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
Updates in Cardiorenal Syndrome
McCallum W, Testani J. Updates in Cardiorenal Syndrome. Medical Clinics Of North America 2023, 107: 763-780. PMID: 37258013, PMCID: PMC10756136, DOI: 10.1016/j.mcna.2023.03.011.Peer-Reviewed Reviews, Practice Guidelines, Standards, and Consensus Statements
2022
Classic 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 literature
2021
Renal 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 kidneys
2015
The kidney in heart failure: an update
Damman K, Testani JM. The kidney in heart failure: an update. European Heart Journal 2015, 36: 1437-1444. PMID: 25838436, PMCID: PMC4465636, DOI: 10.1093/eurheartj/ehv010.Peer-Reviewed Reviews, Practice Guidelines, Standards, and Consensus StatementsConceptsHeart failureRenal functionPhenotypes of HFReduced renal perfusionCardiorenal interactionsCardiorenal syndromeHF patientsHF statusRenal dysfunctionRenal perfusionGrim prognosisVenous congestionClinical syndromeTreatment strategiesHigh mortalityPatientsRecent evidenceSyndromeKidneyMortalityUpdated classificationMorbidityFailurePrognosisDysfunction
2014
Novel Renal Biomarkers to Assess Cardiorenal Syndrome
Brisco MA, Testani JM. Novel Renal Biomarkers to Assess Cardiorenal Syndrome. Current Heart Failure Reports 2014, 11: 485-499. PMID: 25239434, PMCID: PMC4224613, DOI: 10.1007/s11897-014-0226-4.Peer-Reviewed Reviews, Practice Guidelines, Standards, and Consensus StatementsConceptsRenal dysfunctionCardiorenal syndromeHeart failureRenal biomarkersNormal glomerular filtration rateIrreversible nephron lossSignificant renal impairmentHypertensive kidney diseaseGlomerular filtration rateNovel renal biomarkersCardiorenal interactionsRenal impairmentNephron lossDecongestive therapyAdverse outcomesKidney diseaseFiltration rateHigh prevalenceRenal performanceSyndromeBiomarkersFailurePrognosisDysfunctionTherapyTerminology and definition of changes renal function in heart failure
Damman K, Tang WH, Testani JM, McMurray JJ. Terminology and definition of changes renal function in heart failure. European Heart Journal 2014, 35: 3413-3416. PMID: 25157110, PMCID: PMC4375406, DOI: 10.1093/eurheartj/ehu320.Commentaries, Editorials and LettersA Combined-Biomarker Approach to Clinical Phenotyping Renal Dysfunction in Heart Failure
Testani JM, Damman K, Brisco MA, Chen S, Laur O, Kula AJ, Tang WH, Parikh C. A Combined-Biomarker Approach to Clinical Phenotyping Renal Dysfunction in Heart Failure. Journal Of Cardiac Failure 2014, 20: 912-919. PMID: 25152498, PMCID: PMC4292792, DOI: 10.1016/j.cardfail.2014.08.008.Peer-Reviewed Original ResearchMeSH KeywordsAdultAgedBiomarkersBlood Urea NitrogenCardio-Renal SyndromeCohort StudiesConfidence IntervalsCreatinineFemaleGlomerular Filtration RateHeart FailureHospitals, UniversityHumansMaleMiddle AgedPhenotypePrognosisRenal InsufficiencyRetrospective StudiesSensitivity and SpecificityStatistics, NonparametricSurvival RateConceptsB-type natriuretic peptideElevated B-type natriuretic peptideRenal dysfunctionHeart failureLower B-type natriuretic peptideUse of BNPCombined biomarker approachDecompensated heart failureIntrinsic kidney diseaseBlood urea nitrogenDifferent clinical phenotypesBUN/Diuretic resistanceInotrope useWorse survivalCreatinine ratioRisk stratificationDischarge diagnosisNatriuretic peptideVenous congestionKidney diseaseStratify patientsClinical phenotypingPatientsUrea nitrogenDo Any Patients with Acute Decompensated Heart Failure and Acute Cardio‐Renal Syndrome Benefit from Ultrafiltration?
Turner JM, Testani JM. Do Any Patients with Acute Decompensated Heart Failure and Acute Cardio‐Renal Syndrome Benefit from Ultrafiltration? Seminars In Dialysis 2014, 27: 231-233. PMID: 24620858, DOI: 10.1111/sdi.12221.Peer-Reviewed Reviews, Practice Guidelines, Standards, and Consensus Statements
2013
Potential Effects of Digoxin on Long-Term Renal and Clinical Outcomes in Chronic Heart Failure
Testani JM, Brisco MA, Tang WH, Kimmel SE, Tiku-Owens A, Forfia PR, Coca SG. Potential Effects of Digoxin on Long-Term Renal and Clinical Outcomes in Chronic Heart Failure. Journal Of Cardiac Failure 2013, 19: 295-302. PMID: 23663810, PMCID: PMC3694335, DOI: 10.1016/j.cardfail.2013.03.002.Peer-Reviewed Original ResearchMeSH KeywordsCardio-Renal SyndromeCardiotonic AgentsCreatinineDigoxinFemaleGlomerular Filtration RateHeart FailureHospitalizationHumansMaleMiddle AgedConceptsDigitalis Investigation GroupRenal dysfunctionHeart failureClinical outcomesFavorable renal responseHospitalization-free survivalLong-Term RenalChronic heart failureSerum creatinine levelsGlomerular filtration rateHypothesis-generating findingsLong-term improvementDIG trialCreatinine levelsRenal functionKidney functionRenal responseFiltration rateDigitalis glycosidesPatientsDigoxinHospitalizationDeathAdditional researchInvestigation groupBlood Urea Nitrogen/Creatinine Ratio Identifies a High-Risk but Potentially Reversible Form of Renal Dysfunction in Patients With Decompensated Heart Failure
Brisco MA, Coca SG, Chen J, Owens AT, McCauley BD, Kimmel SE, Testani JM. Blood Urea Nitrogen/Creatinine Ratio Identifies a High-Risk but Potentially Reversible Form of Renal Dysfunction in Patients With Decompensated Heart Failure. Circulation Heart Failure 2013, 6: 233-239. PMID: 23325460, PMCID: PMC4067251, DOI: 10.1161/circheartfailure.112.968230.Peer-Reviewed Original ResearchMeSH KeywordsAgedAged, 80 and overBiomarkersBlood Urea NitrogenCardio-Renal SyndromeChi-Square DistributionCreatinineFemaleGlomerular Filtration RateHeart FailureHumansKaplan-Meier EstimateKidneyLogistic ModelsMaleMiddle AgedMultivariate AnalysisOdds RatioPatient AdmissionPrognosisProportional Hazards ModelsRetrospective StudiesRisk AssessmentRisk FactorsTime FactorsUp-RegulationConceptsReversible renal dysfunctionBUN/CrBlood urea nitrogen/creatinine ratioUrea nitrogen/creatinine ratioHeart failureRenal functionRenal dysfunctionCreatinine ratioElevated BUN/CrPatients meeting eligibility criteriaDecompensated heart failure patientsDecompensated heart failureHigh-risk patientsHeart failure patientsGlomerular filtration rateRisk of deathMeeting eligibility criteriaConsecutive hospitalizationsBaseline characteristicsFailure patientsDischarge diagnosisFiltration rateEligibility criteriaPatientsReversible form
2011
Prognostic Importance of Early Worsening Renal Function After Initiation of Angiotensin-Converting Enzyme Inhibitor Therapy in Patients With Cardiac Dysfunction
Testani JM, Kimmel SE, Dries DL, Coca SG. Prognostic Importance of Early Worsening Renal Function After Initiation of Angiotensin-Converting Enzyme Inhibitor Therapy in Patients With Cardiac Dysfunction. Circulation Heart Failure 2011, 4: 685-691. PMID: 21903907, PMCID: PMC3248247, DOI: 10.1161/circheartfailure.111.963256.Peer-Reviewed Original ResearchConceptsGlomerular filtration rateRenal functionPrognostic significanceAngiotensin-Converting Enzyme Inhibitor TherapyACE-I therapySetting of angiotensinWorsening Renal FunctionEnzyme inhibitor therapyPrimary end pointAdverse prognostic significanceEnalapril groupEnalapril therapyPlacebo groupStudy drugVentricular dysfunctionHeart failureInhibitor therapyCardiac dysfunctionPrognostic importanceFiltration rateSurvival advantageMortality rateOverall populationEnd pointTherapy