References
- Barcroft H., Foley T. H., McSwiney R. R. Experiments on the liberation of phosphate from the muscles of the human forearm during vigorous exercise and on the action of sodium phosphate on forearm muscle blood vessels. J. Physiol. (Lond.) 1971; 213: 411
- Berne R. M., Rubio R., Dobson J. G., Curnish R. R. Adenosine and adenine nucleotides as possible mediators of cardiac and skeletal muscle blood flow regulation. Circulat. Res. 1971; 28(Suppl. I)115
- Bird A. D., Telfer A. B. M. Effect of hyperbaric oxygen on limb circulation. Lancet 1965; 1: 355
- Bücher T., Czok R., Lamprecht W., Latzko E. Pyruvat. Methoden der Enzymatischen Analyse. Verlag Chemie, Weinheim 1962; 253–259
- Coles D. R., Cooper K. E., Mottram R. F., Occleshaw J. V. The source of blood samples withdrawn from deep forearm veins via catheters passed upstream from the median cubital vein. J. Physiol. (Lond.) 1958; 142: 323
- Detar R., Bohr D. F. Oxygen and vascular smooth muscle contraction. Amer. J. Physiol. 1968; 214: 241
- Duling B. R., Berne R. M. Oxygen and the local regulation of blood flow: Possible significance of longitudinal gradients in arterial blood oxygen tension. Circulat. Res. 1971; 28(Suppl. I)65
- Dohn K. Plethysmographs usable during functional states recording volume changes in ml per 100 ml of extremity. Rep. Steno Hosp. (Kbh.) 1956; 6: 147
- Edwards R. H. T., Hill D. K., McDonnel M. Myothermal and intramuscular pressure measurements during isometric contractions of the human quadriceps muscle. J. Physiol. (Lond). 1972; 224: 58P
- Forrester T. An estimate of adenosine triphosphate release into the venous effluent from exercising human forearm muscle. J. Physiol. (Lond.) 1972; 224: 611
- Gollwitzer-Meier K. Blood pH and blood flow during muscular activity. Lancet 1950; 1: 381
- Graf K., Westersten A. Untersuchungen über Eigenschaften und Venvendungsmöglichkeiten eines flexiblen Extremitätenplethysmografen. Acta physiol. scand. 1959; 46: 1
- Hilton S. M. A new candidate for mediator of functional vasodilatation in skeletal muscle. Circulat. Res. 1971; 28(Suppl. I)70
- Hohorst H. J. L. L(+) Lactat Bestimmung mit Lactat Dehydrogenase und DPN. Methoden der Enzymatischen Analyse. Verlag Chemie, Weinheim 1962; 266–270
- Humphreys P. W., Lind A. R. The blood flow through active and inactive muscles of the forearm during sustained handgrip contraction. J. Physiol. (Lond.) 1963; 166: 120
- Idbohrn H., Wahren J. The origin of blood withdrawn from deep forearm veins during rhythmic exercise. Acta physiol. scand. 1964; 61: 301
- Kaijser L. Limiting factors for aerobic muscle performance. Acta physiol. scand 1970, Suppl. 346
- Kjellmer I. The potassium ion as a vasodilator during muscular exercise. Acta physiol. scand. 1965; 63: 460
- Kontos H. A., Richardson D. W., Patterson J. L. Blood flow and metabolism of forearm muscle in man at rest and during sustained contraction. Amer. J. Physiol. 1966; 211: 868
- Kontos H. A. Role of hypercapnic acidosis in the local regulation of blood flow in skeletal muscle. Circulat. Res. 1971; 28(Suppl. I)98
- Landin S., Wahren J. Blood flow, oxygen uptake and lactate production in the forearm during exercise induced by median nerve stimulation. Acta physiol. scand. 1969; 75: 82
- Lind A. R., McNicol G. W. Local and central circulatory responses to sustained contractions and the effect of free or restricted arterial inflow on postexercise hyperemia. J. Physiol. (Lond.) 1967; 192: 575
- Lundholm L., Mohme-Lundholm E., Vamos N. Lactic acid assay with L(+) lactic acid dehydrogenase from rabbit muscle. Acta physiol. scand. 1963; 58: 243
- Lundwall J. Tissue hyperosmolality as a mediator of vasodilatation and transcapillary fluid flux in exercising skeletal muscle. Acta physiol. scand. 1972; 85(Suppl. 379)
- Lundwall J., Mellander S., White T. Hyperosmolality and vasodilatation in human skeletal muscle. Acta physiol. scand. 1969; 77: 224
- Mellander S., Lundwall J. Role of tissue hyperosmolarity in exercise hyperemia. Circulat. Res. 1971; 28(Suppl. I)39
- Mohrman D. E., Sparks H. V. Resistance and venous oxygen dynamics during sinusoidal exercise of dog skeletal muscle. Circulat. Res. 1973; 33: 337
- Molnar J. I., Scott J., Frolich E. D., Haddy F. J. Local effects of various anions and H+ on dog limb and coronary vascular resistances. Amer. J. Physiol. 1962; 203: 125
- Segal S., Blair A. E., Wyngaarden J. B. An enzymatic spectrophotometric method for the determination of pyruvic acid in blood. J. Lab. clin. Med. 1956; 48: 137
- Skinner N. S., Costin J. C. Interactions of vasoactive substances in exercise hyperemia: O2, K+, and osmolality. Amer. J. Physiol. 1970; 219: 1386
- Smith D. J., Vane J. R. Effects of oxygen tension on vascular and other smooth muscle. J. Physiol. (Lond.) 1966; 186: 284
- Stainsby W. N., Fregly M. J. Effect of plasma osmolality on resistance to blood flow through skeletal muscle. Proc. Soc. exp. Biol. (N.Y.) 1968; 128: 284
- Tornvall G. Assessment of physical capabilities. Acta physiol. scand. 1963; 58(Suppl. 201)
- Wahren J. Quantitative aspects of blood flow and oxygen uptake in the human forearm during rhythmic exercise. Acta physiol. scand. 1966; 67(Suppl. 269)