References
- Bannister R. G., Cotes J. E., Jones R. S., Meade F. Pulmonary diffusing capacity on exercise in athletes and non-athletic subjects. J. Physiol. (Lond.) 1960; 152: 66
- Bartels H., Bücherl E., Herz C. W., Rode-Wald G., Schwab M. Lungenfunktions-prüfungen. Methoden und Beispiele klinischer Anwendung. Berlin — Göottingen — Heidelberg, Springer Verlag 1959
- Bartels H., Rodewald G. Die alveolär — arterielle Sauerstoffdruck differenz und das Problem des Gasaustausches in der mensch-lichen Lunge. Pflügers Arch. ges. Physiol. 1953; 258: 163
- Bates D. V., Boucot N. G., Dormer A. E. The pulmonary diffusing capacity in normal subjects. J. Physiol. (Lond.) 1955; 129: 237
- Bergren S. M. The oxygen deficit of arterial blood caused by non-ventilating parts of the lung. Acta physiol. scand. 1942; 4, Suppl. 11
- Bjure J. Pulmonary diffusing capacity for carbon monoxide in relation to cardiac output in man. Scand. J. clin. Lab. Invest. 1965; 17, Suppl. 81
- Bjure J., Grimby G., Nilsson N. J. Pulmonary gas exchange during submaximal and maximal exercise in healthy middle-aged men. Pulmonary Diffusing Capacity on Exercise, M. Scherrer. Hans Huber Publishers, Bern — Stuttgart — Vienna 1971
- Comroe J. H., Jr., Forster R. E., Dubois A. B., Briscoe W. H., Carlsen E. The Lung. Clinical Physiology and Pulmonary Function Tests.2nd Edition. 1962
- Döbeln W., von Eriksson B. O. Physical training, maximal oxygen uptake and dimensions of the oxygen transporting and metabolizing organs in boys 11–13 years of age. Acta paediat. scand. 1972; 61: 653
- Dunnil M. S. Postnatal growth of the lung. Thorax 1962; 17: 329
- Englert M. L'influence de l'âge sur la capacité de diffusion pulmonaire chez l'homme normal. Med. Thorac. 1964; 21: 1
- Eriksson B. O., Koch G. Effect of physical training on the hemodynamic response during submaximal and maximal exercise in 11–13 years old boys. Acta physiol. scand. 1973, in press
- Farhi L. E., Rahn H. A theoretical analysis of the alveolar-arterial O2 difference with special reference to the distribution effect. J. appl. Physiol. 1955; 7: 699
- Filley G. F., MacIntosh D. J., Wright G. W. Carbon monoxide uptake and pulmonary diffusing capacity in normal subjects at rest and during exercise. J. clin. Invest. 1954; 33: 530
- Forster R. E. Diffusion of gases. Handbook of Physiology. Section 3. Respiration., W. O. Fenn, H. Rahn. Americal Physiological Society, Washington, D.C. 1964; Vol. 1: 839
- Freyschuss U., Holmgren A. On the variation of DLCO with increasing oxygen uptake during exercise in healthy ordinarily untrained young men and women. Acta physiol. scand. 1965; 65: 193
- Holmgren A., Åstrand P.-O. DL and the dimensions-and functional capacities of the O2 transport in humans. J. appl. Physiol. 1966; 21: 1463
- Holmgren A., Pernow B. Spectrophotometric measurement of oxygen saturation of blood in the determination of cardiac output. A comparison with the van Slyke method. Scand. J. clin. Lab. Invest. 1959; 11: 143
- Koch G. Venous admixture due to true anatomic shunt in the newborn infant during the first week of life. Pädiat. Pädol. 1968; 4: 211
- Koch G. Alveolar ventilation, diffusing capacity and the A-a Po2 difference in the newborn infant. Resp. Physiol. 1968; 4: 168
- Koch G. Simplified method for percutaneous arterial catheterisation. Lancet 1971; 2: 1166
- Koch G., Eriksson B. O. Effect of physical training on pulmonary ventilation and gas exchange during submaximal and maximal work in boys aged 11 to 13 years. Scand. J. Clin. Lab. Invest. 1973; 31: 87
- Koch G., Wendel H. Adjustment of arterial blood gas and acid base balance in the normal newborn infant during first week of life. Biol. Neonat. (Basel) 1968; 12: 136
- Linderholm H. On the significance of CO tension in pulmonary capillary blood for determination of pulmonary diffusing capacity with the steady state method. Acta med. scand. 1957; 156: 413
- Linderholm H., Sjöstrand T. Determination of carbon monoxide in small gas volumes. Acta physiol. scand. 1956; 37: 240
- Linderholm H., Sjöstrand T., Söderström B. A method for determination of low COHb concentration. Scand. J. clin. Lab. Invest. 1957; 10, Suppl. 31
- McIllroy M. B. Pulmonary shunts. Handbook of Physiology. Section 3. Respiration, W. O. Fenn, H. Rahn. American Physiological Society, Washington, D.C. 1965; Vol. II: 1519
- Mostyn E. M., Helle S., Gee J. B. L., Bentivoglio L. G., Bates D. V. Pulmonary diffusing capacity of athletes. J. appl. Physiol. 1963; 18: 687
- Newman F., Smalley B. F., Thomson M. C. Effect of exercise, body and lung size on CO diffusion in athletes and non-athletes. J. appl. Physiol. 1962; 17: 649
- Reddan W. G., Bongiorno R., Burpee J., Reuschlein P., Gee B. L., Rankin J. Pulmonary function in endurance athletes. Fed. Proc. 1963; 22: 396
- Reid L. The embryology of the lung. Development of the Lung, A. V. S. de Reuck, R. Porker. J. & A. Churchill Ltd., London 1967; 109
- Reuschlein P. S., Reddan W. G., Burpee J., Gee J. B. L., Rankin J. Effect of physical training on the pulmonary diffusing capacity during submaximal work. J. appl. Physiol. 1968; 24: 152
- Rodewald G., Bartels H., Beer R. F., Hoff-Heinz H. I., Krall J., Wenner J., Witt I. Bestimmung von Kurzschlussdurchblutung und Diffusionskapazität der Lunge bei Lungen-kranken. Z. ges. exp. Med. 1956; 126: 565
- Scholander P. F. Analyzer for accurate estimation of respiratory gases in one-half cubic centimeter samples. J. biol. Chem. 1947; 167: 235
- Siggard-Andersen O., Engel K., Jörgensen K., Astrup P. A micromethod for determination of pH, carbon dioxide tension, base excess and standard bicarbonate in capillary blood. Scand. J. clin. Lab. Invest. 1969; 12: 172
- Snedecor G. W. Statistical Methods6th edition. The Iowa State University Press, Ames, IowaUSA 1967