II Sport und Ernährung



In den letzten Jahren führten populärwissenschaftlich formulierte Aussagen in den Medien, spekulative Werbeversprechungen der Nahrungsmittel- und Getränkebranche, glaubhaft dargestellte pseudomedizinische Informationen von bekannten und erfolgreichen Persönlichkeiten sowie mündliche „Überlieferungen“ von Trainingspartnern oder Wettbewerbskonkurrenten zu einer zunehmenden Verunsicherung auf dem Gebiet der Sporternährung und speziell auf dem Gebiet der Supplementationen.


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  1. Achten J, Jeukendrup A (2002) Optimising fat oxidation through diet and exercise. ATKL Symposium - Update Ernährung, Supplementation im Sport, WienGoogle Scholar
  2. Ainsworth BE, Haskell WL., Leon AS, Jacobs DR, Montoye HJ, Sallis JF, Paffenbarger RS (1993) Compendium of physical activities: classification of energy costs of human physical activities. Med Sci Sports Exerc 25 (1): 71–80PubMedCrossRefGoogle Scholar
  3. Albina JE, Mills CD, Barbul A, Thirkill CE, Henry WL, Masrofranccesco B (1988) Arginine metabolism in wounds. Am J Physiol Endocrinol Metab 245: E459 - E467Google Scholar
  4. Armstrong L, Carmichael C, Nye PJ (2002) Das Lance Armstrong Trainingsprogramm. 1. Auflage. Bastei Lübbe Verlag, Bergisch GladbachGoogle Scholar
  5. Balsom PD et al. (1994) Kreatine in humans with special reference to Kreatine supplementation. Sports Med 18: 268–280PubMedCrossRefGoogle Scholar
  6. Beckers J, Rehrer NJ (1994) Magenentleerung von Flüssigkeiten und die Auswirkung körperlicher Betätigung - eine Übersicht. Insider Jg 2, Nr 2Google Scholar
  7. Blomstrand E, Hassmen P, Eckblom B, Newsholme EA (1991) Administration of amino acids during sustained exercise-effects on performance and on plasma concentration of some amino acids. Eur J Appl Physiol 63: 83–88CrossRefGoogle Scholar
  8. Brenner BM, Meyer TW, Hostetter TH (1982) Dietary protein intake and the progressive nature of kidney disease: the role of hemodynamically mediated glomerular injury in the pathogenesis of progressive glomerular sclerosis in aging, renal ablation, and intrinsic renal disease. N Engl J Med 9 307 (11): 652–659CrossRefGoogle Scholar
  9. Brouns F (1996) 15. Jahrestagung der AKE und der DGEM. InnsbruckGoogle Scholar
  10. Brouns F (1993) Die Ernährungsbedürfnisse von Sportlern. Springer, Berlin Heidelberg New York TokyoCrossRefGoogle Scholar
  11. Bucci L, Hickson JF, Pivarnik JM, Wolinsky JC, MacMahon JC, Turner SD (1990) Ornithine ingestion and growth hormone release in bodybuilders. Nutr Res 10: 239–245CrossRefGoogle Scholar
  12. Burke LM et al. (1993) Muscle glycogen storage after prolonged exercise: effect of glycämic index of carbohydrate feedings. J Appl Physiol 75: 1019–1023PubMedGoogle Scholar
  13. Childs A, Jacobs C, Kaminski T, Halliwell B, Leeuwenburgh C. Supplementation with Vitamin C and N-Acetylcysteine increases oxidative stress in humans after an acute muscle injury induced by eccentric exerciseGoogle Scholar
  14. Coggan AR, Swanson SC (1992) Nutritional manipulation before and during endurance exercise: Effects on performance. Med Sci Sports Exer 24: 5331–5335Google Scholar
  15. Costill DL (1979) Le metabolisme lipidique pendant l’exercise de longue durée. In: Lacour JR (ed) Comptes rendus du colloque de St. Etienne, p 42Google Scholar
  16. Costill DL (1990) Fluid homeostasis during exercise, vol 3. In: Gisolfi CV, Lamb DR (eds) Benchmark Press, Carmel, Indiana, S 97–121Google Scholar
  17. Coyle EF (1991) Carbohydrate feedings: effects on metabolism, performance and recovery. In: Brouns F, Saris WHM, Newsholme EA (eds) Advances in nutrition and top sport. Karger, BaselGoogle Scholar
  18. Davis JM, Welsh RS, De Volve KL, Alderson NA (1999) Effects of branched-chain amino acids and carbohydrate on fatigue during intermittent, high-intensity running. Int J Sports Med 20 (5): 309–314PubMedCrossRefGoogle Scholar
  19. Diplock T (1994) Antioxidants and free radical scavengers. In: Rice-Evans CA, Burdon RH (eds) Free radical damage and its control. Elsevier Science BV, Amsterdam, p 113–130CrossRefGoogle Scholar
  20. Donath R, Schüler KP (1985) Ernährung der Sportler. Sportverlag BerlinGoogle Scholar
  21. Geiss KR, Hamm M (2001) Handbuch Sportlerernährung. 5. Auflage, rororo Sport, HamburgGoogle Scholar
  22. Green AL, Simpson EJ, Littlewood JJ, MacDonald IA, Greenhaff PL (1996) Carbohydrate ingestion augments creatine retention during creatin feeding in man. Acta Physiol Scand 158: 195–202PubMedCrossRefGoogle Scholar
  23. Hoppeler H (1998) Fettarme Kost. Insider, Vol 6, Nr 2, SeptemberGoogle Scholar
  24. Hultman E (1974) Diatary manipulation and aid to preparation for competitions. In: Proceedings of the world conference on sports medicine. Melbourne, p 239–265Google Scholar
  25. Jeukendrup AE, Brouns F (1997) Ernährung im Ausdauersport: von der Theorie zur Praxis. Insider Vol 5, Nr 1, AprilGoogle Scholar
  26. Karlson P (1988) Kurzes Lehrbuch der Biochemie, 13. Auflage, Thieme Verlag, Stuttgart Konopka P (2001) Sporternährung. 8. Auflage, BLV Sportwissen, MünchenGoogle Scholar
  27. Lamprecht M (1997) Der Einfluss definierter sportlicher Belastungen in Verbindung mit Vitaminsupplementierung auf den antioxidativen Status des Blutes. Dissertation am Inst f Med Chem u Pregl LabGoogle Scholar
  28. Lemon PWR (1991) Protein and amino acids needs of the strength athlete. Int J Sport Nutr 1: 127–145PubMedGoogle Scholar
  29. Lemon PWR, MacDougall JD, Tarnopolsky MA, Atkinson SA (1992) Protein requirements and muscle mass/strength changes during intensive training in novice body builders. J Appl Physiol 73: 767–775PubMedGoogle Scholar
  30. Louard RJ, Barrett EJ, Gelfand RA (1990) Effect of infused branched-chain amino acids on muscle and whole-body amino acid metabolism in man. Clin Sci (Lond) 79 (5): 457–466Google Scholar
  31. Levine L, Evans WJ, Cadarette BS, Fisher EC, Bullen BA (1983) Fructose and glucose ingestion and muscle glycogen use during submaximal exercise. J Appl Physiol 55: 1767–1771PubMedGoogle Scholar
  32. Magal M, Webster MJ, Sistrunk LE, Whitehead MT, Evans RK, Boyd JC (2003) Comparison of glycerol and water hydration regimens on tennis-related performance. Med Sci Sports Exerc Vol 35 (1): 150–156PubMedCrossRefGoogle Scholar
  33. Malm C, Svensson M, Sjöberg B, Ekblom B, Sjödin B (1996) Supplementation with ubiquinone10 causes cellular damage during intense exercise. Acta Physiol Scand 157: 511–512PubMedCrossRefGoogle Scholar
  34. Maxwell S, Cruickshank A, Thorpe G (1994) Red wine and antioxidant activity in serum. Lancet 344: 193–194PubMedCrossRefGoogle Scholar
  35. Mlekusch W, Tillian M, Lamprecht M, Öttl K, Krainz H, Reibnegger G (1998) The life-shortening effect of reduced physical activity is abolished by a fat rich diet. Mech Ageing Dev 105: 61–73PubMedCrossRefGoogle Scholar
  36. Montner P, Stark DM, Riedesel ML et al. (1996) Pre-exercise glycerol hydration improves cycling endurance time. Int J Sports Med 17 (1): 27–33PubMedCrossRefGoogle Scholar
  37. Murray R (1997) Electrolyte replacement solutions: formulation issues. Ibc, joint meeting of clinical biochemists. PadovaGoogle Scholar
  38. Murray R, Eddy DE, Paul GL et al (1991) Physiological response to glycerol ingestion during exercise. J Appl Physiol 71 (1): 144–149PubMedGoogle Scholar
  39. National Research Council (1989) Recommended dietary allowances, 10th edn. National Academy Press, WashingtonGoogle Scholar
  40. Neumann G (2000) Ernährung im Sport. 3. Auflage, Meyer and Meyer, AachenGoogle Scholar
  41. Newsholme EA (1990) Effects of exerciser on aspects of carbohydrate, fat, and amino acid metabolism. In: Bouchard C, Shephard R, Stephens T et al (eds) Exercise, fitness and health. Human Kinetics, Champaign/ILGoogle Scholar
  42. Pariza MW, Y, Cook ME (2000) Mechanisms of action of conjugated linoleic acid: evidence and speculation. Proc Soc Exp Biol Med 223 (1): 8–13CrossRefGoogle Scholar
  43. Robergs RA, Griffin SE (1998) Glycerol: Biochemistry, pharmacokinetics and clinical and practical applications. Sports Med 26 (3): 145–167PubMedCrossRefGoogle Scholar
  44. Schmidt RF, Thews G (1993) Physiologie des Menschen. 25. Auflage, Springer, Berlin Heidelberg New York TokyoGoogle Scholar
  45. Schwaberger G (1993) Skriptum für Arbeits-and SportphysiologieGoogle Scholar
  46. Seebauer W (2000) Nahrungssupplementation, Vollwerternährung and oxidativer Stress im Hochleistungssport. Triathlon Band 15: 95–178Google Scholar
  47. Senay C Jr. Water and electrolytes during physical activity (1998) In: Wolinsky I (ed) Nutrition in exercise and sport. CRC Press, Boca Raton, Florida, p 252–276Google Scholar
  48. Steinberg J, Gainnier M, Michel F, Faucher M, Arnaud C, Jammes Y (2002) The post-exercise oxidative stress is depressed by acetylsalicylic acid. Respiratory, Physiol and Neurobiol 130 (2): 189–199CrossRefGoogle Scholar
  49. Tarnopolsky MA, Atkinson SA, MacDougall JD (1992) Evaluation of protein requirements for trained strength athletes. J Appl Physiol 73 (5): 1986–1995PubMedGoogle Scholar
  50. Vanderpas JB et al. (1993) Selenium deficiency mitigates hypothyroxinemia in iodine-deficient subjects. Am J Clin Nutr 57: 2715–2755Google Scholar
  51. van Hall G, Raaymakers JS, Saris WH, Wagenmakers Ai (1995) Ingestion of branched-chain amino acids and tryptophan during sustained exercise in man: failure to affect performance. J Physiol 1 (486): 789–794Google Scholar
  52. Wagenmakers AJM, Pannemans DLE, Jeukendrup AE, Gijsen AP, Senden JMG, Halliday D, Saris WHM (1997) The effect of exercise on protein metabolism is tracer dependent. Ibc, joint meeting of clinical biochemists, PadovaGoogle Scholar
  53. Williams MH (1995) Nutrition for fitness and sport. Brown and Benchmark Publ., USA Worm N ( 1991 ) Richig essen, richtig fit. Sportinform Verlag GmbhGoogle Scholar
  54. Zaragoza R, Renau-Piqueras J, Portoles M, Hernandez-Yago J, Jorda A, Grisolia S (1987) Rats fed prolonged high protein diets show an increase in nitrogen metabolism and liver megamitochondria. Arch Biochem Biophys 1 258 (2): 426–435CrossRefGoogle Scholar
  55. Ziegler R (1997) Selen–vom Insider-Tip zur Präventiv-Empfehlung. TW Sport + Medizin 9: 137–140Google Scholar
  56. Zoller H (2002) Indikation und Kontraindikation der Eisensupplementation. ATKL Symposium - Update Ernährung, Supplementation im Sport, Wien, DezemberGoogle Scholar

Weiterführende Literatur

  1. Burke L, Deakin V (eds) (2002) Clinical spats nutrition. McGraw Vill AustraliaGoogle Scholar
  2. Wolinsky I (ed) (1998) Nutrition in exercise and sports. CRC Press Boca Ratin, New York Morgan Ri (2000) Nutrition in Sport. Blackwell Science LtdGoogle Scholar

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