Published in:
01-07-2010 | Original Article
Effect of isokinetic cycling versus weight training on maximal power output and endurance performance in cycling
Authors:
Erwin Koninckx, Marc Van Leemputte, Peter Hespel
Published in:
European Journal of Applied Physiology
|
Issue 4/2010
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Abstract
The aim of this study was to compare the effects of a weight training program for the leg extensors with isokinetic cycling training (80 rpm) on maximal power output and endurance performance. Both strength training interventions were incorporated twice a week in a similar endurance training program of 12 weeks. Eighteen trained male cyclists (VO2peak 60 ± 1 ml kg−1 min−1) were grouped into the weight training (WT n = 9) or the isokinetic training group (IT n = 9) matched for training background and sprint power (P
max), assessed from five maximal sprints (5 s) on an isokinetic bicycle ergometer at cadences between 40 and 120 rpm. Crank torque was measured (1 kHz) to determine the torque distribution during pedaling. Endurance performance was evaluated by measuring power, heart rate and lactate during a graded exercise test to exhaustion and a 30-min performance test. All tests were performed on subjects’ individual race bicycle. Knee extension torque was evaluated isometrically at 115° knee angle and dynamically at 200° s−1 using an isokinetic dynamometer. P
max at 40 rpm increased in both the groups (~15%; P < 0.05). At 120 rpm, no improvement of P
max was found in the IT training group, which was possibly related to an observed change in crank torque at high cadences (P < 0.05). Both groups improved their power output in the 30-min performance test (P < 0.05). Isometric knee extension torque increased only in WT (P < 0.05). In conclusion, at low cadences, P
max improved in both training groups. However, in the IT training group, a disturbed pedaling technique compromises an improvement of P
max at high cadences.