McClure, T. S., Phillips, J, Koutnik, A. P., Coleman, K, Chappe, E, Cutter, G. R., Egan, B, Norell, T, Stubbs, B. J., Bamman, M. M. & Kernagis, D. (2024). Ketone monoester attenuates declines in cognitive performance and oxygen saturation during acute severe hypoxic exposure under resting conditions. Experimental Physiology, 109 (10), 1619-1809. Zugriff am 09.11.2024 unter https://doi.org/10.1113/EP091794
APA-Zitierstil (7. Ausg.)McClure, T. S., Phillips, J., Koutnik, A. P., Coleman, K., Chappe, E., Cutter, G. R., . . . Kernagis, D. (2024). Ketone monoester attenuates declines in cognitive performance and oxygen saturation during acute severe hypoxic exposure under resting conditions. Experimental Physiology, 109(10), 1619-1809.
Chicago-Zitierstil (17. Ausg.)McClure, T. S., et al. "Ketone Monoester Attenuates Declines in Cognitive Performance and Oxygen Saturation During Acute Severe Hypoxic Exposure Under Resting Conditions." Experimental Physiology 109, no. 10 (2024): 1619-1809.
MLA-Zitierstil (9. Ausg.)McClure, T. S., et al. "Ketone Monoester Attenuates Declines in Cognitive Performance and Oxygen Saturation During Acute Severe Hypoxic Exposure Under Resting Conditions." Experimental Physiology, vol. 109, no. 10, 2024, pp. 1619-1809.