Abstract

We compared physiological responses to incremental, interval, and continuous counterweighted single-leg and double-leg cycling at the same relative intensities. The primary hypothesis was that the counterweight method would elicit greater normalized power (i.e., power/active leg), greater electromyography (EMG) responses, and lower cardiorespiratory demand. Graded-exercise tests performed by 12 men (age: 21±2years; BMI: 24±3kg/m2) initially established that peak oxygen uptake ([Formula: see text]; 76±8.4%), expired ventilation ([Formula: see text]; 71±6.8%), carbon dioxide production ([Formula: see text]; 71±6.8%), heart rate (HRpeak; 91±5.3%), and power output (PPO; 56±3.6%) were lower during single-leg compared to double-leg cycling (main effect of mode; p<0.05). On separate days, participants performed four experimental trials, which involved 30-min bouts of either continuous (50% PPO) or interval exercise [4×(5-min 65% PPO+2.5min 20% PPO)] in a single- or double-leg manner. Double-leg interval and continuous cycling were performed at greater absolute power outputs but lower normalized power outputs compared to single-leg cycling (p<0.001). The average EMG responses from the vastus lateralis and vastus medialis were similar across modes (p>0.05), but semitendinosus was activated to a greater extent for single-leg cycling (p=0.005). Single-leg interval and continuous cycling elicited lower mean [Formula: see text], [Formula: see text], [Formula: see text], HR and ratings of perceived exertion compared to double-leg cycling (p<0.05). Counterweighted single-leg cycling elicits lower cardiorespiratory and perceptual responses than double-leg cycling at greater normalized power outputs.

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