2024
A kidney-hypothalamus axis promotes compensatory glucose production in response to glycosuria
Faniyan T, Zhang X, Morgan D, Robles J, Bathina S, Brookes P, Rahmouni K, Perry R, Chhabra K. A kidney-hypothalamus axis promotes compensatory glucose production in response to glycosuria. ELife 2024, 12 DOI: 10.7554/elife.91540.4.Peer-Reviewed Original ResearchGlucose productionEndogenous glucose productionReabsorption of nutrientsLoss of glucoseHypothalamic-pituitary-adrenal axisNormal energy supplyProteomic analysisCompensatory increaseAfferent renal nervesAfferent renal denervationPlasma proteomic analysisDefense mechanismsAcute phase proteinsRenal denervationKO miceSGLT2 inhibitorsKnockout miceRenal nervesAfferent nervesEfficiency of drugsBody's defense mechanismsGlycosuriaGlucosePhase proteinsTreat hyperglycemia
2020
Pathophysiology of Diuretic Resistance and Its Implications for the Management of Chronic Heart Failure
Wilcox CS, Testani JM, Pitt B. Pathophysiology of Diuretic Resistance and Its Implications for the Management of Chronic Heart Failure. Hypertension 2020, 76: 1045-1054. PMID: 32829662, PMCID: PMC10683075, DOI: 10.1161/hypertensionaha.120.15205.Peer-Reviewed Reviews, Practice Guidelines, Standards, and Consensus StatementsConceptsChronic heart failureDiuretic resistanceHeart failureHigh daily salt intakeDiuretic-resistant patientsSequential nephron blockadeDaily salt intakeHypochloremic metabolic alkalosisLoop of HenleMultiple diureticsRenal nervesReflex activationLoop diureticsSalt intakeRecurrent hospitalizationsVolume overloadPathophysiological mechanismsSingle doseSodium outputMetabolic alkalosisPharmacokinetic mechanismsDistal tubulesDiureticsProximal tubulesRenal tubules
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