTomography imagingBPNDReceptorsClinical doses of atomoxetine significantly occupy both norepinephrine and serotonin transports: Implications on treatment of depression and ADHD
Ding YS, Naganawa M, Gallezot JD, Nabulsi N, Lin SF, Ropchan J, Weinzimmer D, McCarthy TJ, Carson RE, Huang Y, Laruelle M. Clinical doses of atomoxetine significantly occupy both norepinephrine and serotonin transports: Implications on treatment of depression and ADHD. NeuroImage 2013, 86: 164-171. PMID: 23933039, DOI: 10.1016/j.neuroimage.2013.08.001.Peer-Reviewed Original ResearchMeSH KeywordsAdrenergic Uptake InhibitorsAnimalsAtomoxetine HydrochlorideAttention Deficit Disorder with HyperactivityBrainDepressionDose-Response Relationship, DrugMacaca mulattaNorepinephrine Plasma Membrane Transport ProteinsPositron-Emission TomographyPropylaminesSerotonin Plasma Membrane Transport ProteinsTissue DistributionConceptsTreatment of depressionNorepinephrine transporterComparative PET imaging studyMetabolite-corrected arterial input functionFinal infusion rateDoses of atomoxetineDose-dependent occupancyPET imaging studiesSelective serotonin transporter (SERT) ligandNon-human primatesPlasma levelsSelective blockadeSaline infusionClinical dosesTherapeutic effectInfusion rateRelevant dosePET scansAtomoxetineRelevant dosesSerotonin transporter ligandDistribution volumeImaging studiesRhesus monkeysArterial input function
2012
Affinity and selectivity of [11C]‐(+)‐PHNO for the D3 and D2 receptors in the rhesus monkey brain in vivo
Gallezot J, Beaver JD, Gunn RN, Nabulsi N, Weinzimmer D, Singhal T, Slifstein M, Fowles K, Ding Y, Huang Y, Laruelle M, Carson RE, Rabiner EA. Affinity and selectivity of [11C]‐(+)‐PHNO for the D3 and D2 receptors in the rhesus monkey brain in vivo. Synapse 2012, 66: 489-500. PMID: 22213512, DOI: 10.1002/syn.21535.Peer-Reviewed Original ResearchConceptsHuman positron emission tomography studiesPositron emission tomography studyRhesus monkey brainEmission tomography studiesDopamine D2 receptorsRegional binding potentialDopamine D3 receptorAnesthetized primatePHNO signalFuture PET studiesInfusion paradigmD2 receptorsMonkey brainPrimate brainVivo affinityRhesus monkeysPET studiesTomography studyD2RPHNOBrainReceptorsD3RRegional fractionHuman brain
2010
Evaluation of [11C]MRB for assessment of occupancy of norepinephrine transporters: Studies with atomoxetine in non-human primates
Gallezot JD, Weinzimmer D, Nabulsi N, Lin SF, Fowles K, Sandiego C, McCarthy TJ, Maguire RP, Carson RE, Ding YS. Evaluation of [11C]MRB for assessment of occupancy of norepinephrine transporters: Studies with atomoxetine in non-human primates. NeuroImage 2010, 56: 268-279. PMID: 20869448, PMCID: PMC3710586, DOI: 10.1016/j.neuroimage.2010.09.040.Peer-Reviewed Original ResearchConceptsAttention deficit hyperactivity disorderPositron emission tomographyNorepinephrine transporterDrug occupancy studiesRhesus monkeysReference regionTreatment of depressionDose-dependent reductionVolume of distributionArterial blood samplingSuitable reference regionOccupancy studiesNon-human primatesBrain norepinephrine transportersPromising radioligandPlasma levelsTherapeutic doseOccipital cortexBlood samplingUptake inhibitorAtomoxetineEmission tomographyEffective dosePET studiesArterial input function