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Original Article

Quantitative Displacement of Blood Acid-Base Status in Acute Hypocapnia

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Pages 5-17 | Received 08 Oct 1968, Accepted 20 Dec 1968, Published online: 08 Jul 2009

References

  • Anrep G. V., Cannan R. K. The concentration of lactic acid in the blood in experimental alkalaemia and acidaemia. J. Physiol. (London) 1923; 58: 244
  • Astrup P. A simple electrometric technique for the determination of carbon dioxide tension in blood and plasma, total content of carbon dioxide in plasma, and bicarbonate content in 'separated' plasma at a fixed carbon dioxide tension (40 mm Hg). Scand. J. clin. Lab. Invest. 1956; 8: 33
  • Barach A. L., Fenn W. O., Ferris E. B., Schmidt C. F. The physiology of pressure breathing: a brief review of its present status. J. Aviat. Med. 1947; 18: 73
  • Berry M. N., Scheuer J. Splanchnic lactic acid metabolism in hyperventilation, metabolic alkalosis and shock. Metabolism. 1967; 16: 537
  • Booher L. E., Killian J. A. Ketosis associated with conditions of alkalosis. Proc. Soc. exp. Biol. (N. Y.) 1924; 21: 528
  • Brackett N. C., Jr., Cohen J. J., Schwartz W. B. Carbon dioxide titration curve of normal man. Effect of increasing degrees of acute hypercapnia on acid-base equilibrium. New Engl. J. Med. 1965; 272: 6
  • Brewin E. G., Gould R. P., Nashat F. S., Neil E. An investigation of problems of acid-base equilibrium in hypothermia. Guy's Hosp Rep. 1955; 104: 177
  • Brown E. B., Campbell G. S., Elam J. O., Gollan P., Hemingway A., Visscher M. B. Electrolyte changes with chronic passive hyperventilation in man. J. appl. Physiol. 1949; 1: 848
  • Brown E. B., Jr., Clancy R. L. In vivo and in vitro CO2 blood buffer curves. J. appl. Physiol. 1965; 20: 885
  • Clarke R. S. J. The effect of voluntary over-breathing on the blood flow through the human forearm. J. Physiol. (London.) 1952; 118: 537
  • Cohen J. J., Brackett N. C., Jr., Schwartz W. B. The nature of the carbon dioxide titration curve in the normal dog. J. clin. Invest. 1964; 43: 777
  • Cohn R., Kountz S. Factors influencing control of arterial circulation in the liver of the dog. Am. J. Physiol. 1963; 205: 1260
  • Cunningham D. J. C., Lloyd B. B., Michel C. C. Acid-base changes in the blood during hypercapnia and hypocapnia in normal man. J. Physiol. (London.) 1962; 161: 26P, Abstr.
  • Dell R. B., Engel K., Winters R. W. A computer model for the in vivo CO2 titration curve and its relevance to the acid-base changes in respiratory distress syndrome (RDS). Am. Pediat. Soc May, 1966; 13, Abstr.
  • Dell R. B., Engel K., Winters R. W. A computer program for the blood pH-log Pco2 nomogram. Scand. J. Clin. Lab. Invest. 1967; 19: 29
  • Dell R. B., Winters R. W. Lactate gradients in the kidney of the dog. Am. J. Physiol. 1967; 213: 310
  • Eggleton M. G., Evans C. L. Lactic and formation and removal with change in blood reaction. J. Physiol. (London.) 1930; 70: 261
  • Eichenholz A., Mulhausen R. O., Anderson W. E., MacDonald F. M. Primary hypocapnia: A cause of metabolic acidosis. J. appl. Physiol. 1962; 17: 283
  • Eldridge F., Salzer J. Effect of respiratory alkalosis on blood lactate and pyruvate in humans. J. appl. Physiol. 1967; 22: 461
  • Elkinton J. R., Singer R. B., Barker E. S., Clark J. K. Effects in man of acute experimental respiratory alkalosis and acidosis on ionic transfer in the total body fluids. J. clin. Invest. 1955; 34: 1671
  • Gamble W., Orten J. M., Smith A. H. Citric acid cycle in certain alterations of acid-base balance in human subjects. J. appl. Physiol. 1961; 16: 593
  • Gesell R., Krueger H., Gorham G., Bernthai T. The regulation of respiration: a study of the correlation of numerous factors of respiratory control following administration of hydrochloric acid, of carbon dioxide, and the simultaneous administration of CO2 and sodium bicarbonate. Am. J. Physiol. 1930; 94: 387
  • Gevers W., Dowdle E. The effect of pH on glycolysis in vitro. Clin. Sci. 1963; 25: 343
  • Giebisch G., Berger L., Pitts R. F. The extrarenal response to acute acid-base disturbances of respiratory origin. J. clin. Invest. 1955; 34: 231
  • Greenbaum R., Kelman G. R., Nunn J. F., Prys-Roberts C. Arterial oxygen tensions. Anesthesiology 1966; 27: 869, (Correspondence)
  • Haldi J. Lactic acid in blood and tissues following intravenous injection of sodium bicarbonate. Am. J. Physiol. 1933; 106: 134
  • Halperin M. L., Karnovsky M. L., Relman A. S. On the mechanism by which glycolysis responds to pH: Implications for acid-base homeostasis. Clin. Res. 1967; 15: 359, (Abstr.)
  • Huckabee W. E. Relationships of pyruvate and lactate during anaerobic metabolism. I. Effects of infusion of pyruvate or glucose and of hyperventilation. J. clin. Invest. 1958; 37: 244
  • Hurt H., Jr., Morris R. E., Robinson P., Graff T. D. Six-hour carbon dioxide titration curves in dogs with and without ureteral ligation. Anesth. et Analg. 1967; 46: 774
  • Jörgensen K. Titrimetric determination of the net excretion of acid-base in urine. Scand. J. clin. Lab. Invest. 1957; 9: 287
  • Lanier J. T., Green H. D., Hardaway J., Johnson H. D., Donald W. B. Fundamental difference in the reactivity of the blood vessels in skin compared with those in muscle. Circulat. Res. 1953; 1: 40
  • Little R. C., Smith C. W. Cardiovascular response to acute hypocapnia due to over-breathing. Am. J. Physiol. 1964; 206: 1025
  • MacLeod J. J. R. Further observations on the production of lactic acid following alkaline injections. Am. J. Physiol. 1918; 45: 539, (Abstr.)
  • MacLeod J. J. R., Hoover D. H. Studies in experimental glycosuria. XII. Lactic acid production in the blood following the injection of alkaline solutions of dextrose or of alkaline solutions alone. Am. J. Physiol. 1917; 42: 460
  • MacKay E. M., Wick A. N., Came H. O., Barnum C. P. The influence of alkalosis and acidosis upon fasting ketosis. J. biol. Chem. 1941; 138: 63
  • Melius P., Lipton M. A. Organic acid excretion in experimental alkalosis. Fed. Proc. 1957; 16: 221
  • Michel C. C., Lloyd B. B., Cunningham D. J. C. The in vivo carbon dioxide dissociation curve of true plasma. Resp. Physiol. 1966; 1: 121
  • Prys-Roberts C., Kelman G. R., Greenbaum R., Robinson R. H. Circulatory influences of artificial ventilation during nitrous oxide anaesthesia in man. II. Results: the relative influence of mean intrathoracic pressure and arterial carbon dioxide tension. Brit. J. Anaesth. 1967; 39: 533
  • Richardson D. W., Wasserman A. J., Patterson J. L., Jr. General and regional circulatory response to changes in blood pH and carbon dioxide tension. J. Clin. Invest. 1961; 40: 31
  • Rowe G. G., Castillo C. A., Crumpton C. W. Effects of hyperventilation on systemic and coronary hemodynamics. Am. Heart. J. 1962; 63: 67
  • Shaw L. A., Messer A. C. The transfer of bicarbonate between the blood and tissues caused by alterations of the carbon dioxide concentration in the lungs. Am. J. Physiol. 1932; 100: 122
  • Siggaard-Andersen O. Acute experimental acid-base disturbances in dogs. An investigation of the acid-base and electrolyte content of blood and urine. Scand. J. Clin. Lab. Invest. 1962; 14(Suppl. 66)
  • Siggaard-Andersen O. Blood acid-base alignment nomogram. Scales for pH, Pco2, base excess of whole blood of different hemoglobin concentrations, plasma bicarbonate, and plasma total CO2. Scand. J. Clin. Lab. Invest. 1963; 15: 211
  • Siggaard-Andersen O., Engel K., Jörgensen K., Astrup P. A micro method for determination of pH, carbon dioxide tension, base excess, and standard bicarbonate in capillary blood. Scand. J. Clin. Lab. Invest. 1960; 12: 172
  • Sykes M. K., Cooke P. M. The effect of hyperventilation on 'excess lactate' production during anesthesia. Brit. J. Anaesth. 1965; 37: 372
  • Wasserman A. J., Patterson J. L., Jr. The cerebral vascular response to reduction in arterial carbon dioxide tension. J. Clin. Invest. 1961; 40: 1297
  • Williams T. F., Winters R. W., Clapp J. R., Hollander W., Jr., Welt L. G. Effects of 2,4-dinitrophenol on respiration in the dog. Am. J. Physiol. 1958; 193: 181
  • Winters R. W. Terminology of acid-base disorders. Ann. N. Y. Acad. Sci. 1966; 133: 211
  • Winters R. W. Some comments on the validity of the Astrup technique for the measurement of acid-base status of blood. Radiometer (Copenhagen) 1966; AS 36
  • Winters R. W., Scaglione P. R., Nahas G. C., Verosky M. The mechanism of acidosis produced by hyperosmotic infusions. J. Clin. Invest. 1964; 43: 647
  • Zborowska-Sluis D. T., Dossetor J. B. Hyperlactatemia of hyperventilation. J. appl. Physiol. 1967; 22: 746
  • Zijlstra W. G., van Kampen E. J. Standardization of hemoglobinometry. Clin. chim. Acta 1960; 5: 719

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