2011
Analysis of (R)- and (S)-[11C]rolipram Kinetics in Canine Myocardium for the Evaluation of Phosphodiesterase-4 with PET
Lortie M, DaSilva JN, Kenk M, Thorn S, Davis D, Birnie D, Beanlands RS, deKemp RA. Analysis of (R)- and (S)-[11C]rolipram Kinetics in Canine Myocardium for the Evaluation of Phosphodiesterase-4 with PET. Molecular Imaging And Biology 2011, 14: 225-236. PMID: 21424298, DOI: 10.1007/s11307-011-0482-6.Peer-Reviewed Original Research
2010
Alterations of pre- and postsynaptic noradrenergic signaling in a rat model of adriamycin-induced cardiotoxicity
Kenk M, Thackeray JT, Thorn SL, Dhami K, Chow BJ, Ascah KJ, DaSilva JN, Beanlands RS. Alterations of pre- and postsynaptic noradrenergic signaling in a rat model of adriamycin-induced cardiotoxicity. Journal Of Nuclear Cardiology 2010, 17: 254-263. PMID: 20182926, DOI: 10.1007/s12350-009-9190-x.Peer-Reviewed Original ResearchConceptsPositron emission tomographyRat modelNoradrenergic signalingHeart/body weight ratioBeta-adrenergic receptor antagonistMyocardial noradrenaline levelsSympathetic nervous systemBody weight ratioPhosphodiesterase 4 inhibitorBeta-adrenergic receptorsVentricle free wallAnthracycline chemotherapeutic agentDesipramine treatmentNoradrenaline levelsNoradrenaline uptakeAnthracycline cardiotoxicityReceptor antagonistAcute increaseCardiac functionRight ventricleLeft atriumInteraction of preAdriamycin cardiotoxicityFree wallNervous system
2009
Reduced in vivo phosphodiesterase-4 response to acute noradrenaline challenge in diet-induced obese rats
Greene M, Thackeray JT, Kenk M, Thorn SL, Bevilacqua L, Harper ME, Beanlands RS, DaSilva JN. Reduced in vivo phosphodiesterase-4 response to acute noradrenaline challenge in diet-induced obese rats. Canadian Journal Of Physiology And Pharmacology 2009, 87: 196-202. PMID: 19295660, DOI: 10.1139/y09-001.Peer-Reviewed Original ResearchConceptsDiet-induced obeseDR ratsDiet-induced obese ratsObese animal modelsSympathetic nervous activityPersistence of obesityHigh-fat dietPhosphodiesterase 4 inhibitorWeeks of feedingEnergy expenditure measuresDIO animalsNoradrenaline challengeDesipramine pretreatmentObese ratsCaloric intakeNoradrenaline stimulationNervous activityAnimal modelsPDE4 levelsNormal increaseWeight gainH pretreatmentSkeletal muscleRatsProgressive alteration
2006
In vivo selective binding of (R)-[11C]rolipram to phosphodiesterase-4 provides the basis for studying intracellular cAMP signaling in the myocardium and other peripheral tissues
Kenk M, Greene M, Thackeray J, deKemp RA, Lortie M, Thorn S, Beanlands RS, DaSilva JN. In vivo selective binding of (R)-[11C]rolipram to phosphodiesterase-4 provides the basis for studying intracellular cAMP signaling in the myocardium and other peripheral tissues. Nuclear Medicine And Biology 2006, 34: 71-77. PMID: 17210463, DOI: 10.1016/j.nucmedbio.2006.10.002.Peer-Reviewed Original ResearchMeSH Keywords3',5'-Cyclic-AMP PhosphodiesterasesAnimalsBrainCarbon RadioisotopesCyclic AMPCyclic Nucleotide Phosphodiesterases, Type 1Cyclic Nucleotide Phosphodiesterases, Type 4HeartMaleMetabolic Clearance RateMyocardiumOrgan SpecificityPhosphodiesterase InhibitorsProtein BindingRadionuclide ImagingRadiopharmaceuticalsRatsRats, Sprague-DawleyRolipramSensitivity and SpecificityTissue DistributionConceptsPhosphodiesterase 4BAY 60Ro 20Male Sprague-Dawley ratsIntracellular cAMPSprague-Dawley ratsNeurohormonal modulationPeripheral tissuesAutoradiography studiesAdipose tissuePDE4 levelsTracer uptakeVivo findingsCAMP-mediated signalingBiodistribution studiesPDE4 activityRolipramSkeletal muscleCAMP levelsTracer retentionCardiac regionCilostazolMyocardiumZaprinastTissue