Medical Research Center, Department of Applied Physiology, Polish Academy of Sciences, Warsaw, Poland
Bibliografia
1. Bądzyńska, В., Sadowski, J. (1988) ANF natriuresis unrelated to increase ln GFR or wash out of medullary electrolytes. Proc. 6th Eur. Colloquium on Renal Physiology, Varna.
2. Ganguli, M,, Tobian, L., Azar, S., O’Donnell, M. (1977) Evidence that prostaglandin synthesis inhibitors Increase the concentration of sodium and chloride in rat renal medulla, Circul. Res. 40, suppl. I. I-135- I-139.
3. Gardner, K. D., Vierling, J. N. (.1969) Solids, water and solutes in papillary region of the rat kidney. Am. J. Physiol. 217. 58-64.
4. Malvin, R. L., Wilde, W. S. (1959) Washout of renal countercurrent Na gradient by osmotic diuresis. Am. J. Physiol. 197. 177-180.
5. Portalska, E., Sadowski, J. (1984) Renal medullary electrolytes: effects of furosemide assessed by studies in vivo of electrical admittance. Arch. internat. Physiol. Bioch. 92. 346-354.
6. Roy, D. R., Jamison, R. L. (1985) Countercurrent system and its regulation In: The Kidney: Physiology and Pathophysiology, eds D. W. Seldin and G. Giebisch, p. 918. Raven Press, New York.
7. Sadowski, J. (1985) Estimation of changes in renal tissue electrolytes from measurement of electrical admittance: application in the rat. Acta Physiol. Pol. 36. 339- 344.
8. Sadowski, J., Bądzyńska, В. (1988) Medullary tissue. electrolyte concentration (electrical admittance) after furosemide and acetazolamide. Proc. 6th Eur. Colloquium on Renal Physiol., Varna.
9. Sadowski, J., Kulczykowska, E. (1988) Studies of tissue electrical admittance: relation to tissue sodium for different zones of rabbit, kidney. Physiol, bohemoslov. 37. 185-187.
10. Sadowski, J., Portalska, E. (1983) Dynamic evaluation of renal electrolyte gradient by in situ tissue impedance studies. Kidney internat. 24. 800-803.
11. Stephenson, J. L., Berliner, R. W. (1983) The renal concentrating mechanism: summary. Fed. Proc. 42. 2405-2406.
12. Wright, F. S. (1982) Flow-dependent transport processes: filtration, absorption, secretion. Am. J. Physiol. 243. F1-F11.