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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Aktuelle Entwicklungen im Höhentraining. Allgemeine und schwimmsportspezifische Erkenntnisse im narrativen Überblick (Current developments in altitude training. A narrative overview of general and swimming-specific findings)
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Improved performance in national-level runners with increased training load at 1600 and 1800 m
Sharma, A. P., Saunders, P. U., Garvican-Lewis, L. A., Clark, B., Welvaert, M., Gore, C. J., Thompson, K. G.Published in International Journal of Sports Physiology and Performance (2019)“…live high - train low…”
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No change in running mechanics with live high -train low altitude training in elite distance runners
Stickford, A. S. L., Wilhite, D. P., Chapman, R. F.Published in International Journal of Sports Physiology and Performance (2017)“…live high - train low…”
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Live high, train low - influence on resting and post-exercise hepcidin levels
Govus, A. D., Peeling, P., Abbiss, C. R., Lawler, N. G., Swinkels, D. W., Laarakkers, C. M., Thompson, K. G., Peiffer, J. J., Gore, C. J., Garvican-Lewis, L. A.Published in Scandinavian Journal of Medicine & Science in Sports (2017)“…live high - train low…”
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Motivation and methods for altitude training in triathletes
Rance, A. G. S., Bourrel, N., Guezennec, C. -Y.Published in Science + Triathlon 2015 World Conference (2015)“…live high - train low…”
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Comparison of "Live High-Train Low" in normobaric versus hypobaric hypoxia
Saugy, J. J., Schmitt, L., Cejuela, R., Faiss, R., Hauser, A., Wehrlin, J. P., Rudaz, B., Delessert, A., Robinson, N., Millet, G. P.Published in PLOS ONE (2014)“…live high - train low…”
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Training diaries during altitude training camp in two Olympic champions: An observational case study
Pugliese, L., Serpiello, F. R., Millet, G. P., La Torre, A.Published in Journal of Sports Science & Medicine (2014)“…live high - train low…”
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Comparison of Live high: Train low altitude and intermittent hypoxic exposure
Humberstone-Gough, C. E., Saunders, P. U., Bonetti, D. L., Stephens, S., Bullock, N., Anson, J. M., Gore, C. J.Published in Journal of Sports Science & Medicine (2013)“…live high - train low…”
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Increased hemoglobin mass and VO2max with 10 h nightly simulated altitude at 3000 m
Neya, M., Enoki, T., Ohiwa, N., Kawahara, T., Gore, C. J.Published in International Journal of Sports Physiology and Performance (2013)“…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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Altitude training and its influence on physical endurance in swimmers
Strzala, M., Ostrowski, A., Szygula, ZPublished in Journal of Human Kinetics (2011)“…live high - train low…”