The role of haemoglobin mass on VO(2)max following normobaric 'live high-train low' in endurance-trained athletes

Paul Robach, Christoph Siebenmann, Robert A Jacobs, Peter Rasmussen, Nikolai Nordsborg, Dominik Pesta, Erich Gnaiger, Víctor Díaz, Andreas Christ, Julia Fiedler, Nadine Crivelli, Niels H Secher, Aurélien Pichon, Marco Maggiorini, Carsten Lundby

    30 Citationer (Scopus)

    Abstract

    It remains unclear by which mechanism 'live high-train low' (LHTL) altitude training increases exercise performance. Haematological and skeletal muscle adaptations have both been proposed. To test the hypotheses that (i) LHTL improves maximal oxygen uptake (VO(2)max) and (ii) this improvement is related to hypoxia-induced increases in total haemoglobin mass (Hb(mass)) and not to improved maximal oxidative capacity of skeletal muscle, we determined VO(2)max before LHTL and after LHTL, before and after the altitude-induced increases in Hb(mass) (measured by carbon-monoxide rebreathing) had been abolished by isovolumic haemodilution. We obtained skeletal muscle biopsies to quantify mitochondrial oxidative capacity and efficiency. Sixteen endurance-trained athletes were assigned (double-blinded, placebo controlled) to =16 h/day over 4 weeks to normoxia (placebo, n=6) or normobaric hypoxia equivalent to 3000 m altitude (LHTL, n=10). Four-week LHTL did not increase VO(2)max, irrespective of treatment (LHTL: 1.5%; placebo: 2.0%). Hb(mass) was slightly increased (4.6%) in 5 (of 10) LHTL subjects but this was not accompanied by a concurrent increase in VO(2)max. In the subjects demonstrating an increase in Hb(mass), isovolumic haemodilution elicited a 5.8% decrease in VO(2)max. Cycling efficiency was altered neither with time nor by LHTL. Neither maximal capacity of oxidative phosphorylation nor mitochondrial efficiency was modified by time or LHTL. The present results suggest that LHTL has no positive effect on VO(2)max in endurance-trained athletes because (i) muscle maximal oxidative capacity is not improved following LHTL and (ii) erythrocyte volume expansion after LHTL, if any, is too small to alter O(2) transport.
    OriginalsprogEngelsk
    TidsskriftBritish Journal of Sports Medicine
    Vol/bind46
    Udgave nummer11
    Sider (fra-til)822-827
    Antal sider6
    ISSN0306-3674
    DOI
    StatusUdgivet - sep. 2012

    Fingeraftryk

    Dyk ned i forskningsemnerne om 'The role of haemoglobin mass on VO(2)max following normobaric 'live high-train low' in endurance-trained athletes'. Sammen danner de et unikt fingeraftryk.

    Citationsformater