References
- Ames R. P., Borkowski A. J., Sicinski A. M., Laragh J. H. Prolonged infusions of angiotensin II and norepinephrine and blood pressure, electrolyte balance, and aldosterone and Cortisol secretion in normal man and in cirrhosis with ascites. J. clin. Invest. 1965; 44: 1171
- August J. T., Nelson D. H., Thorn G. W. Response of normal subjects to large amounts of aldosterone. J. clin. Invest. 1958; 37: 1549
- Barger A. C., Berlin R. D., Tulenko J. E. Infusion of aldosterone 9-α-fluorohydro-cortisone and antidiuretic hormone into the renal artery of normal and adrenalectomized, unanesthetized dogs: effect on electrolyte and water excretion. Endocrinology 1958; 62: 804
- Cowley A. W., Jr., McCaa R. E. Acute and chronic dose-response relationships for angiotensin, aldosterone, and arterial pressure at varying levels of sodium intake. Circ. Res. 1976; 39: 788
- Cox M., Sterns R. H., Singer I. The defense against hyperkalemia: The roles of insulin and aldosterone. New Engl. J. Med. 1978; 299: 525
- Giebisch G. Renal potassium excretion. The Kidney, C. Rouiller, A. F. Muller. Academic Press, New York and London 1971; Vol. III: 329–382
- Hall J. E., Guyton A. C., Trippodo N. C., Lohmeier T. E., McCaa R. E., Cowley A. W., Jr. Intrarenal control of electrolyte excretion by angiotensin II. Am. J. Physiol. 1977; 232(6)F538
- Hall J. E., Coleman T. G., Guyton A. C., Balfe J. W., Salgado H. C. Intrarenal role of angiotensin II and (des-Asp1) angiotensin II. Am. J. Physiol. 1979; 236(3)F252
- Hall J. E., Guyton A. C., Smith M. J., Jr., Coleman T. G. Blood pressure and renal function during chronic changes in sodium intake: role of angiotensin. Am J. Physiol. 1980; 239(8)F271
- Hamilton W., McCandles A. E., Ireland J. T., Gray C. E. Hypoaldosteronism in three sibs due to 18-dehydrogenase deficiency. Arch. Dis. Child. 1976; 51: 576
- Hulter H. N., Licht J. H., Glynn R. D., Sebastian A. Renal acidosis in mineralo-corticoid deficiency is not dependent on NaCl depletion or hyperkalemia. Am. J. Physiol. 1979; 236(3)F283
- Johnson M. D., Malvin R. L. Stimulation of renal sodium reabsorption by angiotensin II. Am. J. Physiol. 1977; 232(4)F298
- Katznelson D., Sack J., Kraimen Z., Lunenfeld B. Congenital hypoaldosteronism. Thirteen year follow-up in identical twins. Horm. Res. 1979; 11: 22
- Lipsett M. B., Pearson O. H. Sodium depletion in adrenalectomized humans. J. clin. Invest. 1958; 37: 1394
- Morris D. J., Davis R. P. Aldosterone: current concepts. Metabolism 1974; 23: 473
- Oelkers W., Schöneshöfer M., Schultze G., Bauer B. Effect of prolonged low-dose infusions of IIe5-angiotensin II on blood pressure, aldosterone and electrolyte excretion in sodium replete man. Klin. Wschr. 1978; 56: 37
- Rösier A., Rabinowitz D., Theodor R., Ramirez L. C., Ulick S. The nature of the defect in a salt-wasting disorder in Jews of Iran. J. clin. Endocr. Metab. 1977; 44: 279
- Schwartz W. B., van Ypersele de Strihou C., Kassirer J. P. Role of anions in metabolic alkalosis and potassium deficiency. New Engl. J. Med. 1968; 279: 630
- Simopoulos A. P., Bartter F. C. The metabolic consequences of chloride deficiency. Nutr. Rev. 1980; 38: 201
- Veldhuis J. D., Kulin H. E., Santen R. J., Wilson T. E., Melbye J. C. Inborn error in the terminal step of aldosterone biosynthesis. New Engl. J. Med. 1980; 303: 117
- Waugh W. H. Angiotensin II: local renal effects of physiological increments of concentration. Can. J. Physiol. Pharmacol. 1972; 50: 711