Aldosterone, the most potent naturally occurring mineralocorticoid, plays a major role in regulation of the amounts of both sodium and potassium in the body. The hormone acts on the kidney tubules to increase both sodium reabsorption and the secretion of potassium ions. Because of these two simultaneous actions, there would appear to be a conflict of interest in constructing a homeostatic regulatory system for the simultaneous maintenance of the balance of the two cations, sodium and potassium, by this one hormone. Because of the two concurrent actions of aldosterone, one might expect that changes in its activity would inevitably accomplish defense in the balance of one ion at the expense of the other. One might expect, for example, that in...
An incompletely defined interregulatory balance exists between potassium, insulin, and aldosterone. ...
The mechanisms through which aldosterone promotes apparently opposite effects like salt reabsorption...
Maintenance of potassium homeostasis presents a unique and complex problem in electrolyte regulation...
Aldosterone, the most potent naturally occurring mineralocorticoid, plays a major role in regulation...
markdownabstract__Abstract__ Maintaining total body Na+ and K+ balance is essential to the surviv...
Aldosterone and potassium homeostasis. The presently accepted regulators of the homeostatic excretio...
Potassium supplementation ameliorates mineralocorticoid-induced sodium retention. Potassium depletio...
potassium handling by the aldosterone-sensitive distal nephron: the pivotal role of the distal and c...
textabstractDuring hypovolemia and hyperkalemia, the kidneys defend homeostasis by Na+ retention and...
Homeostasis of fluid and electrolytes is a key physiological process that is tightly controlled. Fai...
AbstractExtracellular fluid volume (ECF) is maintained within normal limits principally by the renal...
Long term administration of aldosterone (1) or desoxycorticosterone acetate (DCA) (2) to nor-mal sub...
Potassium homeostasis in man is normally accomplished by appropriate changes in the renal excretion ...
Aldosterone-independent mechanisms may contribute to K(+) homeostasis. We studied aldosterone syntha...
In recent years, our understanding of the physiology of the aldosterone-sensitive distal nephron (AS...
An incompletely defined interregulatory balance exists between potassium, insulin, and aldosterone. ...
The mechanisms through which aldosterone promotes apparently opposite effects like salt reabsorption...
Maintenance of potassium homeostasis presents a unique and complex problem in electrolyte regulation...
Aldosterone, the most potent naturally occurring mineralocorticoid, plays a major role in regulation...
markdownabstract__Abstract__ Maintaining total body Na+ and K+ balance is essential to the surviv...
Aldosterone and potassium homeostasis. The presently accepted regulators of the homeostatic excretio...
Potassium supplementation ameliorates mineralocorticoid-induced sodium retention. Potassium depletio...
potassium handling by the aldosterone-sensitive distal nephron: the pivotal role of the distal and c...
textabstractDuring hypovolemia and hyperkalemia, the kidneys defend homeostasis by Na+ retention and...
Homeostasis of fluid and electrolytes is a key physiological process that is tightly controlled. Fai...
AbstractExtracellular fluid volume (ECF) is maintained within normal limits principally by the renal...
Long term administration of aldosterone (1) or desoxycorticosterone acetate (DCA) (2) to nor-mal sub...
Potassium homeostasis in man is normally accomplished by appropriate changes in the renal excretion ...
Aldosterone-independent mechanisms may contribute to K(+) homeostasis. We studied aldosterone syntha...
In recent years, our understanding of the physiology of the aldosterone-sensitive distal nephron (AS...
An incompletely defined interregulatory balance exists between potassium, insulin, and aldosterone. ...
The mechanisms through which aldosterone promotes apparently opposite effects like salt reabsorption...
Maintenance of potassium homeostasis presents a unique and complex problem in electrolyte regulation...