2019
Controlled decongestion by Reprieve therapy in acute heart failure: results of the TARGET‐1 and TARGET‐2 studies
Biegus J, Zymlinski R, Siwolowski P, Testani J, Szachniewicz J, Tycińska A, Banasiak W, Halpert A, Levin H, Ponikowski P. Controlled decongestion by Reprieve therapy in acute heart failure: results of the TARGET‐1 and TARGET‐2 studies. European Journal Of Heart Failure 2019, 21: 1079-1087. PMID: 31127666, DOI: 10.1002/ejhf.1533.Peer-Reviewed Original ResearchConceptsAcute heart failureEnd of therapyHeart failureDiuretic-based regimenStandard diuretic therapyPatient global assessmentPrimary efficacy endpointCentral venous pressureSystolic blood pressureDiuretic therapyEffective decongestionMean diuresisEfficacy endpointRenal injuryBlood pressureVenous pressureMean creatinineOwn controlPatientsTherapyGlobal assessmentFluid lossSodium lossTherapy supportDecongestion
2018
The prognostic role of different renal function phenotypes in patients with acute heart failure
Palazzuoli A, Ruocco G, Pellicori P, Incampo E, Di Tommaso C, Favilli R, Evangelista I, Nuti R, Testani JM. The prognostic role of different renal function phenotypes in patients with acute heart failure. International Journal Of Cardiology 2018, 276: 198-203. PMID: 30503187, DOI: 10.1016/j.ijcard.2018.11.108.Peer-Reviewed Original ResearchConceptsAcute heart failureBUN increaseHeart failureIndependent predictorsPrognostic roleAdverse outcomesGlomerular filtration rate reductionBlood nitrogen ureaSigns of HFRenal function deteriorationBUN changeClinical congestionEffective decongestionFunction deteriorationRenal functionSerum creatininePoor outcomePrognostic relevanceComplete resolutionClinical signsPatientsNitrogen ureaHospitalizationBUNOutcomes
2017
Extracorporeal Ultrafiltration for Fluid Overload in Heart Failure Current Status and Prospects for Further Research
Costanzo MR, Ronco C, Abraham WT, Agostoni P, Barasch J, Fonarow GC, Gottlieb SS, Jaski BE, Kazory A, Levin AP, Levin HR, Marenzi G, Mullens W, Negoianu D, Redfield MM, Tang WHW, Testani JM, Voors AA. Extracorporeal Ultrafiltration for Fluid Overload in Heart Failure Current Status and Prospects for Further Research. Journal Of The American College Of Cardiology 2017, 69: 2428-2445. PMID: 28494980, PMCID: PMC5632523, DOI: 10.1016/j.jacc.2017.03.528.Peer-Reviewed Reviews, Practice Guidelines, Standards, and Consensus StatementsConceptsRenal functionAdverse heart failure outcomesVital signsHeart failure hospitalizationHeart failure outcomesHeart failure eventsLower acuity hospital settingsEffective decongestionExtracorporeal ultrafiltrationCreatinine increaseFailure hospitalizationSerum creatinineStandard carePharmacological therapyMore complicationsPoor outcomeDiuretic agentsPatient's vital signsHospital settingSustained benefitFluid removalPredominant causeFailure outcomesUltrafiltration rateFurther researchAn exploratory analysis of the competing effects of aggressive decongestion and high-dose loop diuretic therapy in the DOSE trial
Hanberg JS, Tang WH, Wilson FP, Coca SG, Ahmad T, Brisco MA, Testani JM. An exploratory analysis of the competing effects of aggressive decongestion and high-dose loop diuretic therapy in the DOSE trial. International Journal Of Cardiology 2017, 241: 277-282. PMID: 28392080, PMCID: PMC5471358, DOI: 10.1016/j.ijcard.2017.03.114.Peer-Reviewed Original ResearchConceptsHigh-dose loop diureticsDiuretic doseAggressive decongestionDose trialFluid outputLoop diureticsHigh-dose loop diuretic therapyDose-related adverse effectsAdverse effectsLoop diuretic doseLoop diuretic therapyHeart failure patientsNet fluid balanceNet fluid outputRate of deathEmergency department (ED) visitationPotential beneficial effectsHypothesis-generating observationsEffective decongestionDiuretic therapyFailure patientsAdverse outcomesDecongestive effectImproved outcomesFluid balanceRenal tubular resistance is the primary driver for loop diuretic resistance in acute heart failure
Maaten J, Rao VS, Hanberg JS, Wilson F, Bellumkonda L, Assefa M, Broughton J, D'Ambrosi J, Tang W, Damman K, Voors AA, Ellison DH, Testani JM. Renal tubular resistance is the primary driver for loop diuretic resistance in acute heart failure. European Journal Of Heart Failure 2017, 19: 1014-1022. PMID: 28105769, PMCID: PMC6231236, DOI: 10.1002/ejhf.757.Peer-Reviewed Original ResearchConceptsAcute heart failureLoop diuretic resistanceRenal tubular responseDiuretic resistanceDiuretic responseRenal tubulesAHF patientsHeart failureLoop diureticsTubular responseRenal tubular resistanceBumetanide doseEffective decongestionIntravenous bumetanidePoor outcomeUrine collectionTubular resistanceSum of defectsPatient variabilityUrea clearancePatientsCommon barriersDoseClearanceDiuretics