Das Verhalten der Elektrolyte bei Lungenerkrankungen

  • R. Hoigné
Part of the Handbuch der Inneren Medizin book series (INNEREN, volume 4 / 0)

Zusammenfassung

Voraussetzung für das Verständnis der Elektrolytveränderungen bei Erkrankungen der Lungen sind einige Kenntnisse über die Zusammenhänge zwischen Stoffwechsel der Atmungsgase und der Elektrolyte bei Hypo- und Hyperventilation.

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Literatur

  1. Albright, F., and E.Reifenstein: The parathyroid glands and metabolic bone disease. Baltimore: Williams & Wilkins Company 1948.Google Scholar
  2. Albright, F., and H. W.Sulkowitch: The effect of vit. D on calcium and phorphorus metabolism. J. Clin. Invest. 17, 305 (1938).PubMedCrossRefGoogle Scholar
  3. Atchley, D. W., and E. M.Benedict: Serum electrolyte studies in normal and pathological conditions: Pneumonia, renal edema, cardiac edema, uremic and diabetic acidosis. J. Clin. Invest. 10, 265 (1931).CrossRefGoogle Scholar
  4. Austin, J. H., and F. W.Sunderman: Studies of serum electrolytes. V. Urinary electrolyte excretion in pneumonia. J. Clin. Invest. 7, 333 (1929).PubMedCrossRefGoogle Scholar
  5. Bergstrom, W. H., and W. M.Wallace: Bone as a sodium and potassium recervoir. J. Clin. Invest. 83, 867 (1954).CrossRefGoogle Scholar
  6. Berliner, R. W., TH. J.Kennedy and J. G.Hilton: Renal mechanisms for excretion of potassium. Amer. J. Physiol. 162, 348 (1950).PubMedGoogle Scholar
  7. Birk, W.: Untersuchungen über den Stoffwechsel des Kindes im Fieber. Abh. Kinderheilk. 9, 1 (1926).Google Scholar
  8. Brazeau, P., and A.Gilman: Effect of plasma CO2 tension on renal tubular reabsorption of bicarbonate. Amer. J. Physiol. 175, 33 (1953).PubMedGoogle Scholar
  9. Brown, E. B., G. S.Campbell, J. O.Elam, F.Gollan, A.Hemingway and M. B.Vischer: Electrolyte changes with chronic passive hyperventilation in man. Appl. Physiol. 1, 848 (1949).Google Scholar
  10. Cogan, D. G., F.Albright and F. C.Bratter: Hypercalcaemia and band-keratopathy. Report of nineteen cases. Arch. Ophthalm. 40, 624 (1948).CrossRefGoogle Scholar
  11. Cooke, R. E., W. E.Segar, D. B.Cheek, F. E.Covelle and D. C.Darrow: The extrarenal correction of alcalosis associated with potassium deficiency. J. Clin. Invest. 31 (II), 798 (1952).PubMedCrossRefGoogle Scholar
  12. Creveld, S. VAN: Disturbances of the metabolism in BESNIER-BOECK’S disease. Ann. paediatr. (Basel) 157, 1 (1941).Google Scholar
  13. Curtis, A. C., H.Taylor and R. H.Gekin: Sarcoidosis. Results of treat-ment with varying amounts of calciferol and dihydrotachysterol. J. Invest. Dermat. 9, 131 (1947).Google Scholar
  14. Darrow, D. C.: Body-fluid-physiology: the relation of tissue composition to problems of water and electrolyte balance. New England J. Med. 233, 91 (1945).CrossRefGoogle Scholar
  15. Dent, C. E., F. V.Flynn and J. D. N.Nabarro: Hypercalcaemia and impairment of renal function in generalized sarcoidosis. Brit. Med. J. 1953 II, 808.CrossRefGoogle Scholar
  16. Dorman, P. J., W. J.Sullivan and R. F.Pitts: The renal response to acute respiratory acidosis. J. Clin. Invest. 33, 82 (1954).PubMedCrossRefGoogle Scholar
  17. Duncan, G. G.: Diseases of metabolism. Philadelphia u. London: W. B. Saunders Company 1947.Google Scholar
  18. Elkington, J. R., R. B.Singer, E. S.Barker and J. K.Clark: Effects of acute respiratory acidosis on electrolyte excretion in man. Federat. Proc. 12, 38 (1953).Google Scholar
  19. Finkenstaedt, J. T., M. P.O’meara and J. P.Merrill: Observations on the volume of distribution of inulin in anuric subjects. J. Clin. Invest. 32, 209 (1953).PubMedCrossRefGoogle Scholar
  20. Freeman, F.-H., and W. O.Fenn: Changes in carbon dioxyde stores of rats due to atmospheres low in oxygen or high in carbon dioxyde. Amer. J. Physiol. 174, 422 (1953).PubMedGoogle Scholar
  21. Freyberg, R. H., and R. L.Grant: Calcium and phosphorus metabolism in a verified case of pituitary basophilism. Arch. Int. Med. 58, 212 (1936).Google Scholar
  22. Gamble, J. I.: Companionship of water and electrolytes in the organisation of body fluids. California: Stanford University Press Stanford 1951.Google Scholar
  23. Giebisch, G., L.Berger and R. F.Pitts: The extrarenal response to acute acid-base disturbances of respiratory origin. J. Clin. Invest. 34, 231 (1955).PubMedCrossRefGoogle Scholar
  24. Gollwitzer-Meier, K.: Über einige Beziehungen zwischen der Reaktion und dem gesamten Ionengleichgewicht im Blut. Biochem. Z. 160, 433 (1925).Google Scholar
  25. Gutman, A. B., and E. B.Gutman: Relation of serum-calcium to serum albumin and Globuline. J. Clin. Invest. 16, 903 (1937).PubMedCrossRefGoogle Scholar
  26. Gutman, A. B., T. L.Tyson and E. B. GUTMAN: Serum calcium, inorganic phosphorus and phosphatase activity in hyperparathyroidism, PAGET’s disease, multiple myeloma and neoplastic disease of bones. Arch. Int. Med. 57, 379 (1936).CrossRefGoogle Scholar
  27. György, P., u. H.Vollmer: Über den Chemismus der Atmungs- tetanie. Biochem. Z. 140, 391 (1923).Google Scholar
  28. Haldimann, C.: Hornhaut- und Bindehautveränderungen bei BoECKScher Krankheit. Ophthalmologica (Basel) 102, 138 (1941).CrossRefGoogle Scholar
  29. Hallmann, N.: Calcium metabolism in interstitial plasma cell pneumonia in infants. Elektrolyt-Symposium, Kinderspital Zürich 1954.Google Scholar
  30. Hallmann, N., U. I.Salmi: On plasma calcium: In cord blood and in the newborn. Arch. Pediatr. 42, 126 (1953).Google Scholar
  31. Hamburger, J., u. G.Mathé: Le syndrome d’hyperhydration cellulaire. Schweiz, med. Wschr. 1958, 277.Google Scholar
  32. Harrell, G. T., and S.Fisher: Blood chemical changes in BOECK’S sarcoid with particular reference to protein, calcium and phosphatase values. J. Clin. Invest. 18, 687 (1939).PubMedCrossRefGoogle Scholar
  33. Hawk, P. B., and O.Berghem: Practical Physiological chemistry, 11. Aufl. Philadelphia: P. Blakiston Son & Co. 1937.Google Scholar
  34. Henderson, Y., and H. W.Haggard: Respiratory regulation of the CO2 capacity of the blood. J. of Biol. Chem. 83, 333–355 (1918).Google Scholar
  35. Henneman, P. H., E. L.Carroll and E. F.Dempsey: The mechanism responsible for hypercalcuria in sarcoid. J. Clin. Invest. 33, 941 (1954).Google Scholar
  36. Hoigne, R., U. A. F.Essellier: Kaliumstoffwechsel. Verh. dtsch. Ges. inn. Med. 01 (1955)Google Scholar
  37. Howland U.Mariott: Zit. nach ROSSIER U. MERCIER.Google Scholar
  38. Jordan, F. L. J.: Diffuse afwijkingenaan het beenderstesel bij de ziekte van BESNIER- BOECK-SCHAUMANN. Nederl. Tijdschr. Geneesk. 90, 915 (1946).Google Scholar
  39. Jüngling, O.: Über Ostitis tuberculosa multiplex cystoides. Bruns’ Beitr. 143, 401 (1928).Google Scholar
  40. Klinefelter jr. H. F., and S. M.Salley: Sarcoidosis simulating glomerularnephritis. Bull. Johns Hopkins Hosp. 89, 333 (1946).Google Scholar
  41. Klinke, K.: Der Mineralstoffwechsel. Franz Deuticke, Leipzig u. Wien (1931).Google Scholar
  42. Leitner, ST. J.: Diabetes insipidus bei der epitheloidzelligen Granulomatose. Schweiz, med. Wschr. 75, 511 (1945).Google Scholar
  43. Leitner, ST. J.: Der Morbus Besnier-Boeck-Schaumann. Basel: Benno Schwabe & Co. 1949.Google Scholar
  44. Levitt, M. F., and L. B.Turner: Role of bone connective tissue and muscle electrolytes in the maintenance of extracellular fluid Composition. J. Clin. Invest. 32, 583 (1953).Google Scholar
  45. Longcope, W. T., and J. W.Pierson: BOECK’S sarcoid. Bull. Johns Hopkins Hosp. 60, 223 (1937).Google Scholar
  46. Moehlig, R. C., and A. L.Steinach: Cortisone interference with calcium therapy in hypoparathyroidism. J. Amer. Med. Assoc. 154, 1 (1954).CrossRefGoogle Scholar
  47. Monakow, P. v.: Beitrag zur Kenntnis der Nephropathien. Dtsch. Arch. klin. Med. 116, 1 (1914).Google Scholar
  48. Nelson, C. T.: Calciferol (vit. D2) in the treatment of sarcoidosis. J. Invest. Dermat. 13 81 (1949).Google Scholar
  49. Owadt, B.: Über Rückresorption und Ausscheidung von Bicarbonat durch die Niere während der Hyperventilationsalkalose. Pflügers Arch. 252, 529 (1950).CrossRefGoogle Scholar
  50. Peabody, F. W.: The carbon dioxyde conent of the blood in pneumonia. J. of Exyer. Med. 16, 701 (1912).CrossRefGoogle Scholar
  51. Peters, J. P., H. A.Bulger and A. J.Eisenman: Total acid- base equilibrium of plasma in health and disease. J. of Biol. Chem. 67, 159 (1926).Google Scholar
  52. Pitts, R. F., and W. D.Lotspeich: Bicarbonate and the renal regulation of acid base balance. Amer. J. Physiol. 147, 138 (1946).PubMedGoogle Scholar
  53. Prigge, R.: Die Wirkung der intravenösen Zufuhr großer NaCl-Mengen bei Pneumonie und beim Gesunden. Dtsch. Arch. klin. Med. 139, 1 (1922).Google Scholar
  54. Rapoport, S., C.D.Stevens, G.L.Engel, E.B.Ferris and M.Logan: The effect of voluntary oberbreathing on the electrolyte equilibrium of arterial blood in man. J. of Biol. Chem. l63, 411 (1946).Google Scholar
  55. Rossier, P. H., u. A.Bühlmann: Pathophysiologie der Atmung und Einteilung der Störungen im Säure-Basengleichgewicht. In Handbuch der inneren Medizin, Bd. IV, S. 61. 1955.Google Scholar
  56. Rossier, P. H., A.Bühlmann U. K.Wiesinger: Die Atmung und ihre Pathophysiologie. Heidelberg: Springer 1955.Google Scholar
  57. Rossier, P. H., U. M.Hotz: Respiratorische Funktion und Säure-Basengleichgewicht in der Schwangerschaft. Schweiz, med. Wschr. 1952, 897.Google Scholar
  58. Rossier, P. H., U. H.Mean: L’influence de la fievre sur les echanges respiratoires et les gaz du sang. Helvet. med. Acta 3, 666 (1936).Google Scholar
  59. Rossier, P. H., et P.Mercier: Etude sur l’equilibre acide-base du sang. Arch, internat. Med. exper. 7, 5 (1932).Google Scholar
  60. Rossier, P. H., D.Staehelin, A. Bühlmann U. A. LABHARDT: Alkalose und Hypokaliaemie bei Anorexis mentalis (Hungeralkalose). Schweiz, med. Wschr. 1955, 465.Google Scholar
  61. Salvesen, H. A.: The sarcoid of BOECK, a disease of importance to internal medecine. Acta med. scand. (Stockh.) 86, 127 (1935).CrossRefGoogle Scholar
  62. Salvesen, H. A., and G. C.Linder: Observation on the inorganic bases and phosphates in relation to the protein of blood and other body fluids in BRIGHT’S disease and in heart failure. J. of Biol. Chem. 58, 617 (1923).Google Scholar
  63. SchÜPACH, A., u. M.Wernly: Hypercalcaemie und Organ Verkalkung bei BoECKscher Krankheit. Acta med. scand. (Stockh.) 115, 401 (1943).CrossRefGoogle Scholar
  64. Seefelder, R.: Ein neuer Fall von BoECKschem Sarkoid mit Beteiligung des Auges. Arch. Augenheilk. 105, 664 (1922).Google Scholar
  65. Shaw, L. A.: The comparative capacity of the blood and of the tissue to absorb carbonic acid. Amer. J. Physiol. 79, 91 (1926/27).Google Scholar
  66. Singer, R. B., J. K.Clark, E. S.Barker and J. R.Elkinton: The effects of acute respiratory alkalosis on electrolyte excretion and renal hemodynamics in man. J. Clin. Invest. 31, 663 (1952).Google Scholar
  67. Singer, R. B., J. R.Elkinton, E. S.Barker and J. K.Clark: Transfer of cellular cations during acute respiratory alkalosis and acidosis experimentally produced in man. J. Clin. Invest. 32, 604 (1953).Google Scholar
  68. Soffer, L. J., J. L.Gabrilove and J. W.Jailer: Metabolic studies with adrenocorticotropin in CUSHINGS-Syndrom and virilism. J. Clin. Invest. 10, 594 (1950).Google Scholar
  69. Stanbury, S. W., and A. E.Thomson: The renal response to respiratory alkalosis. Clin. Sci. 11, 357 (1952).PubMedGoogle Scholar
  70. Sunderman, F. W.: Studies of serum electrolytes. VII. The total base and protein components of the serum during lobar pneumonia with a note on the gastric secretion. J. Clin. Invest. 10, 615 (1931).CrossRefGoogle Scholar
  71. Sunderman, F. W., J. H.Austin and J. G.Camack: Studies in serum electrolytes. I. Concentration of electrolytes and non-electrolytes in the serum during lobar pneumonia. J. Clin. Invest. 3, 37 (1926).PubMedCrossRefGoogle Scholar
  72. Swan, R. C., H.Madisso and F. F.Pitts: Measurement of extracellular fluid volume in nephrectomized dogs. J. Clin. Invest. 33, 1447 (1954).PubMedCrossRefGoogle Scholar
  73. Uehlinger, E.: Die pathologische Anatomie des Morbus Boeck. Tbc.-Kongreß. Berlin: Springer 1954.Google Scholar
  74. Westra, S. A., U. J. F.Visser: Hypercalcaemie bei Morbus Besnier-Boeck. Nederl. Tijdschr. Geneesk. 93, 18 (1949).Google Scholar
  75. Wilder, T. S., and T. G. H.Drake: Metabolism of chloride and total fixed base in pneumonia and the relation to salt and water retention. J. Clin. Invest. 7, 353 (1929).PubMedCrossRefGoogle Scholar
  76. Winkler, A. W., and O. F.Crankshaw: Chloride Depletion in conditions other than ADDISON’S disease. J. Clin. Invest. 17, 1 (1938).PubMedCrossRefGoogle Scholar
  77. Wuhrmann, F., u. C.Wunderly: Die Bluteiweiße. Basel: Benno Schwab & Co. 1946.Google Scholar

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© Springer-Verlag Berlin Heidelberg 1956

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  • R. Hoigné

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