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17 Cards in this Set
- Front
- Back
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Holloszy, JO, (1984)
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Adaptations of skeletal muscle to endurance exercise and their metabolic consequences
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Benziane, B, Burton (2008)
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Divergent cell signaling after short-term intensified endurance training in human skeletal muscle.
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Barr, K. (2006)
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Training for endurance and strength: Lessons from cell signaling.
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Coffey, VG, Pilegaard, (2009)
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Consecutive bouts of diverse contractile activity alter acute respsponses in human skeletal muscle.
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Gibala, MJ (2008)
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Metabolic adaptations to short-term high-intensity interval training: A little pain for a lot of gain?
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Gibala, M.J. (2006)
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Short-term sprint interval versus traditional endurance training: Similar initial adaptations in human skeletal muscle and exercise performance
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Helgerud, J. (2007).
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Aerobic High-Intensity Intervals Improve VO2max More Than Moderate Training
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Yeo, W.K. (2009)
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Acute signaling responses to intense endurance training commenced with low or normal muscle glycogen
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Joyner, M.J. (2008)
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Endurance exercise performance: The physiology of champions.
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Dalleck, L., (2010)
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Dose-response relationship between interval training frequency and magnitude of improvement in lactate threshold.
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Bishop, D. (2007)
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High-intensity exercise acutely decreases the membrane content of MCT1 and MCT4 and buffer capacity in human skeletal muscle
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Blomqvist, (1983)
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Cardiovascular adaptations to physical training.
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Perrino, C. (2011).
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Cardiovascular effects of treadmill exercise in physiological and pathological preclinical settings.
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Kokkinos, P. (2010)
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Exercise and physical activity: Clinical outcomes and applications.
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Yang, H.T. (2008)
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Training-induced vascular adaptations to ischemic muscle
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Goodman, J.M (2004).
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Left ventricular adaptations following short-term endurance training. Journal of Applied Physiology, 98:454-460.
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Timmons, J.A.,(2010).
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Using molecular classification to predict gains in maximal aerobic capacity following endurance exercise training in humans
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