2019
Urine 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 disease
1991
Redistribution of cellular energy following renal ischemia
Gaudio K, Thulin G, Ardito T, Kashgarian M, Siegel N. Redistribution of cellular energy following renal ischemia. Pediatric Nephrology 1991, 5: 591-596. PMID: 1911145, DOI: 10.1007/bf00856647.Peer-Reviewed Original Research
1988
Beneficial effect of thyroxin in the treatment of ischemic acute renal failure
Sutter P, Thulin G, Stromski M, Ardito T, Gaudio K, Kashgarian M, Siegel N. Beneficial effect of thyroxin in the treatment of ischemic acute renal failure. Pediatric Nephrology 1988, 2: 1-7. PMID: 2856365, DOI: 10.1007/bf00870370.Peer-Reviewed Original ResearchMeSH KeywordsAcute Kidney InjuryAdenosine TriphosphateAnimalsIschemiaKidneyMaleRatsRats, Inbred StrainsSodium-Potassium-Exchanging ATPaseThyroxineTime FactorsConceptsAcute renal failureIschemic acute renal failureRenal failureIschemic controlsNormal salineSaline-treated ischemic controlsBeneficial effectsBetter kidney functionDose of T4Min of reflowT4-treated ratsEffect of thyroxinRenal functionKidney functionNS animalsRenal ischemiaInulin clearanceSaline controlsDay 3Day 7IschemiaT4 animalsRenal ATPCellular mechanismsSignificant increase
1984
Beneficial effect of thyroxin on recovery from toxic acute renal failure
Siegel N, Gaudio K, Katz L, Reilly H, Ardito T, Hendler F, Kashgarian M. Beneficial effect of thyroxin on recovery from toxic acute renal failure. Kidney International 1984, 25: 906-911. PMID: 6471672, DOI: 10.1038/ki.1984.108.Peer-Reviewed Original ResearchConceptsToxic acute renal failureAcute renal failureNormal salineRenal failureBeneficial effectsInjected ratsOnly normal salineT4-treated ratsEffect of thyroxinNonspecific systemic effectsT4-treated animalsRenal insultHemodynamic effectsRenal functionRenal injuryControl ratsGlomerular functionUrine flowSimilar doseSystemic effectsEnhanced recoveryPrompt recoveryKidney preparationRatsFENa
1980
Enhanced recovery from acute renal failure by the postischemic infusion of adenine nucleotides and magnesium chloride in rats
Siegel N, Glazier W, Chaudry I, Gaudio K, Lytton B, Baue A, Kashgarian M. Enhanced recovery from acute renal failure by the postischemic infusion of adenine nucleotides and magnesium chloride in rats. Kidney International 1980, 17: 338-349. PMID: 7401453, DOI: 10.1038/ki.1980.39.Peer-Reviewed Original ResearchConceptsAcute renal failureRenal injuryRenal failureAcute renal injuryIschemic renal injuryAdenine nucleotidesFocal cellular necrosisElevated FENaRenal insultIschemic kidneyIschemic periodTubular functionAcute insultNonischemic kidneysPostischemic infusionFunctional impairmentTubular cellsDegree of improvementCellular necrosisRatsInfusionCINUltrastructural changesUltrastructural studyFENaThe importance of nonrenal involvement in hemolytic-uremic syndrome.
Upadhyaya K, Barwick K, Fishaut M, Kashgarian M, Siegel N. The importance of nonrenal involvement in hemolytic-uremic syndrome. Pediatrics 1980, 65: 115-20. PMID: 7355005, DOI: 10.1542/peds.65.1.115.Peer-Reviewed Original Research
1977
Renal function and cortical blood flow during the recovery phase of acute renal failure
Siegel N, Gunstream S, Handler R, Kashgarian M. Renal function and cortical blood flow during the recovery phase of acute renal failure. Kidney International 1977, 12: 199-204. PMID: 926611, DOI: 10.1038/ki.1977.101.Peer-Reviewed Original ResearchMeSH KeywordsAcute Kidney InjuryAnimalsBlood PressureGlomerular Filtration RateKidneyKidney CortexMaleRatsRegional Blood FlowConceptsTotal renal blood flowGlomerular filtration rateAcute renal failureCortical blood flowRenal failureRenal functionBlood flowSham-injected control animalsOuter cortexOuter cortical perfusionRenal blood flowRecovery phaseCortical perfusionTubular functionSignificant diuresisFiltration rateInulin clearanceControl animalsDay 4Control valuesAbsolute perfusionProgressive improvementCortexEarly recovery phaseParallel increase
1976
Hemodynamic aspects in development and recovery phases of experimental postischemic acute renal failure.
Kashgarian M, Siegel N, Ries A, DiMeola H, Hayslett J. Hemodynamic aspects in development and recovery phases of experimental postischemic acute renal failure. Kidney International Supplement 1976, 6: s160-8. PMID: 1068320.Peer-Reviewed Original Research
1974
Clinical spectrum of postpartum renal failure
Finkelstein F, Kashgarian M, Hayslett J. Clinical spectrum of postpartum renal failure. The American Journal Of Medicine 1974, 57: 649-654. PMID: 4432867, DOI: 10.1016/0002-9343(74)90019-9.Peer-Reviewed Original ResearchConceptsPostpartum renal failureRenal failureFibrin depositionExtensive fibrin depositionFulminant renal failureMinor renal dysfunctionRenal functional abnormalitiesSpectrum of diseaseRenal dysfunctionFatal courseClinical spectrumPostpartum periodRenal abnormalitiesRenal vasculatureFunctional abnormalitiesPatientsAbnormalitiesFailureDysfunctionDiseaseVasculature