Advanced search
Publication Cover
Scandinavian Journal of Clinical and Laboratory Investigation Volume 21, 1968 - Issue 3
Submit an article Journal homepage
42
Views
104
CrossRef citations to date
0
Altmetric
Original Article

Human Forearm Muscle Metabolism during Exercise II Uptake, release and oxidation of individual FFA and glycerol

L. Hagenfeldt Department of Clinical Chemistry and Department of Clinical Physiology, Karolinska institutet at Serafimerlasarettet, Stockholm, Sweden
&
J. Wahren Department of Clinical Chemistry and Department of Clinical Physiology, Karolinska institutet at Serafimerlasarettet, Stockholm, Sweden
Pages 263-276 | Received 26 Jan 1968, Accepted 31 Mar 1968, Published online: 08 Jul 2009

References

  • Baltzan M. A., Andres R., Cader G., Zierler K. L. Heterogeneity of forearm metabolism with special reference to free fatty acids. J. clin. Invest. 1962; 41: 116
  • Carlson L. A., Boberg J., Högstedt B. Some physiological and clinical implications of lipid mobilization from adipose tissue. Handbook of Physiology, Adipose Tissue. American Physiological Society, Washington 1965; 625
  • Carlson L. A., Pernow B. Studies on blood lipids during exercise. I. Arterial and venous plasma concentrations of unesterified fatty acids. J. Lab. clin. Med. 1959; 53: 833
  • Carlson L. A., Pernow B. Studies on blood lipids during exercise. II. The arterial plasma-free fatty acid concentration during and after exercise and its regulation. J. Lab. clin. Med. 1961; 58: 673
  • Christensen E. H., Hansen O. Arbeitsfähigkeit und Ernährung. III. Skand. Arch. Physiol. 1939; 81: 160
  • Christensen E. H., Hansen O. Respiratorische Quotient und O2-Aufnahme. Skand. Arch. Physiol. 1939; 81: 180
  • Dixon W. J. Biomedical Computer Programs. University of California, Los Angeles 1964
  • Documenta Geigy. Wissenschaftliche Tabellen. J. R. Geigy AG, Basel 1960
  • Friedberg S. J., Harlan W. R., Jr., Trout D. L., Estes E. H., Jr. The effect of exercise on the concentration and turnover of plasma nonesteri-fied fatty acids. J. clin. Invest. 1960; 39: 215
  • Friedberg S. J., Klein R. F., Trout D. L., Bogdonoff M. D., Estes E. H., Jr. The characteristics of the peripheral transport of C14-labeled palmitic acid. J. clin. Invest. 1960; 39: 1511
  • Friedberg S. J., Sher P. B., Bogdonoff M. D., Estes E. H., Jr. The dynamics of plasma free fatty acid metabolism during exercise. J. Lipid Res. 1963; 4: 34
  • Hagenfeldt L. A gas chromatographic method for the determination of individual free fatty acids in plasma. Clin. Chim. Acta 1966; 13: 266
  • Hagenfeldt L. A simplified procedure for the measurement of 14CO2 in blood. Clin. Chim. Acta 1967; 18: 320
  • Hagenfeldt L. Gas chromatographic determination of organic acids in blood. Arkiv Kemi. 1968; 29: 63
  • Hagenfeldt L. The concentration of individual free fatty acids in human plasma and their interrelationships. Arkiv Kemi. 1968; 29: 57
  • Hagenfeldt L., Wahren J. Simultaneous uptake and release of individual free fatty acids in human forearm muscle during exercise. Life Sci. 1966; 5: 357
  • Hagenfeldt L., Wahren J. Human forearm muscle metabolism during exercise. III. Uptake, release and oxidation of β-hydroxybutyrate and observations on the β-hydroxybutyrate/acetoactate ratio. Scand. J. clin. Lab. Invest. 1968, In press
  • Havel R. J., Carlson L. A., Ekelund L. G., Holmgren A. Turnover rate and oxidation of different free fatty acids in man during exercise. J. appl. Physiol. 1964; 19: 613
  • Havel R. J., Ekelund L. G., Holmgren A. Kinetic analysis of the oxidation of palmitate-l-14C in man during prolonged heavy muscular exercise. J. Lipid Res. 1967; 8: 366
  • Havel R. J., Naimark A., Borchgrevink C. F. Turnover rate and oxidation of free fatty acids of blood plasma in man during exercise: studies during continuous infusion of palmitate-1-C14. J. clin. Invest. 1963; 42: 1054
  • Havel R. J., Pernow B., Jones N. L. Uptake and release of free fatty acids and other metabolites in the legs of exercising men. J. appl. Physiol. 1967; 23: 90
  • Helander E. Fat content of skeletal muscular tissue. Acta morphol. neerl.-scand. 1958; 2: 230
  • Hirsch J. Fatty acid pattern in human adipose tissue. Handbook of Physiology, Adipose Tissue. American Physiological Society, Washington 1965; 181
  • Issekutz B., Jr., Miller H. I., Paul P., Rodahl K. Source of fat oxidation in exercising dogs. Amer. J. Physiol. 1964; 207: 583
  • Klassen G. A., Rabinowitz D., Zierler K. L. Palmitic and oleic acids as a major energy source for human forearm muscle. Circulation 1965; 31–32: 126, Suppl. II
  • Medes G., Floyd N. F., Weinhouse S. Fatty acid metabolism. IV. Ketone bodies as intermediates of acetate oxidation in animal tissues. J. biol. Chem. 1946; 162: 1
  • Neptune E. M., Jr., Sudduth H. C., Foreman D. R., Fash F. J. Phospholipid and triglyceride metabolism of excised rat diaphragm and the role of these lipids in fatty acid uptake and oxidation. J. Lipid Res. 1960; 1: 229
  • Olson R. E., Hoeschen R. J. Utilization of endogenous lipid by the isolated perfused rat heart. Biochem. J. 1967; 103: 796
  • Paul P., Issekutz B., Jr., Miller H. I. Interrelationship of free fatty acids and glucose metabolism in the dog. Amer. J. Physiol. 1966; 211: 1313
  • Peters J. P., van Slyke D. D. Quantitative Clinical Chemistry. Baillière, Tindall & Cox, London 1932; Volume II.
  • Rabinowitz D., Zierler K. L. Role of free fatty acids in forearm metabolism in man, quantitated by use of insulin. J. clin. Invest. 1962; 41: 2191
  • Robinson J., Newsholme E. A. Glycerol kinase activities in rat heart and adipose tissue. Biochem. J. 1967; 104, 2c
  • Snedecor G. W. Statistical Methods. The Iowa State University Press, Ames 1956
  • Spitzer J. J., Gold M. Free fatty acid metabolism by skeletal muscle. Amer. J. Physiol. 1964; 206: 159
  • Stern J. R., Coon M. J., del Capillo A. Enzymatic breakdown and synthesis of acetoacetate. Nature (Lond.) 1953; 171: 28
  • Toews C. J. Evidence for the metabolism of glycerol by skeletal muscle and the presence of a muscle nicotinamide-adenine dinucleotide phosphate-dependent glycerol dehydrogenase. Biochem. J. 1966; 98: 27C
  • Wahren J., Hagenfeldt L. Human forearm muscle metabolism during exercise. I. Circulatory adaptation to prolonged forearm exercise. Scand. J. clin. Lab. Invest. 1968; 21: 257
  • Wieland Glycerin O. Methoden der enzymatischen Analyse. Verlag Chemie, Wein-heim 1962; 211
  • Wieland O. S., Suyter M. Glycerokinase: Isolierung und Eigenschaften des Enzyme. Biochem. Z. 1957; 329: 320

Reprints and Corporate Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

To request a reprint or corporate permissions for this article, please click on the relevant link below:

Order Reprints Request Corporate Permissions

Academic Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

Obtain permissions instantly via Rightslink by clicking on the button below:

Request Academic Permissions

If you are unable to obtain permissions via Rightslink, please complete and submit this Permissions form. For more information, please visit our Permissions help page.

Related research

People also read lists articles that other readers of this article have read.

Recommended articles lists articles that we recommend and is powered by our AI driven recommendation engine.

Cited by lists all citing articles based on Crossref citations.
Articles with the Crossref icon will open in a new tab.