Abstract.
Nineteen well-trained cyclists (14 males and 5 females, mean initial V˙O2max 62.3 ml kg–1 min–1) completed a multistage cycle ergometer test to determine maximal mean power output in 4 min (MMPO4min), maximal oxygen uptake (V˙O2max) and maximal accumulated oxygen deficit (MAOD). The athletes were divided into three groups, each of which completed 5, 10 or 15 days of both a control condition (C) and live high:train low altitude exposure (LHTL). The C groups lived and trained at the ambient altitude of 610 m. The LHTL groups spent 8–10 h night–1 in normobaric hypoxia at a simulated altitude of 2,650 m, and trained at the ambient altitude of 610 m. The changes to MMPO4min, V˙O2max and MAOD in response to LHTL altitude exposure were not significantly different for the 5-, 10- and 15-day treatment periods. For the pooled data from all three treatment periods, there were significant increases in MMPO4min [mean (SD) 5.15 (0.83) W kg–1 vs 5.34 (0.78) W kg–1] and MAOD [50.1 (14.2) ml kg–1 vs 54.9 (13.1) ml kg–1] in the LHTL athletes between pre- and post-altitude exposure. There were no significant changes in MMPO4min [5.09 (0.76) W kg–1 vs 5.16 (0.86) W kg–1] or MAOD [50.5 (14.1) ml kg–1 vs 49.1 (13.0) ml kg–1] in the C athletes over the corresponding period. There were significant increases in V˙O2max in the athletes during both the LHTL [63.2 (9.0) ml kg–1 min–1 vs 64.1 (9.0) ml kg–1 min–1] and C [62.0 (8.6) ml kg–1 min–1 vs 63.4 (9.2) ml kg–1 min–1] conditions. In these athletes, there was no difference in the impact of 5, 10 or 15 days of LHTL on the increases observed in MMPO4min, V˙O2max or MAOD; and LHTL increased MMPO4min and MAOD more than training at low altitude alone.
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Roberts, .A., Clark, .S., Townsend, .N. et al. Changes in performance, maximal oxygen uptake and maximal accumulated oxygen deficit after 5, 10 and 15 days of live high:train low altitude exposure. Eur J Appl Physiol 88, 390–395 (2003). https://doi.org/10.1007/s00421-002-0720-3
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DOI: https://doi.org/10.1007/s00421-002-0720-3