Muscle glycogen and diet in elite soccer players
- 740 Downloads
- 62 Citations
Summary
The top players in an elite soccer team volunteered as subjects in a study to determine intramuscular glycogen concentrations after a regular season match, and whether optimal glycogen levels could be re-attained prior to the team's next match. Fifteen players were biopsied in the M. vastus lateralis following a regular season game (Day I). Of these, eight were biopsied 24 h later in the evening of a free day during which no training session was held (Day II), and again 24 h later after a very light training session (Day III). Muscle glycogen concentrations for the eight players averaged (± SD) 45.9±7.9, 68.9±2.7, and 72.8±8.3 mmol glucose units ×kg−1 wet muscle weight on Day I, Day II, and Day III respectively. Dietary records were analysed during a week of peak season competition and training. The average daily total energy consumption and total quantity of carbohydrates consumed were less than what is normally consumed by athletes in similar sports. The inability of the players to maintain even normal, resting levels of muscle glycogen is probably related to their dietary practices.
Key words
Glycogen Muscle fiber types Soccer DietPreview
Unable to display preview. Download preview PDF.
References
- Agnevik G (1970) Football. Sport Physiology Report Number 7. (Swedish) Trygg-Hansa, StockholmGoogle Scholar
- Costill DL, Bowers R, Granam G, Sparks K (1971) Muscle glycogen utilization during prolonged exercise on successive days. J Appl Physiol 31: 834–838Google Scholar
- Costill DL, Miller J (1980) Nutrition for endurance sport: carbohydrate and fluid balance. Int J Sports Med 1: 2–14Google Scholar
- Fox EL (1979) Sports physiology. WB Saunders, Philadelphia, pp 251–252, 261Google Scholar
- Gollnick P, Armstrong R, Sembrowich W, Shepherd R, Saltin B (1973) Glycogen depletion patterns in human skeletal muscle fibers after heavy exercise. J Appl Physiol 34: 615–618Google Scholar
- Green H, Daub B, Painter D, Thomson J (1978) Glycogen depletion patterns during ice hockey performance. Med Sci Sports 10: 289–293Google Scholar
- Jacobs I (1981) Lactate, muscle glycogen and exercise performance in man. Acta Physiol Scand [Suppl] 495Google Scholar
- Karlsson J (1971) Lactate and phosphagen concentrations in working muscle of man. Acta Physiol Scand [Suppl] 358Google Scholar
- Karlsson J, Saltin B (1971) Diet, muscle glycogen and endurance performance. J Appl Physiol 31: 203–206Google Scholar
- MacDougall JD, Ward G, Sale D, Sutton J (1977) Muscle glycogen repletion after high-intensity intermittent exercise. J Appl Physiol/Respirat Environ Exerc Physiol 42: 120–132Google Scholar
- Pearse A (1961) Histochemistry — theoretic and applied. Little Brown, BostonGoogle Scholar
- Piehl K (1974) Time course for refilling of glycogen stores in human muscle fibres following exercise-induced glycogen depletion. Acta Physiol Scand 90: 297–302Google Scholar
- Saltin B (1973) Metabolic fundamentals in exercise. Med Sci Sports 5: 137–146Google Scholar
- Saltin B, Karlsson J (1971) Muscle glycogen utilization during work of different intensities. In: Pernow B, Saltin B (eds) Muscle metabolism during exercise. Plenum Press, New York, pp 289–299Google Scholar
- Zapiec C, Taylor AW (1979) Muscle fiber composition and energy utilization in CFL football players. Can J Appl Sport Sci 4: 140–142Google Scholar