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Summary
Interval training refers to any type of activity which alternates periods of high intensity
activity with periods of low intensity activity. The adaptations to interval training are similar to
what is seen with aerobic exercise but occur in Type II muscle fibers. As glycogen plays a much
larger role in energy production during high intensity activity it would be expected that a
ketogenic diet will affect performance. Although the exact reason why fatigue occurs more
quickly while on a ketogenic diet is unknown, it is well established that performance will decrease.


References Cited



  1. Vollestad NK et al. Muscle glycogen depletion patterns in type I and subgroups of Type II
    fibers during prolonged severe exercise in man. Acta Physiol Scand (1984) 122: 433-441.

  2. “Physiology of Sport and Exercise” Jack H. Wilmore and David L. Costill. Human Kinetics
    Publishers 1994.

  3. “Endurance in Sport” Ed. R.J. Shephard & P.-O. Astrand. Blackwell Scientific Publishers
    1992.

  4. “Exercise Physiology: Human Bioenergetics and it’s applications” George A Brooks, Thomas
    D. Fahey, and Timothy P. White. Mayfield Publishing Company 1996.

  5. “The Blood lactate response to exercise” Arthur Weltman Human Kinetics Publishers 1995.

  6. Simoneau JA. Adaptations of human skeletal muscle to exercise-training. Int J Obesity
    (1995) 19 (Suppl 3): S9-S13.

  7. Simoneau JA et. al. Human skeletal muscle fiber alteration with high-intensity intermittent
    training. Eur J Appl Physiol (1985) 54: 250-253.

  8. Simoneau JA et. al. Inheritance of human skeletal muscle and anaerobic capacity to
    adaptation to high-intensity intermittent training. Int J Sports Med (1986) 7:167-171.

  9. “Max O2: The Complete Guide to Synergistic Aerobic Training” Jerry Robinson and Frank
    Carrino, Health for Life 1993.

  10. Chwalbinska-Monet J et. al. Threshold increases in plasma growth hormone in relationship to
    plasma catecholamine and blood lactate concentrations during progressive exercise in
    endurance-trained athletes. Eur J Appl Physiol (1996) 73: 117-120.

  11. Nevill ME et. al. Growth hormone responses to treadmill sprinting in sprint- and endurance-
    trained athletes. Eur J Appl Physiol (1996) 72: 460-467.

  12. “Exercise Metabolism” Ed. Mark Hargreaves. Human Kinetics Publishers 1995.

  13. Yu-Yahiro H. Electrolytes and their relationship to normal and abnormal muscle function.
    Orthopaedic Nursing (1994) 13: 38-40.

  14. Allen DG et. al. The role of intracellular acidosis in muscle fatigue. in Advances in
    Experimental Medicine and Biology 384: Fatigue Ed: Simon C Gandevia et al. Plenum
    Press 1995.

  15. Karlsson J and Saltin B. Diet, muscle glycogen, and endurance performance. J Appl Physiol
    (1971) 31: 203-206.

  16. Sahlin K. Metabolic factors in fatigue. Sports Medicine 13(2): 99-107, 1992.

  17. Abernathy PH et. al. Acute and chronic response of skeletal muscle to resistance exercise.
    Sports Med (1994) 17: 22-38

  18. Maughan RJ and Poole DC. The effects of a glycogen-loading regimen on the capacity to
    perform anaerobic exercise. Eur J Appl Physiol (1981) 46: 211-219.

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