Summary
Two groups of male subjects were studied to examine the effects of different exercise protocols on performance of an isokinetic, short-time strength test, the performance of which is related to fast twitch (FT) muscle fiber recruitment. The laboratory group (LG) (n=10) cycled (30 min, 70% VO2 max), ran (75 min), and performed repeated bouts of “sprint” cycling and rapid, maximal contractions of the quadriceps. The marathon group (MG) (n=7) participated in and completed Stockholm's Marathon 1979. A strength test was performed before and within 1–2 h after completion of the group exercise protocol. The m. vastus lateralis was biopsied and muscle fibers classified as slow twitch (ST) or FT. After periodic acid-Schiff staining fibers were qualitatively classified as to glycogen content. In LG significant glycogen depletion occurred in both fiber types and in MG predominantly ST fibers were exhausted of glycogen after the exercise protocol. The glycogen exhaustion from both fiber types in LG was associated with impaired maximal muscular strength produced during a single dynamic contraction, as well as with reduced muscle fatigue patterns. When glycogen exhaustion was induced in ST muscle fibers only in the MG, no impairment was observed for maximal muscular strength but fatigue during 50 consecutive contractions was significantly increased.
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References
Asmussen E, Klausen K, Egelund Nielsen L, Techow OSA, Tonder P (1974) Lactate production and anaerobic work capacity after prolonged exercise. Acta Physiol Scand 90: 731–742
åstrand PO, HÄllbÄck J, Hedman R, Saltin B (1963) Blood lactates after prolonged severe exercise. J Appl Physiol 18: 619–622
Bergström J (1962) Muscle electrolytes in man. Scand J Clin Lab Invest [Suppl] 68
Burke RE, Edgerton VR (1975) Motor unit properties and selective involvement in movement. In: Wilmore JH (ed) Exercise and sport science reviews. Academic Press, New York, pp 31–81
Costill D, Gollnick P, Janssen E, Saltin B, Stein E (1973) Glycogen depletion pattern in human muscle fibers during distance running. Acta Physiol Scand 89: 374–383
Dixon WJ, Brown MB (1977) Biomedical computer programs. University of California Press, Los Angeles
Essén B (1978) Studies on the regulation of metabolism in human skeletal muscle using intermittent exercise as an experimental model. Acta Physiol Scand [Suppl] 454
Gollnick, P, Armstrong R, Saubert C, Sembrowich W, Shepherd R, Saltin B (1973a) Glycogen depletion patterns in human skeletal muscle fibers during prolonged work. Pflügers Arch 344: 1–12
Gollnick P, Armstrong R, Sembrowich W, Shepherd R, Saltin B (1973b) Glycogen depletion patterns in human skeletal muscle fibers after heavy exercise. J Appl Physiol 34: 615–618
Gollnick P, Piehl K, Saltin B (1974) Selective glycogen depletion pattern in human muscle fibers after exercise of varying intensity and at varying pedal rates. J Physiol 241: 45–47
Hedman R (1957) The available glycogen in man and the connection between rate of oxygen intake and carbohydrate usage. Acta Physiol Scand 40: 305–371
Jacobs I, Kaiser P, Tesch P (1981) The effects of glycogen exhaustion on maximal, short-time performance. Proc of Int Symp on Sport Biol, Vierumaki, Finland 1979 (in press)
Karlsson J (1971) Lactate and phosphagen concentrations in working muscle of man. Acta Physiol Scand [Suppl] 358
Klausen K, Piehl K, Saltin B (1975) Muscle glycogen stores and capacity for anaerobic work. In: Howald H, Poortmans J (eds) Metabolic adaptation to prolonged physical exercise. BirkhÄuser, Basel
Klausen K, SjØgaard G (1980) Glycogen stores and lactate accumulation in skeletal muscle of man during intense bicycle exercise. Scand J Sports Sci 2: 7–12
Padykula HA, Herman E (1955) The specificity of the histochemical method for adenosine triphosphatase. J Histochem Cytochem 3: 170–195
Pearse AGE (1961) Histochemistry — theoretical and applied. Little Brown Co., Boston, MA
Saltin B, Hermansen L (1967) Glycogen stores and prolonged severe exercise. Symposia of the Swedish nutrition foundation, V. Almquist and Wiksell, Uppsala, pp 32–46
Sjödin B (1976) Lactate dehydrogenase in human skeletal muscle. Acta Physiol Scand [Suppl] 436
Tesch P (1980) Muscle fatigue in man with special reference to lactate accumulation during short-time intense exercise. Acta Physiol Scand [Suppl] 480
Tesch P, Sjödin B, Thorstensson A, Karlsson J (1978) Muscle fatigue and its relation to lactate accumulation and LDH activity in man. Acta Physiol Scand 103: 413–420
Thomson JA, Green HG, Houston ME (1979) Muscle glycogen depletion patterns in fast twitch fibre subgroups of man during submaximal and supmaximal exercise. Pflügers Arch 379: 105–108
Thorstensson A (1976) Muscle strength, fibre types, and enzyme activities in man. Acta Physiol Scand [Suppl] 443
Thorstensson A, Karlsson J (1976) Fatigability and fibre composition of human skeletal muscle. Acta Physiol Scand 98: 318–322
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This study was supported in part by Coca-Cola Export Corporation, Sweden
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Jacobs, I., Kaiser, P. & Tesch, P. Muscle strength and fatigue after selective glycogen depletion in human skeletal muscle fibers. Europ. J. Appl. Physiol. 46, 47–53 (1981). https://doi.org/10.1007/BF00422176
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DOI: https://doi.org/10.1007/BF00422176