Search Results - Frandsen, U.
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Subcellular localization- and fibre type-dependent utilization of muscle glycogen during heavy resistance exercise in elite power and Olympic weightlifters
Hokken, R., Laugesen, S., Aagaard, P., Suetta, C., Frandsen, U., Ørtenblad, N., Nielsen, J.Published in Acta Physiologica (2020)“…Frandsen, U.…”
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Repeated high-intensity exercise modulates Ca2+ sensitivity of human skeletal muscle fibers
Gejl, K. D., Hvid, L. G., Willis, S. J., Andersson, E., Holmberg, H. C., Jensen, R., Frandsen, U., Hansen, J., Plomgaard, P., Ørtenblad, N.Published in Scandinavian Journal of Medicine & Science in Sports (2016)“…Frandsen, U.…”
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Carbohydrate restricted recovery from long term endurance exercise does not affect gene responses involved in mitochondrial biogenesis in highly trained athletes.
Jensen, L., Gejl, K. D., Ørtenblad, N., Nielsen, J. L., Bech R. D., Nygaard, T., Sahlin, K., Frandsen, U.Published in Physiological Reports (2015)“…Frandsen, U.…”
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Muscle glycogen content modifies SR Ca2+ release rate in elite endurance athletes
Gejl, K. D., Hvid, L. G., Frandsen, U., Jensen, K., Sahlin, K., Ortenblad, N.Published in Medicine & Science in Sports & Exercise (2014)“…Frandsen, U.…”
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Endurance training does not alter the level of neuronal nitric oxide synthase in human skeletal muscle
Frandsen, U., Höffner, L., Betak, A., Saltin, B., Bangsbo, J., Hellsten, Y.Published in Journal of Applied Physiology (2001)“…Frandsen, U.…”
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