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• W1567883475 abstract "Article1 January 1948URINE VOLUME AND TOTAL RENAL SODIUM EXCRETION DURING WATER DIURESISANDREW J. CRUTCHFIELD JR., J. EDWIN WOOD JR.ANDREW J. CRUTCHFIELD JR.Search for more papers by this author, J. EDWIN WOOD JR.Search for more papers by this authorAuthor, Article, and Disclosure Informationhttps://doi.org/10.7326/0003-4819-28-1-28 SectionsAboutPDF ToolsAdd to favoritesDownload CitationsTrack CitationsPermissions ShareFacebookTwitterLinkedInRedditEmail ExcerptThe value of drastically reducing sodium intake in treating the edema of congestive heart failure is generally accepted. Concerning the optimal water intake during such sodium restriction recommendations have ranged from the older view that fluids should be drastically restricted1to the opposite extreme, that fluids should be forced even to five or ten liters daily.2While many clinicians3, 4, 5, 6, 7, 8favor a middle course and allow moderate or even ad libitum fluid intake, it would seem desirable to know how fluid intake might be adjusted to assure in the average patient the greatest possible excretion of...Bibliography1. WHITE PD: Heart disease, 3rd edition, 1944, 790-792. Google Scholar2. SCHEMM FR: High fluid intake in management of edema, especially cardiac edema. I. Details and basis of regime, Ann. Int. Med., 1942, xvii, 952-969. II. Clinical observations and data, ibid., 1944, xxi, 937-976. LinkGoogle Scholar3. SCHROEDER HA: Studies on congestive heart failure. I. Importance of restriction of salt as compared to water, Am. Heart Jr., 1941, xxii, 141-153. CrossrefGoogle Scholar4. PROGERGINSBURGMAGENDANTZ SEH: Effects of ingestion of excessive amounts of sodium chloride and water on patients with heart disease, Am. Heart Jr., 1942, xxiii, 555-566. CrossrefGoogle Scholar5. ELLIS LB: Relative importance of salt and fluid in the management of congestive heart failure, Trans. New Eng. Heart Assoc., 1942, 33-34. Google Scholar6. BRIDGESWHEELERWHITE WCEOPD: Low sodium diet and free fluid intake in the treatment of congestive heart failure, New Eng. Jr. Med., 1946, ccxxxiv, 573-578. CrossrefGoogle Scholar7. WHEELERBRIDGESWHITE EOWCPD: Diet low in salt (sodium) in congestive heart failure, Jr. Am. Med. Assoc., 1947, cxxxiii, 16-20. CrossrefGoogle Scholar8. LEEVYSTRAZZAJAFFIN CMJAAE: Fluids in congestive heart failure, Jr. Am. Med. Assoc., 1946, cxxxi, 1120-1125. CrossrefGoogle Scholar9. BLUMGARTGILLIGANLEVYBROWN HLDRRCMG: The effect of diuretics on water and salt metabolism, Trans. Assoc. Am. Phys., 1932, xlvii, 304-307. Google Scholar10. GOLDRING W: Edema in congestive heart failure, Arch. Int. Med., 1929, xliv, 465-476. CrossrefGoogle Scholar11. REHBERG PB: Studies on kidney function. II. The excretion of urea and chlorine analyzed according to a modified filtration-reabsorption theory, Biochem. Jr., 1926, xx, 461-482. CrossrefGoogle Scholar12. HOLMES JH: Studies of water exchange in dogs with reduced serum electrolyte concentration, Am. Jr. Physiol., 1940, cxxix, 384-385. Google Scholar13. MCCANCEWIDDOWSON RAEM: The secretion of urine in man during experimental salt deficiency, Jr. Physiol., 1937-38, xci, 222-231. CrossrefGoogle Scholar14. NEWBURGHLASHMET LHFH: A comparative study of the excretion of water and solids by normal and abnormal kidneys, Jr. Clin. Invest., 1932, xi, 1003-1009. Google Scholar15. SHERMAN HC: Chemistry of food and nutrition, 7th edition, 1946, 198-353. Google Scholar16. HIGGINS HL: The influence of food, posture, and other factors on the alveolar carbon dioxide tension in man, Am. Jr. Physiol., 1914, xxxiv, 114-126. CrossrefGoogle Scholar17. LEATHES JB: Renal efficiency tests in nephritis and the reaction of the urine, British Med. Jr., 1919, ii, 165-166. CrossrefGoogle Scholar18. RIOCH DM: Water diuresis, Jr. Physiol., 1930, lxx, 45-52. CrossrefGoogle Scholar19. SHANNON JA: The control of the renal excretion of water. II. The rate of liberation of the posterior pituitary antidiuretic hormone in the dog, Jr. Exper. Med., 1942, lxxvi, 387-399. CrossrefGoogle Scholar20. SHANNON JA: The control of renal excretion of water. I. The effect of variations in the state of hydration on water excretion in dogs with diabetes insipidus, Jr. Exper. Med., 1942, lxxvi, 371-386. CrossrefGoogle Scholar21. BUTLERTUTHILL AME: An application of the uranyl zinc acetate method for determination of sodium in biological material, Jr. Biol. Chem., 1931, xciii, 171. CrossrefGoogle Scholar22. ROBYPFEIFFER CCC: Relative increase in chloride excretion in the dog after graduated doses of mercurial diuretics, Am. Jr. Physiol., 1941-42, cxxxv, 591-594. Google Scholar23. LINDEBOOM GA: Beobachtungen bei einem Fall von Diabetes insipidus und mellitus, Deutsch. Arch. klin. Med., 1933, clxxv, 74-89. Google Scholar24. BLUMGARTGILLIGANLEVYBROWNVOLK HLDRRCMGMC: Action of diuretic drugs. I. Action of diuretics in normal persons, Arch. Int. Med., 1934, liv, 40-85. CrossrefGoogle Scholar25. GAMBLEBLACKFANHAMILTON JLKDB: A study of the diuretic action of acid producing salts, Jr. Clin. Invest., 1924-25, i, 359-388. Google Scholar26. WARRENSTEAD JVEA: Fluid dynamics in congestive failure: interpretation of mechanisms producing edema, increased plasma volume and elevated venous pressure in certain patients with prolonged congestive failure, Arch. Int. Med., 1944, lxxiii, 138-147. CrossrefGoogle Scholar27. PETERSWAKEMANEISENMANLEE JPAMAJC: Total acid base equilibrium of plasma in health and disease. XII. A study of renal edema, Jr. Clin. Invest., 1928-29, vi, 577-596. Google Scholar28. SMITH HW: The physiology of the kidney, 1937, 201-234. Google Scholar29. PRIESTLEY JG: The regulation of the excretion of water by the kidneys, Jr. Physiol., 1921, lv, 305-318. CrossrefGoogle Scholar30. SMITHMACKAY FMEM: Influence of posterior pituitary extracts on sodium balance in normal subjects and in patients with diabetes insipidus, Proc. Soc. Exper. Biol. and Med., 1936, xxxiv, 116-118. CrossrefGoogle Scholar31. WALKERSCHMIDTELSOMJOHNSON AMCFKACG: Renal blood flow of unanesthetized rabbits and dogs in diuresis and antidiuresis, Am. Jr. Physiol., 1937, cxviii, 95-110. Google Scholar32. ADOLPH EF: The regulation of the water content of the human organism, Jr. Physiol., 1920-21, liv, cxxiii-cxxiv. Google Scholar This content is PDF only. To continue reading please click on the PDF icon. Author, Article, and Disclosure InformationAffiliations: Charlottesville, Virginia*Read before the meeting of the Southern Society for Clinical Research, New Orleans, Louisiana, January 24, 1947. Received for publication July 1, 1947.From the Department of Internal Medicine, School of Medicine, University of Virginia, Charlottesville, Virginia. PreviousarticleNextarticle Advertisement FiguresReferencesRelatedDetails Metrics Cited byRenal lithium handling during water loading and subsequent d-DAVP-induced anti-diuresisXanthinderivate als DiureticaPhysiology of the kidneyDie Natriurese bei oraler HydratationRENAL EFFECTS OF VERATRIDINEACTH Treatment for Novurit-Resistant Cardiac EdemaEinflu� von peroral verabreichtem Wasser und Salzl�sungen auf die NierenfunktionREFERENCESCompartmental Distribution and Shift of Water and Electrolytes in Pre-Eclampsia**Presented at the Twenty-first Annual Meeting of the Central Association of Obstetricians and Gynecologists, Houston, Texas, Nov. 5 to 7, 1953.††Aided in part by the Edward G. Schlieder Educational Foundation of New Orleans, La.The Mathematical Integration of Renal Chloride Excretion 1 January 1948Volume 28, Issue 1Page: 28-40KeywordsEdemaExcretionHeart failureSodiumUrine ePublished: 1 December 2008 Issue Published: 1 January 1948 PDF downloadLoading ..." @default.
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