Relationships between running economy (RE; submaximal VO2 for a given running speed) and the temporal EMC characteristics of bi-articular leg
muscles were quantified in a group of well-trained runners. Nine subjects completed
three test sessions: a determination of maximal aerobic demand (VO2max); an accommodation session at the experimental speed of 4.13 m · s-1; and a session during which EMC and RE data were collected simultaneously at the
experimental speed of 4.13 m · s-1 Measures of muscle onset, on-time durations, and on-time coactivation durations were
calculated from the following muscles: rectus femoris, medial hamstrings, lateral
hamstrings, and gastrocnemius. Nonparametric correlations between RE and EMC characteristics
displayed both positive and negative relationships and exhibited a wide range of values.
Two EMC measures were significantly correlated (r>0.67) with RE. Earlier onset of
rectus femoris during swing phase and a shorter duration of hamstring - gastrocnemius
reactivation during swing were associated with more economical runners. Although not
statistically significant, correlation coefficients calculated for measures of coactivation
during stance and RE ranged from -0.42 to -0.65. This trend indicates that individuals
who exhibited a greater amount of coactivation between bi-articular muscles during
the stance phase of the running cycle tended to be more economical. These relationships
suggest different activation patterns in bi-articular muscles between economical and
uneconomical runners.
Key words
Aerobic demand - biomechanics - electromyography - muscle activity
