Featured Publications
Personalised recommendations for hospitalised patients with Acute Kidney Injury using a Kidney Action Team (KAT-AKI): protocol and early data of a randomised controlled trial
Aklilu A, O’Connor K, Martin M, Yamamoto Y, Coronel-Moreno C, Shvets K, Jones C, Kadhim B, Corona-Villalobos C, Baker M, Tan J, Freeman N, Groener M, Menez S, Brown D, Culli S, Lindsley J, Orias M, Parikh C, Smith A, Sundararajan A, Wilson F. Personalised recommendations for hospitalised patients with Acute Kidney Injury using a Kidney Action Team (KAT-AKI): protocol and early data of a randomised controlled trial. BMJ Open 2023, 13: e071968. PMID: 37068906, PMCID: PMC10111926, DOI: 10.1136/bmjopen-2023-071968.Peer-Reviewed Original ResearchConceptsPrimary teamAcute Kidney Injury OutcomesAKI alert systemInvestigator-blinded trialUsual care armKey secondary outcomesClinical decision support toolIntensive care unitUS hospital systemAKI alertsAKI detectionAKI progressionCare armSecondary outcomesPrimary outcomeCare unitMedian timeMedical floorPercentage of recommendationsDiagnostic interventionsInjury outcomesRandomisationHospital systemEthics CommitteeDedicated team
2023
Identification and validation of urinary CXCL9 as a biomarker for diagnosis of acute interstitial nephritis
Moledina D, Obeid W, Smith R, Rosales I, Sise M, Moeckel G, Kashgarian M, Kuperman M, Campbell K, Lefferts S, Meliambro K, Bitzer M, Perazella M, Luciano R, Pober J, Cantley L, Colvin R, Wilson F, Parikh C. Identification and validation of urinary CXCL9 as a biomarker for diagnosis of acute interstitial nephritis. Journal Of Clinical Investigation 2023, 133: e168950. PMID: 37395276, PMCID: PMC10313360, DOI: 10.1172/jci168950.Peer-Reviewed Original ResearchConceptsUrinary CXCL9External validation cohortValidation cohortControl groupAIN diagnosisDiscovery cohortKidney tissueDiagnostic biomarkersAcute interstitial nephritisCXCL9 mRNA expressionAcute kidney injuryBiopsy-confirmed diagnosisAvailable clinical testsNational InstituteKidney injuryTubulointerstitial nephritisInterstitial nephritisKidney biopsyHistological confirmationHistological diagnosisTreatment optionsLymphocyte chemotaxisCXCL9MRNA expression differencesPatientsEvaluation of Plasma Biomarkers to Predict Major Adverse Kidney Events in Hospitalized Patients With COVID-19
Menez S, Coca S, Moledina D, Wen Y, Chan L, Thiessen-Philbrook H, Obeid W, Garibaldi B, Azeloglu E, Ugwuowo U, Sperati C, Arend L, Rosenberg A, Kaushal M, Jain S, Wilson F, Parikh C, Consortium T, Deng J, Atta M, Bagnasco S, Ko A, Iwasaki A, Farhadian S, Nelson A, Casanovas-Massana A, White E, Schulz W, Coppi A, Young P, Nunez A, Shepard D, Matos I, Strong Y, Anastasio K, Brower K, Kuang M, Chiorazzi M, Bermejo S, Vijayakumar P, Geng B, Fournier J, Minasyan M, Muenker M, Moore A, Nadkarni G. Evaluation of Plasma Biomarkers to Predict Major Adverse Kidney Events in Hospitalized Patients With COVID-19. American Journal Of Kidney Diseases 2023, 82: 322-332.e1. PMID: 37263570, PMCID: PMC10229201, DOI: 10.1053/j.ajkd.2023.03.010.Peer-Reviewed Original ResearchConceptsSoluble tumor necrosis factor receptor 1Major adverse kidney eventsAdverse kidney eventsAdverse kidney outcomesAcute kidney injuryKidney eventsTumor necrosis factor receptor 1Necrosis factor receptor 1Plasma biomarkersKidney outcomesC-indexFactor receptor 1Hospitalized patientsCOVID-19KDIGO stage 3 acute kidney injuryDialysis-requiring acute kidney injuryStage 3 acute kidney injuryLong-term adverse health outcomesReceptor 1Long-term kidney dysfunctionAvailable blood samplesIdentification of patientsProportional hazards regressionAdverse health outcomesCOVID-19 hospitalization
2022
Safety and Adequacy of Kidney Biopsy Procedure in Patients with Obesity
Qian L, Menez S, Hu D, Weinstein J, Melchinger H, Thiessen-Philbrook H, Luciano R, Turner J, Perazella M, Villalobos C, Shaw M, Wilson F, Parikh C, Moledina D. Safety and Adequacy of Kidney Biopsy Procedure in Patients with Obesity. Kidney360 2022, 4: 98-101. PMID: 36700910, PMCID: PMC10101611, DOI: 10.34067/kid.0006602022.Peer-Reviewed Original ResearchUrine Uromodulin as a Biomarker of Kidney Tubulointerstitial Fibrosis
Melchinger H, Calderon-Gutierrez F, Obeid W, Xu L, Shaw MM, Luciano RL, Kuperman M, Moeckel GW, Kashgarian M, Wilson FP, Parikh CR, Moledina DG. Urine Uromodulin as a Biomarker of Kidney Tubulointerstitial Fibrosis. Clinical Journal Of The American Society Of Nephrology 2022, 17: 1284-1292. PMID: 35948365, PMCID: PMC9625093, DOI: 10.2215/cjn.04360422.Peer-Reviewed Original ResearchConceptsInterstitial fibrosis/tubular atrophyUrine uromodulinTubular atrophyThick ascending limbUrine albuminSerum creatinineKidney biopsyTubulointerstitial fibrosisMultivariable linear regression modelsTime of biopsyKidney's thick ascending limbAcademic medical centerHuman kidney biopsiesKidney tubulointerstitial fibrosisTubular healthMultivariable analysisHistologic featuresHistologic findingsHistologic changesKidney fibrosisIndependent associationFibrotic modelMultivariable modelMedical CenterMurine modelMortality after acute kidney injury and acute interstitial nephritis in patients prescribed immune checkpoint inhibitor therapy
Baker ML, Yamamoto Y, Perazella MA, Dizman N, Shirali AC, Hafez N, Weinstein J, Simonov M, Testani JM, Kluger HM, Cantley LG, Parikh CR, Wilson FP, Moledina DG. Mortality after acute kidney injury and acute interstitial nephritis in patients prescribed immune checkpoint inhibitor therapy. Journal For ImmunoTherapy Of Cancer 2022, 10: e004421. PMID: 35354588, PMCID: PMC8968986, DOI: 10.1136/jitc-2021-004421.Peer-Reviewed Original ResearchConceptsAcute interstitial nephritisAcute kidney injuryImmune checkpoint inhibitor therapyCheckpoint inhibitor therapyICI therapyKidney injuryInhibitor therapyInterstitial nephritisTime-varying Cox proportional hazards modelsHigher peak serum creatinineSevere acute kidney injuryCancer typesCox proportional hazards modelAssociations of biopsyBaseline laboratory valuesObservational cohort studyPeak serum creatinineFavorable treatment responseProportional hazards modelAKI patientsTherapy initiationCohort studySerum creatinineUnivariable analysisImmune activationClinically adjudicated deceased donor acute kidney injury and graft outcomes
Mansour SG, Khoury N, Kodali R, Virmani S, Reese PP, Hall IE, Jia Y, Yamamoto Y, Thiessen-Philbrook HR, Obeid W, Doshi MD, Akalin E, Bromberg JS, Harhay MN, Mohan S, Muthukumar T, Singh P, Weng FL, Moledina DG, Greenberg JH, Wilson FP, Parikh CR. Clinically adjudicated deceased donor acute kidney injury and graft outcomes. PLOS ONE 2022, 17: e0264329. PMID: 35239694, PMCID: PMC8893682, DOI: 10.1371/journal.pone.0264329.Peer-Reviewed Original ResearchConceptsDonor Acute Kidney InjuryAcute kidney injuryGraft failureAKI phenotypesKidney injuryUrine biomarkersLack of associationAKI casesGraft functionHigher DGFPotential kidneyGraft outcomeDeceased donorsOrgan utilizationMCP-1YKL-40Donor StudyEGFRDGFAncillary analysisAvailable chartsBiomarkersInjuryPhenotypeAssociation
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 kidneysRationale and design of the Kidney Precision Medicine Project
de Boer IH, Alpers CE, Azeloglu EU, Balis UGJ, Barasch JM, Barisoni L, Blank KN, Bomback AS, Brown K, Dagher PC, Dighe AL, Eadon MT, El-Achkar TM, Gaut JP, Hacohen N, He Y, Hodgin JB, Jain S, Kellum JA, Kiryluk K, Knight R, Laszik ZG, Lienczewski C, Mariani LH, McClelland RL, Menez S, Moledina DG, Mooney SD, O’Toole J, Palevsky PM, Parikh CR, Poggio ED, Rosas SE, Rosengart MR, Sarwal MM, Schaub JA, Sedor JR, Sharma K, Steck B, Toto RD, Troyanskaya OG, Tuttle KR, Vazquez MA, Waikar SS, Williams K, Wilson FP, Zhang K, Iyengar R, Kretzler M, Himmelfarb J, Project K, Knight R, Lecker S, Stillman I, Waikar S, Mcmahon G, Weins A, Short S, Hacohen N, Hoover P, Aulisio M, Cooperman L, Herlitz L, O’Toole J, Poggio E, Sedor J, Jolly S, Appelbaum P, Balderes O, Barasch J, Bomback A, Canetta P, d’Agati V, Kiryluk K, Kudose S, Mehl K, Radhakrishnan J, Weng C, Barisoni L, Alexandrov T, Ashkar T, Barwinska D, Dagher P, Dunn K, Eadon M, Ferkowicz M, Kelly K, Sutton T, Winfree S, Menez S, Parikh C, Rosenberg A, Villalobos P, Malik R, Fine D, Atta M, Trujillo J, Slack A, Rosas S, Williams M, Azeloglu E, He C, Iyengar R, Hansen J, Parikh S, Rovin B, Anderton C, Pasa-Tolic L, Velickovic D, Lukowski J, Oliver G, Ardayfio J, Bebiak J, Brown K, Campbell T, Campbell C, Hayashi L, Jefferson N, Koewler R, Roberts G, Saul J, Shpigel A, Stutzke E, Wright L, Miegs L, Pinkeney R, Sealfon R, Troyanskaya O, Tuttle K, Dobi D, Goltsev Y, Lake B, Zhang K, Joanes M, Laszik Z, Schroeder A, Sarwal M, Sigdel T, Balis U, Blanc V, He O, Hodgin J, Kretzler M, Mariani L, Menon R, Otto E, Schaub J, Steck B, Lienczewski C, Eddy S, Elder M, Hall D, Kellum J, Kruth M, Murugan R, Palevsky P, Randhawa P, Rosengart M, Sims-Lucas S, Stefanick M, Stull S, Tublin M, Alpers C, de Boer I, Dighe A, Himmelfarb J, Mcclelland R, Mooney S, Shankland S, Williams K, Blank K, Carson J, Dowd F, Drager Z, Park C, Sharma K, Zhang G, Bansal S, Venkatachalam M, Kermani A, Lee S, Lu C, Miller T, Moe O, Park H, Sambandam K, Sanchez F, Torrealba J, Robert T, Vazquez M, Wang N, Gaut J, Jain S, Vijayan A, Luciano R, Moledina D, Ugochukwu U, Wilson F, Alfano S. Rationale and design of the Kidney Precision Medicine Project. Kidney International 2021, 99: 498-510. PMID: 33637194, PMCID: PMC8330551, DOI: 10.1016/j.kint.2020.08.039.Peer-Reviewed Original ResearchConceptsAcute kidney injuryChronic kidney diseaseKidney Precision Medicine ProjectKidney biopsyKidney diseasePrecision Medicine ProjectKidney tissueMulticenter prospective cohort studyProtocol kidney biopsiesProspective cohort studyDeep clinical phenotypingPrecision medicine approachMedicine ProjectKidney injuryClinical characteristicsCohort studyClinical outcomesSubgroup analysisMorbid diseaseNovel therapiesPreventive strategiesClinical phenotypingDisease subgroupsToxic injuryPatients
2019
Renal Effects of Intensive Volume Removal in Heart Failure Patients With Preexisting Worsening Renal Function
Rao VS, Ahmad T, Brisco-Bacik MA, Bonventre JV, Wilson FP, Siew ED, Felker GM, Anstrom KK, Mahoney DD, Bart BA, Tang WHW, Velazquez EJ, Testani JM. Renal Effects of Intensive Volume Removal in Heart Failure Patients With Preexisting Worsening Renal Function. Circulation Heart Failure 2019, 12: e005552. PMID: 31163974, PMCID: PMC6585463, DOI: 10.1161/circheartfailure.118.005552.Peer-Reviewed Original ResearchConceptsRenal tubular injury biomarkersTubular injury biomarkersHeart failure patientsAcute decompensated heart failure patientsDecompensated heart failure patientsTubular injury markersInjury biomarkersFailure patientsRenal functionInjury markersAcute decompensated heart failureVolume removalCARRESS-HF trialRenal function recoveryDecompensated heart failureRenal tubular injuryRenal effectsSerum creatinineTubular injuryBiomarker substudyHeart failurePharmacological therapyClinical outcomesFunction recoveryHigh incidenceUrine TNF-α and IL-9 for clinical diagnosis of acute interstitial nephritis
Moledina DG, Wilson FP, Pober JS, Perazella MA, Singh N, Luciano RL, Obeid W, Lin H, Kuperman M, Moeckel GW, Kashgarian M, Cantley LG, Parikh CR. Urine TNF-α and IL-9 for clinical diagnosis of acute interstitial nephritis. JCI Insight 2019, 4: e127456. PMID: 31092735, PMCID: PMC6542610, DOI: 10.1172/jci.insight.127456.Peer-Reviewed Original ResearchConceptsAcute interstitial nephritisAcute kidney diseasePrebiopsy diagnosisKidney biopsyKidney diseaseIL-9AIN diagnosisUrine TNFInterstitial nephritisSpecific T cell subsetsAcute tubular injuryDiabetic kidney diseaseIL-9 levelsTNF-α levelsT cell subsetsAddition of biomarkersPlasma cytokinesCytokine levelsTubular injuryHighest quartileMultivariable analysisCell subsetsUrinary TNFBlood eosinophilsGlomerular diseaseThe Association of Angiogenesis Markers With Acute Kidney Injury and Mortality After Cardiac Surgery
Mansour SG, Zhang WR, Moledina D, Coca SG, Jia Y, Thiessen-Philbrook H, McArthur E, Inoue K, Koyner JL, Shlipak MG, Wilson FP, Garg AX, Ishibe S, Parikh CR, Consortium T. The Association of Angiogenesis Markers With Acute Kidney Injury and Mortality After Cardiac Surgery. American Journal Of Kidney Diseases 2019, 74: 36-46. PMID: 30955944, PMCID: PMC6591032, DOI: 10.1053/j.ajkd.2019.01.028.Peer-Reviewed Original ResearchMeSH KeywordsAcute Kidney InjuryAgedBiomarkersCardiac Surgical ProceduresCreatinineEndpoint DeterminationFemaleHumansKidneyMaleMiddle AgedNeovascularization, PhysiologicOutcome Assessment, Health CarePostoperative ComplicationsProspective StudiesReceptors, Vascular Endothelial Growth FactorRisk AssessmentUnited StatesVascular Endothelial Growth Factor AConceptsAcute kidney injuryCardiac surgeryAKI durationKidney injuryProangiogenic markersAngiogenesis markersOutcomes of AKILong-term outcomesPlasma VEGF concentrationsTRIBE-AKI cohortAntiangiogenic markersCause mortalityPreoperative concentrationsHospital dischargeProcess of angiogenesisMarker levelsVEGFR1 levelsPGF concentrationsHigher oddsMortality riskHigh riskLower oddsVEGF concentrationsAngiogenic markersSurgeryInsulin resistance and chronic kidney disease progression, cardiovascular events, and death: findings from the chronic renal insufficiency cohort study
Schrauben SJ, Jepson C, Hsu JY, Wilson FP, Zhang X, Lash JP, Robinson BM, Townsend RR, Chen J, Fogelfeld L, Kao P, Landis JR, Rader DJ, Hamm LL, Anderson AH, Feldman HI. Insulin resistance and chronic kidney disease progression, cardiovascular events, and death: findings from the chronic renal insufficiency cohort study. BMC Nephrology 2019, 20: 60. PMID: 30786864, PMCID: PMC6383235, DOI: 10.1186/s12882-019-1220-6.Peer-Reviewed Original ResearchConceptsChronic kidney disease progressionKidney disease progressionCardiovascular eventsHOMA-IRInsulin resistanceCKD progressionCause mortalityDisease progressionChronic Renal Insufficiency Cohort study participantsChronic Renal Insufficiency Cohort (CRIC) StudyCox proportional hazards modelAbsence of diabetesCohort Study participantsHomeostasis model assessmentProportional hazards modelPositive associationBackgroundInsulin resistanceCKD complicationsCardiovascular endpointsCohort studyHemoglobin A1cMetabolic syndromeKidney diseaseC-peptideHazards model
2018
Kidney Biopsy–Related Complications in Hospitalized Patients with Acute Kidney Disease
Moledina DG, Luciano RL, Kukova L, Chan L, Saha A, Nadkarni G, Alfano S, Wilson FP, Perazella MA, Parikh CR. Kidney Biopsy–Related Complications in Hospitalized Patients with Acute Kidney Disease. Clinical Journal Of The American Society Of Nephrology 2018, 13: 1633-1640. PMID: 30348813, PMCID: PMC6237071, DOI: 10.2215/cjn.04910418.Peer-Reviewed Original ResearchConceptsAcute kidney diseaseBiopsy-related complicationsLow platelet countHospitalized patientsNonhospitalized patientsKidney biopsyKidney diseasePlatelet countHigher BUNFemale sexRisk factorsLarge-sized hematomaStage 1 AKIRate of complicationsProcedure-related bleedingLarger needle gaugeAbdominal ultrasonographyBiopsy cohortBlood transfusionAngiographic interventionMultivariable analysisPostbiopsy complicationsMultivariable associationsHigh riskTransfusionWorsening Renal Function in Patients With Acute Heart Failure Undergoing Aggressive Diuresis Is Not Associated With Tubular Injury
Ahmad T, Jackson K, Rao VS, Tang WHW, Brisco-Bacik MA, Chen HH, Felker GM, Hernandez AF, O'Connor CM, Sabbisetti VS, Bonventre JV, Wilson FP, Coca SG, Testani JM. Worsening Renal Function in Patients With Acute Heart Failure Undergoing Aggressive Diuresis Is Not Associated With Tubular Injury. Circulation 2018, 137: 2016-2028. PMID: 29352071, PMCID: PMC6066176, DOI: 10.1161/circulationaha.117.030112.Peer-Reviewed Original ResearchMeSH KeywordsAcetylglucosaminidaseAcute DiseaseAcute Kidney InjuryAgedAged, 80 and overBiomarkersCreatinineCystatin CDiuresisFemaleGlomerular Filtration RateHeart FailureHepatitis A Virus Cellular Receptor 1HumansKidneyLipocalin-2MaleMiddle AgedSodium Potassium Chloride Symporter InhibitorsTime FactorsTreatment OutcomeUnited StatesConceptsKidney injury molecule-1Neutrophil gelatinase-associated lipocalinInjury molecule-1Acute heart failureGelatinase-associated lipocalinRenal tubular injuryTubular injury biomarkersAggressive diuresisROSE-AHF trialsTubular injuryInjury biomarkersRenal functionHeart failureMolecule-1D-glucosaminidaseHigh-dose loop diuretic therapyAcute heart failure treatmentKidney tubular injuryLoop diuretic therapyAcute kidney injuryGlomerular filtration rateHeart failure treatmentDiuretic therapyFurosemide equivalentsKidney injury
2017
Inflammation and cardio‐renal interactions in heart failure: a potential role for interleukin‐6
Hanberg JS, Rao VS, Ahmad T, Chunara Z, Mahoney D, Jackson K, Jacoby D, Chen M, Wilson FP, Tang WHW, Kakkar R, Testani JM. Inflammation and cardio‐renal interactions in heart failure: a potential role for interleukin‐6. European Journal Of Heart Failure 2017, 20: 933-934. PMID: 29024287, PMCID: PMC5895540, DOI: 10.1002/ejhf.963.Peer-Reviewed Original ResearchRenal 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
2016
Hypochloremia and Diuretic Resistance in Heart Failure
Hanberg JS, Rao V, Maaten J, Laur O, Brisco MA, Wilson F, Grodin JL, Assefa M, Broughton J, Planavsky NJ, Ahmad T, Bellumkonda L, Tang WH, Parikh CR, Testani JM. Hypochloremia and Diuretic Resistance in Heart Failure. Circulation Heart Failure 2016, 9: e003180. PMID: 27507113, PMCID: PMC4988527, DOI: 10.1161/circheartfailure.116.003180.Peer-Reviewed Original ResearchMeSH KeywordsAgedAged, 80 and overBiomarkersChloridesConnecticutCross-Sectional StudiesDown-RegulationDrug ResistanceFemaleFurosemideHeart FailureHumansKidneyMaleMiddle AgedOdds RatioPilot ProjectsProspective StudiesReninRisk FactorsSodiumSodium Potassium Chloride Symporter InhibitorsTime FactorsTreatment OutcomeConceptsDiuretic resistanceHeart failureCare centerSerum chloridePro-B-type natriuretic peptideChloride supplementationRenal free water excretionB-type natriuretic peptidePoor diuretic responsePlasma renin activityPlasma renin concentrationHeart failure cohortFree water excretionRecent epidemiological studiesBasic science evidenceBlood urea nitrogenSerum chloride levelsFurosemide equivalentsNeurohormonal activationRenin activityRenin concentrationCreatinine ratioLoop diureticsDiuretic responseSerum sodium
2015
Influence of Titration of Neurohormonal Antagonists and Blood Pressure Reduction on Renal Function and Decongestion in Decompensated Heart Failure
Kula AJ, Hanberg JS, Wilson FP, Brisco MA, Bellumkonda L, Jacoby D, Coca SG, Parikh CR, Tang WHW, Testani JM. Influence of Titration of Neurohormonal Antagonists and Blood Pressure Reduction on Renal Function and Decongestion in Decompensated Heart Failure. Circulation Heart Failure 2015, 9: e002333. PMID: 26699390, PMCID: PMC4741376, DOI: 10.1161/circheartfailure.115.002333.Peer-Reviewed Original ResearchConceptsBlood pressure reductionDecompensated heart failureNeurohormonal antagonistsRenal functionSBP reductionBlood pressureDiuretic efficiencyHeart failureAcute decompensated heart failure hospitalizationAcute decompensated heart failure treatmentAcute decompensated heart failurePressure reductionChronic oral medicationHeart failure admissionsHeart failure hospitalizationHeart failure treatmentSystolic blood pressureDiuretic doseImproved diuresisFailure hospitalizationOral medicationsFailure treatmentDiuresisFluid outputAdmission