2022
122-LB: Effect of Dapagliflozin on Mitochondrial Metabolism and Cardiac Function in the Failing Heart
GOEDEKE L, MA Y, ZHANG J, GUERRERA N, WU X, ZHANG D, KAHN M, ZHANG X, YOUNG L, SHULMAN G. 122-LB: Effect of Dapagliflozin on Mitochondrial Metabolism and Cardiac Function in the Failing Heart. Diabetes 2022, 71 DOI: 10.2337/db22-122-lb.Peer-Reviewed Original ResearchDAPA treatmentLV ejection fractionEjection fractionHeart failureMI ratsCardiac outputMyocardial infarctionCardiac functionLeft ventricularEffect of dapagliflozinMale Sprague-DawleyPlasma glucose concentrationMalonyl-CoA contentMitochondrial oxidationKetone availabilityΒOHB levelsVehicle treatmentPermanent ligationSGLT2 inhibitionSGLT2 inhibitorsCardioprotective effectsCoronary arteryAcetyl-CoA contentFailing HeartMitochondrial metabolism
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 ResearchConceptsArterial 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