Search Results - "Live High - Train Low"
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Effect of hypobaric hypoxia on hematological parameters related to oxygen transport, blood volume and oxygen consumption in adolescent endurance-training athletes
Mancera-Soto, Mónica, E. M., Chamorro-Acosta L., Ramos-Caballero, D. M., Torrella, J. R., Cristancho-Mejía, E.Published in Journal of Exercise Science & Fitness (2022)“…Live High - Train Low…”
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Endurance, aerobic high-intensity, and repeated sprint cycling performance is unaffected by normobaric "Live High-Train Low": a double-blind placebo-controlled cross-over study
Bejder, J., Andersen, A. B., Buchardt, R., Larsson, T. H., Olsen, N. V., Nordsborg, N. B.Published in European Journal of Applied Physiology (2017)“…Live High - Train Low…”
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Time course of the hemoglobin mass response to natural altitude training in elite endurance cyclists
Garvican, L., Martin, D., Quod, M., Stephens, B., Sassi, A., Gore, C.Published in Scandinavian Journal of Medicine & Science in Sports (2012)“…Live High - Train Low…”
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Live high:train low increases muscle buffer capacity and submaximal cycling efficiency
Gore, C. J., Hahn, A. G., Aughey, R. J., Martin, D. T., Ashenden, M. J., Clark, S. A., Garnham, A. P., Roberts, A. D., Slater, G. J., McKenna, M. J.Published in Acta Physiologica Scandinavica (2001)“…Live High - Train Low…”
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Effect of Live High, Training Low for 10 days on aerobic capacity of trained men
Takahashi, K., Uchimaru, J., Ogura, Y., Katamoto, S., Naito, H., Aoki, J.Published in Advances in Exercise and Sports Physiology (2004)“…Live High - Train Low…”
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Effect of F(I)O(2) on physiological responses and cycling performance at moderate altitude
Wilber, R. L., Holm, P. L., Morris, D. M., Dallam, G. M., Callan, S. D.Published in Medicine & Science in Sports & Exercise (2003)“…Live High - Train Low…”
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Living high-training low increases hypoxic ventilatory response of well-trained endurance athletes
Townsend, N. E., Gore, C. J., Hahn, A. G., McKenna, M. J., Aughey, R. J., Clark, S. A., Kinsman, T., Hawley, J. A., Chow, C. M.Published in Journal of Applied Physiology (2002)“…Live High - Train Low…”
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XXth International Symposium on Biomechanics in Sports
Published 2002“…Live High - Train Low…”
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Live high:train low increases muscle buffer capacity and submaximal cycling efficiency
Gore, C. J., Hahn, A. G., Aughey, R. J., Martin, D. T., Ashenden, M. J., Clark, S. A., Garnham, A. P., Roberts, A. D., Slater, G. J., McKenna, M. J.Published in Acta Physiologica Scandinavica (2001)“…Live High - Train Low…”
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Effect of living high and training low on sea level performance in cyclists
Mattila, V., Rusko, H.Published in Medicine & Science in Sports & Exercise (1996)“…Live High - Train Low…”
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Effects of a 12-day "live high, train low" camp on reticulocyte production and haemoglobin mass in elite female road cyclists (Effects of a 12-day "live high, train low" camp on reticulocyte production and haemoglobin mass in elite female road cyclists)
Ashenden, M. J., Gore, C. J., Martin, D. T., Dobson, G. P., Hahn, A. G.Published in European Journal of Applied Physiology (1999)“…Live High - Train Low…”
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"Live high, train low" does not change the total "Live high, train low" does not change the total haemoglobin mass of male endurance athletes sleeping at a simulated altitude of 3... ("Live high, train low" does not change the total "Live high, train low" does not change the total haemoglobin mass of male endurance athletes sleeping at a simulated altitude of 3000 m for 23 nights)
Ashenden , M. J., Gore, C. J., Dobson, G. P., Hahn, A. G.Published in European Journal of Applied Physiology (1999)“…Live High - Train Low…”