2021
Active B-Type Natriuretic Peptide Measured by Mass Spectrometry and Response to Sacubitril/Valsartan
Dillon EM, Wei SD, Gupta DK, Nian H, Rodibaugh BS, Bachmann KN, Naftilan AJ, Stevenson LW, Brown NJ. Active B-Type Natriuretic Peptide Measured by Mass Spectrometry and Response to Sacubitril/Valsartan. Journal Of Cardiac Failure 2021, 27: 1231-1239. PMID: 34133968, PMCID: PMC8578199, DOI: 10.1016/j.cardfail.2021.05.026.Peer-Reviewed Original ResearchConceptsSacubitril/valsartanSacubitril/valsartan treatmentHeart failureBNP1-32NT-proBNPValsartan treatmentActive B-type natriuretic peptideEnd-stage renal diseaseB-type natriuretic peptideNT-proBNP immunoassaysPg/mLRenal diseaseNatriuretic peptideBNP productionHealthy volunteersBNPPg/ValsartanPatientsInhibition of degradationPeptide immunoassayBNP degradationTreatmentImmunoassayMS accounts
2016
B-Type Natriuretic Peptide, Aldosterone, and Fluid Management in ARDS
Semler MW, Marney AM, Rice TW, Nian H, Yu C, Wheeler AP, Brown NJ, Network N. B-Type Natriuretic Peptide, Aldosterone, and Fluid Management in ARDS. CHEST Journal 2016, 150: 102-111. PMID: 27018313, PMCID: PMC4980545, DOI: 10.1016/j.chest.2016.03.017.Peer-Reviewed Original ResearchConceptsB-type natriuretic peptideAcute respiratory distress syndromeConservative fluid managementRespiratory distress syndromeLiberal fluid managementVentilator-free daysNatriuretic peptideFluid managementDistress syndromeAldosterone concentrationOverall mortalityB-type natriuretic peptide concentrationsCatheter Treatment TrialNatriuretic peptide concentrationsLow aldosterone concentrationsHospital mortalityMedian aldosteroneMultivariable analysisStudy enrollmentTreatment trialsPlasma concentrationsRetrospective analysisFluid balanceAldosteroneFluid strategyCombined Angiotensin Receptor Antagonism and Neprilysin Inhibition
Hubers SA, Brown NJ. Combined Angiotensin Receptor Antagonism and Neprilysin Inhibition. Circulation 2016, 133: 1115-1124. PMID: 26976916, PMCID: PMC4800749, DOI: 10.1161/circulationaha.115.018622.Peer-Reviewed Original ResearchMeSH KeywordsAbnormalities, Drug-InducedAminobutyratesAngioedemaAngiotensin Receptor AntagonistsBiphenyl CompoundsBradykininContraindicationsDrug CombinationsDrug CostsDrug SynergismEnalaprilEnzyme InhibitorsFemaleFollow-Up StudiesHeart FailureHumansHyperkalemiaHypertensionKidneyMulticenter Studies as TopicNatriuretic PeptidesNeprilysinPregnancyProdrugsProspective StudiesPyridinesRandomized Controlled Trials as TopicStroke VolumeTetrazolesThiazepinesValsartanConceptsValsartan/sacubitrilReduced ejection fractionHeart failureNatriuretic peptideEjection fractionN-terminal pro-brain natriuretic peptideNeprilysin inhibitor prodrug sacubitrilPro-brain natriuretic peptideAngiotensin receptor blocker valsartanAngiotensin receptor antagonismAngiotensin receptor blockersHeart Failure TrialReceptor blocker valsartanAngiotensin receptor antagonistsBrain natriuretic peptideOngoing clinical trialsMechanism of actionNeprilysin inhibitionAldosterone antagonistsAldosterone systemReceptor blockersBlood pressureFailure TrialPathophysiological mechanismsReceptor antagonism
2014
Hypertension Is Associated With Preamyloid Oligomers in Human Atrium: A Missing Link in Atrial Pathophysiology?
Sidorova TN, Mace LC, Wells KS, Yermalitskaya LV, Su P, Shyr Y, Atkinson JB, Fogo AB, Prinsen JK, Byrne JG, Petracek MR, Greelish JP, Hoff SJ, Ball SK, Glabe CG, Brown NJ, Barnett JV, Murray KT. Hypertension Is Associated With Preamyloid Oligomers in Human Atrium: A Missing Link in Atrial Pathophysiology? Journal Of The American Heart Association 2014, 3: e001384. PMID: 25468655, PMCID: PMC4338732, DOI: 10.1161/jaha.114.001384.Peer-Reviewed Original ResearchConceptsAtrial samplesAtrial amyloidosisMitral valve replacement/repairValve replacement/repairCoronary Artery Bypass GraftingHuman atriumArtery Bypass GraftingElective cardiac surgeryAortic valve replacementPresence of hypertensionCongestive heart failureCoronary artery diseaseAtrial natriuretic peptideReplacement/repairAtrial pathophysiologyBypass GraftingClinical hypertensionMost patientsValve replacementArtery diseaseCardiac surgeryHeart failureNatriuretic peptideAtrial arrhythmiasMean ageDipeptidyl‐Peptidase 4 Inhibition and the Vascular Effects of Glucagon‐like Peptide‐1 and Brain Natriuretic Peptide in the Human Forearm
Devin JK, Pretorius M, Nian H, Yu C, Billings FT, Brown NJ. Dipeptidyl‐Peptidase 4 Inhibition and the Vascular Effects of Glucagon‐like Peptide‐1 and Brain Natriuretic Peptide in the Human Forearm. Journal Of The American Heart Association 2014, 3: e001075. PMID: 25158865, PMCID: PMC4310400, DOI: 10.1161/jaha.114.001075.Peer-Reviewed Original ResearchConceptsGlucagon-like peptide-1Brain natriuretic peptideForearm blood flowNatriuretic peptideDPP4 inhibitionBlood flowPeptide-1Placebo-controlled crossover studyDipeptidyl peptidase-4 inhibitorsDipeptidyl peptidase-4 inhibitionForearm vascular resistanceDose-dependent vasodilationMean arterial pressureGLP-1 concentrationsHuman forearmSitagliptin useDirect vasodilatorVascular resistanceVasodilator responseVascular effectsArterial pressureBrachial arteryDiabetes mellitusGlycemic controlNorepinephrine release