2003
Insulin resistance and the effects of thiazolidinediones on cardiac metabolism
Young LH. Insulin resistance and the effects of thiazolidinediones on cardiac metabolism. The American Journal Of Medicine 2003, 115: 75-80. PMID: 14678870, DOI: 10.1016/j.amjmed.2003.09.013.BooksMeSH KeywordsAnimalsBlood GlucoseCardiomyopathiesDiabetes Mellitus, Type 2Fatty Acids, NonesterifiedHumansInsulin ResistanceMyocardial ContractionMyocardiumThiazolidinedionesConceptsMyocardial metabolismFree fatty acidsAdministration of thiazolidinedionesImproved glucose metabolismEffects of thiazolidinedionesInsulin-sensitizing effectsRecovery of functionCardiac contractile activityPotential beneficial effectsPostischemic periodDiabetes mellitusMyocardial injuryFFA metabolismInsulin resistanceFatty acid concentrationsContractile activityGlucose metabolismAnimal studiesCardiac metabolismPharmacologic manipulationThiazolidinedionesBeneficial effectsSkeletal muscleHigh rateMetabolism
2001
Cardiac responses to insulin-induced hypoglycemia in nondiabetic and intensively treated type 1 diabetic patients
Russell R, Chyun D, Song S, Sherwin R, Tamborlane W, Lee F, Pfeifer M, Rife F, Wackers F, Young L. Cardiac responses to insulin-induced hypoglycemia in nondiabetic and intensively treated type 1 diabetic patients. AJP Endocrinology And Metabolism 2001, 281: e1029-e1036. PMID: 11595660, DOI: 10.1152/ajpendo.2001.281.5.e1029.Peer-Reviewed Original ResearchMeSH KeywordsAdultCardiac OutputCatecholaminesChemical PrecipitationDiabetes Mellitus, Type 1DiastoleEpinephrineFatty Acids, NonesterifiedFemaleGlucagonGlucose Clamp TechniqueHeartHeart RateHumansHydrocortisoneHypoglycemiaInsulinLactic AcidMaleNorepinephrinePolyethylene GlycolsStroke VolumeSystoleVentricular Function, LeftConceptsType 1 diabetic patientsInsulin-induced hypoglycemiaNondiabetic groupType 1 diabetesDiabetic subjectsEuglycemic hyperinsulinemiaDiabetic patientsNondiabetic subjectsCardiac responseLeft ventricular systolicHealthy nondiabetic subjectsEquilibrium radionuclide angiographyDiabetic groupDiastolic functionVentricular systolicCardiovascular consequencesVentricular functionBlunted increaseCardiac outputGlucagon concentrationsPlasma catecholaminesRadionuclide angiographyInsulin infusionEuglycemic conditionsHypoglycemiaEffect of 5-Aminoimidazole-4-Carboxamide-1-β-d-Ribofuranoside Infusion on In Vivo Glucose and Lipid Metabolism in Lean and Obese Zucker Rats
Bergeron R, Previs S, Cline G, Perret P, Russell III R, Young L, Shulman G. Effect of 5-Aminoimidazole-4-Carboxamide-1-β-d-Ribofuranoside Infusion on In Vivo Glucose and Lipid Metabolism in Lean and Obese Zucker Rats. Diabetes 2001, 50: 1076-1082. PMID: 11334411, DOI: 10.2337/diabetes.50.5.1076.Peer-Reviewed Original ResearchMeSH KeywordsAdenylate KinaseAminoimidazole CarboxamideAnimalsBlood GlucoseBody WeightFatty Acids, NonesterifiedGlucoseGlycerolInfusions, IntravenousInjections, IntravenousInsulinInsulin ResistanceLactatesMaleModels, AnimalMuscle, SkeletalObesityRatsRats, ZuckerReference ValuesRibonucleotidesTriglyceridesConceptsWhole-body glucose disposalInsulin-resistant rat modelObese ratsEndogenous glucose productionObese Zucker ratsRed gastrocnemius muscleInsulin infusion rateLean ratsGlucose disposalInsulin infusionRat modelInfusion rateGastrocnemius muscleZucker ratsLipid metabolismGlucose productionEndogenous glucose production rateGlucose transport activitySkeletal muscle glucose transport activityType 2 diabetesWhole-body carbohydrateInsulin-stimulated glucose uptakeInsulin-independent pathwaySkeletal muscle AMPKGlucose production rate
1996
Glucose metabolism distal to a critical coronary stenosis in a canine model of low-flow myocardial ischemia.
McNulty PH, Sinusas AJ, Shi CQ, Dione D, Young LH, Cline GC, Shulman GI. Glucose metabolism distal to a critical coronary stenosis in a canine model of low-flow myocardial ischemia. Journal Of Clinical Investigation 1996, 98: 62-69. PMID: 8690805, PMCID: PMC507401, DOI: 10.1172/jci118778.Peer-Reviewed Original ResearchConceptsLow-flow ischemiaCoronary stenosisIschemic myocardiumIschemic regionLow-flow myocardial ischemiaCritical coronary stenosisExogenous glucoseOxidative substrateMyocardial ischemiaIntact dogsGlucose metabolismNonischemic regionsClinical observationsCanine modelGlucose utilizationIschemiaBiochemical measurementsMyocardial regionsRate of incorporationIntracellular metabolismTricarboxylic acid cycle fluxStenosisMyocardiumGlucoseGlucose-derived pyruvate
1995
Hyperinsulinemia inhibits myocardial protein degradation in patients with cardiovascular disease and insulin resistance.
McNulty P, Louard R, Deckelbaum L, Zaret B, Young L. Hyperinsulinemia inhibits myocardial protein degradation in patients with cardiovascular disease and insulin resistance. Circulation 1995, 92: 2151-6. PMID: 7554195, DOI: 10.1161/01.cir.92.8.2151.Peer-Reviewed Original ResearchMeSH KeywordsAmino AcidsBlood GlucoseCoronary DiseaseFatty Acids, NonesterifiedGlucoseHumansHyperinsulinismInsulinInsulin ResistanceMaleMiddle AgedMuscle ProteinsMyocardiumPhenylalanineConceptsMyocardial protein degradationInsulin infusionCardiovascular diseaseMyocardial protein synthesisInsulin resistancePhenylalanine balanceMyocardial hypertrophyWhole-body glucose metabolismCoronary artery diseaseIschemic heart diseasePlasma insulin concentrationNet phenylalanine balanceWhole-body carbohydrate metabolismEffect of insulinMyocardial protein metabolismArtery diseaseAcute hyperinsulinemiaProtein synthesisHeart diseaseInsulin concentrationsPlasma concentrationsAntiproteolytic actionHyperinsulinemiaGlucose metabolismConstant infusion
1989
Physiologic hyperinsulinemia stimulates lactate extraction by heart muscle in the conscious dog
Young L, Zaret B, Barrett E. Physiologic hyperinsulinemia stimulates lactate extraction by heart muscle in the conscious dog. Metabolism 1989, 38: 1115-1119. PMID: 2682138, DOI: 10.1016/0026-0495(89)90049-8.Peer-Reviewed Original ResearchMeSH KeywordsAnimalsConsciousnessDogsFatty Acids, NonesterifiedGlucoseInsulinLactatesLactic AcidMyocardiumOsmolar ConcentrationConceptsPhysiologic hyperinsulinemiaConscious dogsFree fatty acidsArterial free fatty acid concentrationMumol/minHeart muscleArterial plasma insulinMyocardial lactate uptakeFree fatty acid concentrationsArterial lactate concentrationHyperinsulinemic-euglycemic clampMyocardial glucose uptakeHyperinsulinemia increasesEuglycemic hyperinsulinemiaNormal heart muscleEuglycemic clampFatty acidsPlasma insulinBasal measurementsBlood glucoseLactate extractionFatty acid concentrationsMyocardial uptakeLactate uptakeHyperinsulinemia
1988
Effect of Chronic Diabetes on Myocardial Fuel Metabolism and Insulin Sensitivity
Barrett E, Schwartz R, Young L, Jacob R, Zaret B. Effect of Chronic Diabetes on Myocardial Fuel Metabolism and Insulin Sensitivity. Diabetes 1988, 37: 943-948. PMID: 3290011, DOI: 10.2337/diab.37.7.943.Peer-Reviewed Original ResearchMeSH KeywordsAlanineAmino AcidsAmino Acids, Branched-ChainAnimalsBlood GlucoseDiabetes Mellitus, ExperimentalDogsFatty Acids, NonesterifiedGlucoseGlutamineHeartInsulinKineticsMyocardiumConceptsArterial free fatty acidsFree fatty acidsMyocardial balanceInsulin clampBranched-chain amino acid concentrationsEuglycemic insulin clamp techniqueGlucose uptakeInsulin-induced hypoaminoacidemiaInsulin clamp techniqueInsulin-deficient diabetesPlasma glucose concentrationFuel substrate metabolismSignificant myocardial uptakeEffect of insulinMyocardial fuel metabolismSignificant glucose uptakePhysiologic hyperinsulinemiaBasal periodChronic diabetesDiabetic animalsInsulin sensitivityAcute effectsAdditional dogsAmino acid concentrationsMyocardial uptake