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• W2017443401 abstract "HepatologyVolume 6, Issue 2 p. 312-315 EditorialFree Access The sodium retention of cirrhosis: A reappraisal Murray Epstein M.D., Corresponding Author Murray Epstein M.D. Nephrology Section Veterans Administration Medical Center Miami, Florida 33125Nephrology Section, Veterans Administration Medical Center and the Department of Medicine, University of Miami School of Medicine, 1201 N.W. 16th Street, Miami, Florida 33125===Search for more papers by this author Murray Epstein M.D., Corresponding Author Murray Epstein M.D. Nephrology Section Veterans Administration Medical Center Miami, Florida 33125Nephrology Section, Veterans Administration Medical Center and the Department of Medicine, University of Miami School of Medicine, 1201 N.W. 16th Street, Miami, Florida 33125===Search for more papers by this author First published: March/April 1986 https://doi.org/10.1002/hep.1840060226Citations: 17AboutPDF ToolsRequest permissionExport citationAdd to favoritesTrack citation ShareShare Give accessShare full text accessShare full-text accessPlease review our Terms and Conditions of Use and check box below to share full-text version of article.I have read and accept the Wiley Online Library Terms and Conditions of UseShareable LinkUse the link below to share a full-text version of this article with your friends and colleagues. Learn more.Copy URL Share a linkShare onEmailFacebookTwitterLinkedInRedditWechat References 1 M Epstein, ed. The kidney in liver disease, 2nd ed. New York: Elsevier Biomedical, 1983. 2 Epstein M. Renal functional abnormalities in cirrhosis: Pathophysiology and management. In: D Zakim, TD Boyer, eds. Hepatology. A textbook of liver disease. Philadelphia: W. B. Saunders Co., 1982: 446–464. 3 Gabuzda GJ. Cirrhosis, ascites, and edema. Clinical course related to management. Gastroenterology 1970; 58: 546–553. 4 Epstein M. Deranged sodium homeostasis in cirrhosis. Gastroenterology 1979; 76: 622–635. 5 Epstein M. Renal sodium handling in cirrhosis. In: M Epstein, ed. The kidney in liver disease, 2nd ed. New York: Elsevier Biomedical, 1983: 35–53. 6 Levy M. Pathophysiology of ascites formation. In: M Epstein, ed. The kidney in liver disease, 2nd ed. New York: Elsevier Biomedical, 1983: 245–280. 7 Epstein M. Renal effects of head-out water immersion in man: implications for an understanding of volume homeostasis. Physiol Rev 1978; 58: 529–581. 8 Epstein M, Pins DS, Arrington R, et al. Comparison of water immersion and saline infusion as a means of inducing volume expansion in man. J Appl Physiol 1975; 39: 66–70. 9 Epstein M, Re R, Preston S, Haber E. Comparison of the suppressive effects of water immersion and saline administration on reninaldosterone in normal man. J Clin Endocrinol Metab 1979; 49: 358–363. 10 Epstein M, Levinson R, Sancho J, et al. Characterization of the renin-aldosterone system in decompensated cirrhosis. Circ Res 1977; 41: 818–829. 11 Coppage WS Jr, Island DP, Cooner AE, et al. The metabolism of aldosterone in normal subjects and in patients with hepatic cirrhosis. J Clin Invest 1962; 41: 1672–1680. 12 Vecsei P, Dusterdieck G, Jahnecke J, et al. Secretion and turnover of aldosterone in various pathological states. Clin Sci 1969; 36: 241–256. 13 Rosoff L Jr, Zia P, Reynolds T, et al. Studies of renin and aldosterone in cirrhotic patients with ascites. Gastroenterology 1975; 69: 698–705. 14 Epstein M. Aldosterone in liver disease. In: M Epstein, ed. The kidney in liver disease, 2nd ed. New York: Elsevier Biomedical, 1983: 377–394. 15 Chonko AM, Bay WH, Stein JH, et al. The role of renin and aldosterone in the salt retention of edema. Am J Med 1977; 63: 881–889. 16 Wilkinson SP, Jowett TP, Slater JDH, et al. Renal sodium retention in cirrhosis: relation to aldosterone and nephron site. Clin Sci 1979; 56: 159–177. 17 Epstein M, Pins DS, Schneider N, et al. Determinants of deranged sodium and water homeostasis in decompensated cirrhosis. J Lab Clin Med 1976; 87: 822–839. 18 Nicholls KM, Shapiro MD, Kluge R, et al. Sodium excretion in advanced cirrhosis: effect of expansion of central blood volume and suppression of plasma aldosterone. Hepatology 1986; 6: 235–238. 19 Boyer TD, Zia P, Reynolds TB. Effect of indomethacin and prostaglandin A1 on renal function and plasma renin activity in alcoholic liver disease. Gastroenterology 1979; 77: 215–222. 20 Zipser RD, Hoefs JC, Speckart PF, et al. Prostaglandins: modulators of renal function and pressor resistance in chronic liver disease. J Clin Endocrinol Metab 1979; 48: 895–900. 21 Planas R, Arroyo V, Rimola A, et al. Acetylsalicylic acid suppresses the renal hemodynamic effect and reduces the diuretic action of furosemide in cirrhosis with ascites. Gastroenterology 1983; 84: 247–252. 22 Epstein M, Lifschitz M, Ramachandran M, et al. Characterization of renal PGE responsiveness in decompensated cirrhosis: implications for renal sodium handling. Clin Sci 1982; 63: 555–563. 23 Epstein M, Lifschitz M, Hoffman DS, et al. Relationship between renal prostaglandin E and renal sodium handling during water immersion in normal man. Circ Res 1979; 45: 71–80. 24 Epstein M. Renal prostaglandins and the control of renal function in liver disease. Am J Med 1986; 80(Suppl 1A): 46–55. 25 Ciabottoni G, Cinotti GA, Pierucci A, et al. Effects of sulindac and ibuprofen in patients with chronic glomerular disease. Evidence for the dependence of renal function on prostacyclin, N Engl J Med 1984; 310: 279–283. 26 Daskalopoulos G, Kronborg I, Katkov W, et al. Sulindac and indomethacin suppress the diuretic action of furosemide in patients with cirrhosis and ascites: evidence that sulindac affects renal prostaglandins. Am J Kidney Dis 1985; 6: 217–221. 27 DeWardener HD, Clarkson EM. Natriuretic hormone. Recent developments. Clin Sci 1982; 63: 415–420. 28 Epstein M, Bricker NS, Bourgoignie JJ. The presence of a natriuretic factor in urine of normal men undergoing water immersion. Kidney Int 1978; 13: 152–158. 29 Buckalew VM Jr, Gruber KA. Natriuretic hormone. In: M Epstein, ed. The kidney in liver disease, 2nd ed. New York: Elsevier, 1983: 479–499. 30 de Wardener HE, Mills IH, Clapham WF, et al. Studies on the efferent mechanism of the sodium diuresis which follows the administration of intravenous saline in the dog. Clin Sci 1961; 21: 249–258. 31 Favre H. Role of the natriuretic factor in the disorders of sodium balance. In: J Hamburger, J Crosnier, MH Maxwell, eds. Advances in nephrology, Vol 11. Chicago: Year Book Medical Publishers, Inc., 1981: 3–23. 32 Naccarato R, Messa P, D'Angelo A, et al. Renal handling of sodium and water in early chronic liver disease. Gastroenterology 1981; 81: 205–210. 33 De Bold, AJ, Borenstein HR, Veress AT, et al. A rapid and potent natriuretic response to intravenous injection of atrial myocardial extracts in rats. Life Sci 1981; 28: 89–94. 34 Cantin M, Genest J. The heart and the atrial natriuretic factor. Endocrine Reviews 1985; 6: 107–127. 35 Needleman P, Adams SP, Cole BR, et al. Atriopeptins as cardiac hormones. Hypertension 1985; 7: 469–482. 36 Atlas SA, Kleinert HD, Camargo MJ, et al. Purification, sequencing and synthesis of natriuretic and vasoactive rat atrial peptides. Nature 1984; 309: 717–719. 37 Currie MG, Geller DM, Cole BR, et al. Purifications and sequence analysis of bioactive atrial peptides (atriopeptins). Science 1984; 223: 67–69. 38 Camargo MJF, Kleinert HD, Atlas SA, et al. Ca-dependent hemodynamic and natriuretic effects of atrial extract in isolated rat kidney. Am J Physiol 1984; 246: F447–F456. 39 Maack T, Marion DN, Camargo MJF, et al. Effects of auriculin (atrial natriuretic factor) on blood pressure, renal function, and the renin-aldosterone system in dogs. Am J Med 1984; 77: 1069–1075. 40 Gauer OH. Mechanoreceptors in the intrathoracic circulation and plasma volume control. In: M Epstein, ed. The kidney in liver disease, 1st ed. New York: Elsevier Biomedical, 1978: 3–17. Citing Literature Volume6, Issue2March/April 1986Pages 312-315 ReferencesRelatedInformation" @default.
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