The validity of isokinetic knee extensor endurance measurements with reference to
treadmill running capacities was investigated. Nine male elite middle-distance runners
completed a test consisting of 100 repetitive maximal eccentric and 100 concentric
knee extensor actions where peak torque (Nm) and work (J) were measured. On a different
day, submaximal and maximal treadmill tests were performed. Stepwise regression analysis
was applied to determine the isokinetic variables with the greatest influence on the
selected treadmill running capacities, including submaximal oxygen uptake (VO2) and maximal blood lactate. Eccentric total work was significantly and negatively
related to submaximal VO2 at all three running velocities investigated (12, 14, and 15 km h-1). The R2 values ranged from 0.48-0.59 for VO2 ml kg-075 min-1, indicating that 48 - 59 % of the variability in VO2 ml kg-0,75 · min-1 could be accounted for by eccentric total work. The corresponding R2 values for VO in ml kg-1 · min-1 were 0.50-0.58. Concentric relative endurance was significantly and negatively related
to maximal blood lactate (R2 = 0.73). This study has shown that isokinetic knee extensor
endurance measurements of eccentric total work and concentric relative endurance are
substantially related to measures of treadmill running capacity, as expressed by submaximal
VO2 and maximal blood lactate. It is suggested that these isokinetic measures may be
used to evaluate specified running capacities in male elite middle-distance runners.
Keywords
Concentric - eccentric - isokinetic - methods - muscle contraction - physical endurance
- validity of results
