2024
Serial direct sodium removal in patients with heart failure and diuretic resistance
Rao V, Ivey‐Miranda J, Cox Z, Moreno‐Villagomez J, Ramos‐Mastache D, Neville D, Balkcom N, Asher J, Bellumkonda L, Bigvava T, Shaburishvili T, Bartunek J, Wilson F, Finkelstein F, Maulion C, Turner J, Testani J. Serial direct sodium removal in patients with heart failure and diuretic resistance. European Journal Of Heart Failure 2024, 26: 1215-1230. PMID: 38556717, DOI: 10.1002/ejhf.3196.Peer-Reviewed Original ResearchConceptsDiuretic resistanceCardiorenal syndromeHeart failureLoop diureticsDiuretic withdrawalHigh-dose loop diureticsN-terminal pro-B-type natriuretic peptidePro-B-type natriuretic peptideGrowth differentiation factor 15Carbohydrate antigen 125Differentiation factor 15Sodium removalRandomized controlled studyCardiorenal parametersDiuretic doseSoluble ST2Natriuretic peptideMedian timeDiuretic responseKidney injuryPeritoneal membraneElectrolyte handlingKidney functionDiureticsInterleukin-6
2023
Sodium restriction in patients with chronic heart failure and reduced ejection fraction: A randomized controlled trial
Ivey-Miranda J, Almeida-Gutierrez E, Herrera-Saucedo R, Posada-Martinez E, Chavez-Mendoza A, Mendoza-Zavala G, Cigarroa-Lopez J, Magaña-Serrano J, Rivera-Leaños R, Treviño-Mejia A, Revilla-Monsalve C, Flores-Umanzor E, Espinola-Zavaleta N, Orea-Tejeda A, Garduño-Espinosa J, Saturno-Chiu G, Rao VS, Testani J, Borrayo-Sanchez G. Sodium restriction in patients with chronic heart failure and reduced ejection fraction: A randomized controlled trial. Cardiology Journal 2023, 30: 411-421. PMID: 34490604, PMCID: PMC10287066, DOI: 10.5603/cj.a2021.0098.Peer-Reviewed Original ResearchConceptsQuality of lifeSodium restrictionAdverse safety eventsNT-proBNPHeart failureSodium intakeEjection fractionSafety eventsN-terminal pro-B-type natriuretic peptidePro-B-type natriuretic peptideStable HF patientsChronic heart failureNT-proBNP levelsReduced ejection fractionLow sodium intakeBeneficial cardiac effectsAdverse safety signalsSolid clinical evidenceGOV IDENTIFIERUrinary sodiumHF patientsSymptomatic hypotensionCardiac effectsSecondary outcomesBlood pressureThe importance of forward flow and venous congestion in diuretic response in acute heart failure: Insights from the ESCAPE trial
Eder M, Griffin M, Moreno-Villagomez J, Bellumkonda L, Maulion C, Asher J, Wilson F, Cox Z, Ivey-Miranda J, Rao V, Butler J, Borlaug B, McCallum W, Ramos-Mastache D, Testani J. The importance of forward flow and venous congestion in diuretic response in acute heart failure: Insights from the ESCAPE trial. International Journal Of Cardiology 2023, 381: 57-61. PMID: 37023862, DOI: 10.1016/j.ijcard.2023.04.002.Peer-Reviewed Original ResearchMeSH KeywordsHeart FailureHumansHyperemiaSodium Potassium Chloride Symporter InhibitorsStroke VolumeVentricular Function, LeftConceptsRight atrial pressureDiuretic efficiencyRight atrial areaDiuretic responseVenous congestionHeart failureCardio-renal interactionsLoop diuretic doseAcute heart failureRenal perfusion pressureLow cardiac outputMean arterial pressureRight ventricular systolicCongestive heart failureVentricular ejection fractionNet fluid outputForward flowDiuretic doseDiuretic resistanceTTE parametersCardiac indexVentricular systolicArterial pressureAtrial pressureEjection fractionIn-Hospital Observation on Oral Diuretics After Treatment for Acute Decompensated Heart Failure: Evaluating the Utility
Ivey-Miranda J, Rao V, Cox Z, Moreno-Villagomez J, Mahoney D, Maulion C, Bellumkonda L, Turner J, Collins S, Wilson F, Krumholz H, Testani J. In-Hospital Observation on Oral Diuretics After Treatment for Acute Decompensated Heart Failure: Evaluating the Utility. Circulation Heart Failure 2023, 16: e010206. PMID: 36896716, PMCID: PMC10186250, DOI: 10.1161/circheartfailure.122.010206.Peer-Reviewed Original ResearchConceptsAcute decompensated heart failureDecompensated heart failureDiuretic responseDiuretic dosingOral diureticsHeart failureMulticenter cohortHospital observationLower readmission ratesNet fluid balanceDays postdischargeReadmission ratesHospital readmissionUrine outputReadmission riskFluid statusFluid balanceHospital measuresDose selectionCohortProvider decisionsWeight changeReadmissionDiureticsPatientsImprovement in Renal Function During the Treatment of Acute Decompensated Heart Failure: Relationship With Markers of Renal Tubular Injury and Prognostic Importance
Natov P, Ivey-Miranda J, Cox Z, Moreno-Villagomez J, Maulion C, Bellumkonda L, Shlipak M, Estrella M, Borlaug B, Rao V, Testani J. Improvement in Renal Function During the Treatment of Acute Decompensated Heart Failure: Relationship With Markers of Renal Tubular Injury and Prognostic Importance. Circulation Heart Failure 2023, 16: e009776. PMID: 36700431, PMCID: PMC10150783, DOI: 10.1161/circheartfailure.122.009776.Peer-Reviewed Original ResearchConceptsAcute decompensated heart failureDecompensated heart failureStable renal functionGlomerular filtration rateRenal functionRenal tubular injuryHeart failureTubular injuryKIM-1Filtration rateRenal tubular injury markersTubular injury markersRenal function groupCumulative urine outputCardiorenal dysfunctionDiuretic dosesInjury markersWorse survivalWorsened survivalUrine outputDecongestive therapyPrognostic importanceAdverse outcomesLower admissionPatients
2022
Changes in the Inferior Vena Cava Are More Sensitive Than Venous Pressure During Fluid Removal: A Proof-of-Concept Study
Posada-Martinez EL, Cox ZL, Cano-Nieto MM, Ibarra-Marquez ND, Moreno-Villagomez J, Gudiño-Bravo P, Arias-Godinez JA, Lopez-Gil S, Madero M, Rao VS, Mebazaa A, Burkhoff D, Cowie MR, Fudim M, Damman K, Borlaug BA, Testani JM, Ivey-Miranda JB. Changes in the Inferior Vena Cava Are More Sensitive Than Venous Pressure During Fluid Removal: A Proof-of-Concept Study. Journal Of Cardiac Failure 2022, 29: 463-472. PMID: 36243338, DOI: 10.1016/j.cardfail.2022.09.012.Peer-Reviewed Original ResearchMeSH KeywordsCentral Venous PressureHeart DiseasesHeart FailureHumansRenal DialysisVena Cava, InferiorVenous PressureConceptsInferior vena cava diameterPeripheral venous pressureCentral venous pressureVenous pressureUltrafiltration volumeHeart failureVolume statusMean ultrafiltration volumeManagement of patientsVena cava diameterInferior vena cavaDiastolic dysfunctionCardiac dysfunctionStable hemodialysisVena cavaHemodialysis sessionFluid removalPatientsDialysisHemodialysisDysfunctionConcept studyGreater magnitudeStatusCavaHemoconcentration of Creatinine Minimally Contributes to Changes in Creatinine during the Treatment of Decompensated Heart Failure
Maulion C, Chen S, Rao VS, Ivey-Miranda JB, Cox ZL, Mahoney D, Coca SG, Negoianu D, Asher JL, Turner JM, Inker LA, Wilson FP, Testani JM. Hemoconcentration of Creatinine Minimally Contributes to Changes in Creatinine during the Treatment of Decompensated Heart Failure. Kidney360 2022, 3: 1003-1010. PMID: 35845336, PMCID: PMC9255871, DOI: 10.34067/kid.0007582021.Peer-Reviewed Original ResearchClassic and Novel Mechanisms of Diuretic Resistance in Cardiorenal Syndrome
Cox ZL, Rao VS, Testani JM. Classic and Novel Mechanisms of Diuretic Resistance in Cardiorenal Syndrome. Kidney360 2022, 3: 954-967. PMID: 36128483, PMCID: PMC9438407, DOI: 10.34067/kid.0006372021.Commentaries, Editorials and LettersMeSH KeywordsCardio-Renal SyndromeDiureticsHeart FailureHumansSodiumSodium Potassium Chloride Symporter InhibitorsConceptsCardiorenal syndromeDiuretic resistanceSodium avidityAcute decompensated heart failureDecompensated heart failureRenal sodium avidityHeart failure phenotypeResistance mechanismsDiuretic therapyHeart failureFailure populationNovel mechanismMultiple etiologiesGlomerular filtrationTherapeutic strategiesFailure phenotypeSyndromeTranslate findingsAviditySpecific transportersTherapyEtiologyPopulationRecent literatureInferior Vena Cava Diameter Measurement Provides Distinct and Complementary Information to Right Atrial Pressure in Acute Decompensated Heart Failure
Griffin M, Ivey-Miranda J, McCallum W, Sarnak M, Eder M, Bellumkonda L, Maulion C, Wilson FP, Rao VS, Testani J. Inferior Vena Cava Diameter Measurement Provides Distinct and Complementary Information to Right Atrial Pressure in Acute Decompensated Heart Failure. Journal Of Cardiac Failure 2022, 28: 1217-1221. PMID: 35301109, DOI: 10.1016/j.cardfail.2022.02.014.Peer-Reviewed Original ResearchConceptsRight atrial pressureAcute decompensated heart failureDecompensated heart failureIVC diameterAtrial pressureHeart failureInferior vena cava diameter (IVCD) measurementBaseline right atrial pressureInferior vena cava (IVC) measurementsPulmonary artery catheterVena cava diameter measurementsArtery catheterHemoglobin levelsIntravascular volumeVenous systemESCAPE trialIVC measurementsBlood volumeRAP measurementsSurvival ratePatientsVolume assessmentHigh complianceModest correlationMedianChanges in inferior vena cava area represent a more sensitive metric than changes in filling pressures during experimental manipulation of intravascular volume and tone
Ivey‐Miranda J, Wetterling F, Gaul R, Sheridan S, Asher JL, Rao VS, Maulion C, Mahoney D, Mebazaa A, Gray AP, Burkhoff D, Cowie MR, Cox ZL, Butler J, Fudim M, McDonald K, Damman K, Borlaug BA, Testani JM. Changes in inferior vena cava area represent a more sensitive metric than changes in filling pressures during experimental manipulation of intravascular volume and tone. European Journal Of Heart Failure 2022, 24: 455-462. PMID: 34837447, PMCID: PMC9306514, DOI: 10.1002/ejhf.2395.Peer-Reviewed Original ResearchMeSH KeywordsAnimalsCardiac CatheterizationCentral Venous PressureHeart DiseasesHeart FailureHumansSheepVena Cava, InferiorConceptsInferior vena cavaCardiac filling pressuresPulmonary artery pressureIntravascular volumeFilling pressureArtery pressureVolume statusVascular toneCardiac functionCross-sectional areaLeft-sided cardiac filling pressuresIVC cross-sectional areaHeart failure hospitalizationRight heart catheterizationChronic HFFailure hospitalizationHeart catheterizationCardiac dysfunctionVenous conduitsColloid infusionVena cavaVenous systemRapid pacingIVC areaVolume loading
2021
FGF-23 (Fibroblast Growth Factor-23) and Cardiorenal Interactions
Ivey-Miranda JB, Stewart B, Cox ZL, McCallum W, Maulion C, Gleason O, Meegan G, Amatruda JG, Moreno-Villagomez J, Mahoney D, Turner JM, Wilson FP, Estrella MM, Shlipak MG, Rao VS, Testani JM. FGF-23 (Fibroblast Growth Factor-23) and Cardiorenal Interactions. Circulation Heart Failure 2021, 14: e008385. PMID: 34689571, PMCID: PMC8782627, DOI: 10.1161/circheartfailure.121.008385.Peer-Reviewed Original ResearchConceptsFGF-23Cardiorenal interactionsHeart failureDiuretic resistanceSodium avidityNeurohormonal activationMultivariable analysisDistal tubular sodium reabsorptionLoop diuretic doseTubular sodium reabsorptionGlomerular filtration rateCardiorenal dysfunctionDiuretic doseDiuretic treatmentNT-proBNPFractional excretionDiuretic administrationSodium reabsorptionPeak diuresisFiltration rateCare centerUrine samplingAnimal modelsSerum chlorideDisease severityCompensatory post-diuretic renal sodium reabsorption is not a dominant mechanism of diuretic resistance in acute heart failure
Cox ZL, Rao VS, Ivey-Miranda JB, Moreno-Villagomez J, Mahoney D, Ponikowski P, Biegus J, Turner JM, Maulion C, Bellumkonda L, Asher JL, Parise H, Wilson PF, Ellison DH, Wilcox CS, Testani JM. Compensatory post-diuretic renal sodium reabsorption is not a dominant mechanism of diuretic resistance in acute heart failure. European Heart Journal 2021, 42: 4468-4477. PMID: 34529781, PMCID: PMC8599022, DOI: 10.1093/eurheartj/ehab620.Peer-Reviewed Original ResearchMeSH KeywordsDiureticsHeart FailureHumansNatriuresisSodiumSodium Potassium Chloride Symporter InhibitorsConceptsAcute decompensated heart failureSpontaneous natriuresisDiuretic resistanceHeart failureSodium reabsorptionUrine collectionSpot urine sodium concentrationsIntravenous loop diureticsNeutral sodium balanceAcute heart failureDecompensated heart failureRenal sodium reabsorptionSubgroup of patientsUrine sodium concentrationSpot urine samplesDiuretic therapySodium aviditySodium excretionUrine sodiumCreatinine ratioLoop diureticsDiuretic administrationSodium balanceNatriuresisHealthy volunteersRenal negative pressure treatment as a novel therapy for heart failure-induced renal dysfunction
Rao VS, Maulion C, Asher JL, Ivey-Miranda J, Cox ZL, Moreno-Villagomez J, Mahoney D, Turner JM, Wilson FP, Wilcox CS, Testani J. Renal negative pressure treatment as a novel therapy for heart failure-induced renal dysfunction. AJP Regulatory Integrative And Comparative Physiology 2021, 321: r588-r594. PMID: 34405731, DOI: 10.1152/ajpregu.00115.2021.Peer-Reviewed Original ResearchConceptsRenal plasma flowGlomerular filtration rateCongestive HFTubular pressureHeart failure hospitalizationPara-aminohippurate clearanceCentral venous pressureHigh fractional excretionNegative pressure therapyUrinary collecting systemNegative pressure treatmentSimilar diuresisFailure hospitalizationRenal dysfunctionCardiac tamponadeIothalamate clearanceFractional excretionRenal parametersKidney functionRenal congestionRenal responseRight kidneyVenous pressurePressure therapyControl kidneysNatriuretic Equation to Predict Loop Diuretic Response in Patients With Heart Failure
Rao VS, Ivey-Miranda JB, Cox ZL, Riello R, Griffin M, Fleming J, Soucier R, Sangkachand P, O'Brien M, LoRusso F, D'Ambrosi J, Churchwell K, Mahoney D, Bellumkonda L, Asher JL, Maulion C, Turner JM, Wilson FP, Collins SP, Testani JM. Natriuretic Equation to Predict Loop Diuretic Response in Patients With Heart Failure. Journal Of The American College Of Cardiology 2021, 77: 695-708. PMID: 33573739, PMCID: PMC8114781, DOI: 10.1016/j.jacc.2020.12.022.Peer-Reviewed Original ResearchConceptsLoop diuretic administrationDiuretic therapyNatriuretic responseDiuretic administrationSodium outputAcute decompensated heart failureDecompensated heart failureHeart failure admissionsDaily urine outputSpot urine samplesNet fluid outputNet fluid lossPathway cohortHeart failureLoop diureticsUrine outputDiuretic responseResidual congestionFluid outputTherapyCohortWeight lossAdditional studiesUrine samplesExcellent discrimination
2020
Prediction and measurement of diuretic responsiveness after oral administration of furosemide to healthy dogs and dogs with congestive heart failure
Loughran KA, Larouche‐Lebel É, Huh T, Testani JM, Rao VS, Oyama MA. Prediction and measurement of diuretic responsiveness after oral administration of furosemide to healthy dogs and dogs with congestive heart failure. Journal Of Veterinary Internal Medicine 2020, 34: 2253-2264. PMID: 33125814, PMCID: PMC7694836, DOI: 10.1111/jvim.15952.Peer-Reviewed Original ResearchMeSH KeywordsAdministration, OralAnimalsDiureticsDog DiseasesDogsFurosemideHeart FailureHumansProspective StudiesConceptsCongestive heart failureSpot urine samplesDiuretic responsivenessHeart failureHealthy dogsOral administrationUrine samplesCumulative urine volumeUrinary Na excretionProspective interventional studyUrine sodiumNa excretionUrine volumeInterventional studyUvolClinical importanceHuman patientsClinical settingDogsFurosemideCharacteristic curveResponsivenessAdministrationMinutesPatientsCystatin C and Muscle Mass in Patients With Heart Failure
Ivey-Miranda JB, Inker LA, Griffin M, Rao V, Maulion C, Turner JM, Wilson FP, Tang WHW, Levey AS, Testani JM. Cystatin C and Muscle Mass in Patients With Heart Failure. Journal Of Cardiac Failure 2020, 27: 48-56. PMID: 32750487, PMCID: PMC8672303, DOI: 10.1016/j.cardfail.2020.07.013.Peer-Reviewed Original ResearchMeSH KeywordsCreatinineCystatin CGlomerular Filtration RateHeart FailureHumansMusclesRenal Insufficiency, ChronicConceptsHeart failureCreatinine clearanceMuscle massCystatin CHigher muscle massAssociation of eGFRcysGlomerular filtration rateLow muscle massCystatin C levelsAccurate GFR estimationMultivariable analysisFiltration rateEGFRcysEGFRcrBody compositionGFR estimationPatientsCreatinineC levelsClearanceMortalityAssociationSodium glucose cotransporter 2 inhibitors as diuretic adjuvants in acute decompensated heart failure: a case series
Griffin M, Riello R, Rao VS, Ivey-Miranda J, Fleming J, Maulion C, McCallum W, Sarnak M, Collins S, Inzucchi SE, Testani JM. Sodium glucose cotransporter 2 inhibitors as diuretic adjuvants in acute decompensated heart failure: a case series. ESC Heart Failure 2020, 7: 1966-1971. PMID: 32476296, PMCID: PMC7373933, DOI: 10.1002/ehf2.12759.Peer-Reviewed Original ResearchMeSH KeywordsDiabetes Mellitus, Type 2DiureticsHeart FailureHumansRetrospective StudiesSodium-Glucose Transporter 2 InhibitorsConceptsAcute decompensated heart failureSodium-glucose cotransporter 2 inhibitorsGlucose cotransporter 2 inhibitorsDecompensated heart failureCotransporter 2 inhibitorsType 2 diabetesSGLT-2iBlood pressureHeart failureUrine outputYale-New Haven HospitalWeight lossIncidence of hypokalaemiaSGLT-2i initiationSGLT-2i therapyGlucose-lowering medicationsHeart failure outcomesCohort of patientsAverage weight lossDiuretic dosingDiuretic resistanceAdjunctive therapyWorsened survivalDiuretic efficiencyDiuretic monotherapyEmpagliflozin in Heart Failure
Griffin M, Rao VS, Ivey-Miranda J, Fleming J, Mahoney D, Maulion C, Suda N, Siwakoti K, Ahmad T, Jacoby D, Riello R, Bellumkonda L, Cox Z, Collins S, Jeon S, Turner JM, Wilson FP, Butler J, Inzucchi SE, Testani JM. Empagliflozin in Heart Failure. Circulation 2020, 142: 1028-1039. PMID: 32410463, PMCID: PMC7521417, DOI: 10.1161/circulationaha.120.045691.Peer-Reviewed Original ResearchConceptsSodium-glucose cotransporter 2 inhibitorsCotransporter 2 inhibitorsNeurohormonal activationHeart failureRenal dysfunctionBlood volumeHeart failure-related outcomesPlacebo-controlled crossover studyType 2 diabetes mellitusProximal tubular siteHeart failure outcomesStable heart failureUrinary glucose excretionUric acid levelsElectrolyte wastingEmpagliflozin monotherapyOral empagliflozinPlacebo periodStudy drugGlucose excretionNatriuretic effectPotassium wastingTubular sitesDiabetes mellitusFractional excretionReal World Use of Hypertonic Saline in Refractory Acute Decompensated Heart Failure A U.S. Center’s Experience
Griffin M, Soufer A, Goljo E, Colna M, Rao VS, Jeon S, Raghavendra P, D'Ambrosi J, Riello R, Coca SG, Mahoney D, Jacoby D, Ahmad T, Chen M, Tang WHW, Turner J, Mullens W, Wilson FP, Testani JM. Real World Use of Hypertonic Saline in Refractory Acute Decompensated Heart Failure A U.S. Center’s Experience. JACC Heart Failure 2020, 8: 199-208. PMID: 32035891, PMCID: PMC7814403, DOI: 10.1016/j.jchf.2019.10.012.Peer-Reviewed Original ResearchConceptsAcute decompensated heart failureHypertonic saline administrationHypertonic saline therapyHypertonic salineSaline administrationSaline therapyDiuretic efficiencyUrine outputSerum sodiumWeight lossAcute decompensated heartDecompensated heart failureCohort of patientsTotal urine outputReal-world safetyU.S. academic medical centersAcademic medical centerLarge U.S. academic medical centerDiuretic doseCenter experienceHeart failureMetabolic derangementsPrimary analytic approachRespiratory statusClinical variablesEffect of Loop Diuretics on the Fractional Excretion of Urea in Decompensated Heart Failure
Cox ZL, Sury K, Rao VS, Ivey-Miranda JB, Griffin M, Mahoney D, Gomez N, Fleming JH, Inker LA, Coca SG, Turner J, Wilson FP, Testani JM. Effect of Loop Diuretics on the Fractional Excretion of Urea in Decompensated Heart Failure. Journal Of Cardiac Failure 2020, 26: 402-409. PMID: 32007554, PMCID: PMC7798124, DOI: 10.1016/j.cardfail.2020.01.019.Peer-Reviewed Original ResearchMeSH KeywordsDiureticsFurosemideHeart FailureHumansProspective StudiesSodiumSodium Potassium Chloride Symporter InhibitorsUreaConceptsAcute kidney injuryFractional excretionHeart failureLoop diureticsDecompensated heart failureFurosemide equivalentsKidney injuryProspective cohortDiuretic administrationDiuretic responsePeak diuresisDiuretic effectFEUreaDiureticsPatientsDiagnostic superiorityHospital systemExcretionMagnitude of changeDegree of changeBaselineDistribution of changesFENaDiuresisFailure