1984
Cellular ultrastructure of Amphiuma distal nephron: effects of exposure to potassium
Stanton B, Biemesderfer D, Stetson D, Kashgarian M, Giebisch G. Cellular ultrastructure of Amphiuma distal nephron: effects of exposure to potassium. American Journal Of Physiology 1984, 247: c204-c216. PMID: 6476108, DOI: 10.1152/ajpcell.1984.247.3.c204.Peer-Reviewed Original ResearchConceptsEarly distal tubuleDistal tubulesDistal nephronPotassium adaptationRenal distal nephronLarge cell typeLate distal tubuleCortical collecting tubuleSmooth muscle cellsLate distalAfferent arteriolesEffects of exposureJuxtaglomerular apparatusMammalian cortical collecting tubuleCollecting tubuleEarly distalHenle's loopBasolateral membrane surface densityMuscle cellsPrincipal cellsCellular mechanismsNephronStereological techniquesTubulesUseful preparation
1979
A micropuncture study of the renal handling of lithium
Hayslett J, Kashgarian M. A micropuncture study of the renal handling of lithium. Pflügers Archiv - European Journal Of Physiology 1979, 380: 159-163. PMID: 573443, DOI: 10.1007/bf00582152.Peer-Reviewed Original ResearchConceptsMicropuncture studiesProximal tubulesLoop of HenleTubular fluid samplesNephron sitesNet transepithelial movementRenal handlingLithium reabsorptionDistal tubulesClearance studiesTubular fluidProximal convolutionExperimental animalsDistal portionFluid samplesTubulesTransepithelial movementHenleNephron
1975
Effect of lithium on water and electrolyte metabolism.
Galla J, Forrest J, Hecht B, Kashgarian M, Hayslett J. Effect of lithium on water and electrolyte metabolism. The Yale Journal Of Biology And Medicine 1975, 48: 305-14. PMID: 1202760, PMCID: PMC2595176.Peer-Reviewed Original ResearchConceptsEffects of lithiumElectrolyte transportSame nephron segmentsAction of vasopressinChronic administrationOral intakeLithium administrationIntravenous infusionPlasma levelsPotassium secretionElectrolyte metabolismMaximum urineCorticomedullary gradientUrinary acidificationNephron segmentsSustained increaseDistal portionAdministrationNatriuresisInfusionRatsVasopressinIntakeNephronSecretion
1969
Mechanism of change in the excretion of sodium per nephron when renal mass is reduced
Hayslett J, Kashgarian M, Epstein F. Mechanism of change in the excretion of sodium per nephron when renal mass is reduced. Journal Of Clinical Investigation 1969, 48: 1002-1006. PMID: 5771184, PMCID: PMC322314, DOI: 10.1172/jci106056.Peer-Reviewed Original ResearchConceptsSodium excretionRenal tissueProximal tubular absorptionExcretion of sodiumHealthy nephronsPopulation of nephronsRenal insufficiencyRenal ablationRenal failureTubular absorptionRenal massesSodium balanceGlomerular filtrationDistal tubulesExcretionNephronOsmotic loadEarly adjustmentStepwise increaseMechanisms of changeTissueUninephrectomyHyperfiltrationInsufficiencyRats