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- Title
Inter-individual variability in adaptation of the leg muscles following a standardised endurance training programme in young women.
- Authors
McPhee, Jamie S.; Williams, Alun G.; Degens, Hans; Jones, David A.
- Abstract
There is considerable inter-individual variability in adaptations to endurance training. We hypothesised that those individuals with a low local leg-muscle peak aerobic capacity $$ (\dot{V} {\text{O}}_{{2{\text{peak}}}}) $$ relative to their whole-body maximal aerobic capacity $$ ( \dot{V} {\text{O}}_{2\max}) $$ would experience greater muscle training adaptations compared to those with a relatively high $$ \dot{V} {\text{O}}_{{2{\text{peak}}}} $$. 53 untrained young women completed one-leg cycling to measure $$ \dot{V} {\text{O}}_{{2{\text{peak}}}} $$ and two-leg cycling to measure $$ \dot{V} {\text{O}}_{2\max} $$. The one-leg $$ \dot{V} {\text{O}}_{{2{\text{peak}}}} $$ was expressed as a ratio of the two-leg $$ \dot{V} {\text{O}}_{2\max} $$ ( Ratio1:2). Magnetic resonance imaging was used to indicate quadriceps muscle volume. Measurements were taken before and after completion of 6 weeks of supervised endurance training. There was large inter-individual variability in the pre-training Ratio1:2 and large variability in the magnitude of training adaptations. The pre-training Ratio1:2 was not related to training-induced changes in $$ \dot{V} {\text{O}}_{2\max} $$ ( P = 0.441) but was inversely correlated with changes in one-leg $$ \dot{V} {\text{O}}_{{2{\text{peak}}}} $$ and muscle volume ( P < 0.05). No relationship was found between the training-induced changes in two-leg $$ \dot{V} {\text{O}}_{2\max} $$ and one-leg $$ \dot{V} {\text{O}}_{{2{\text{peak}}}} $$ ( r = 0.21; P = 0.129). It is concluded that the local leg-muscle aerobic capacity and Ratio1:2 vary from person to person and this influences the extent of muscle adaptations following standardised endurance training. These results help to explain why muscle adaptations vary between people and suggest that setting the training stimulus at a fixed percentage of $$ \dot{V} {\text{O}}_{2\max} $$ might not be a good way to standardise the training stimulus to the leg muscles of different people.
- Subjects
YOUNG women; ENDURANCE sports; CYCLING; MUSCLES; MAGNETIC resonance imaging
- Publication
European Journal of Applied Physiology, 2010, Vol 109, Issue 6, p1111
- ISSN
1439-6319
- Publication type
journal article
- DOI
10.1007/s00421-010-1454-2