Each subject rode his own racing bi

Each subject rode his own racing bicycle on a computerized cycle training system (Computrainer, Seattle, WA) at a consistent self-selected cadence (range 80–110 rpm). After a 5 min warm-up, the cycle trainer was calibrated and verified. The initial power output (range 150–175 W) was selected to allow between 4 and 6 stages before the onset of the LT. Power output was increased by 25 W every 2 min until the ventilatory threshold, identified by a systematic increase in both the VE/VO2 and VE/VCO2 ratios (Wasserman, 1987), was clearly surpassed. Thereafter, power output increased by 25 W each minute until exhaustion. A 1 ml sample of blood was drawn after each 2 min stage (during the first 30 s of the following stage) from an indwelling catheter previously inserted into a forearm vein to measure lactate concentration. Respiratory gas exchange data were collected continuously using a non-rebreathing valve (Hans-Rudolph, 2700, Kansas City, MO) and a metabolic measurement system (ParvoMedics, Truemax, Salt Lake City, UT) while heart rate was recorded using a telemetry system (Polar, Kempele, Finland).

An aliquot of venous blood was stored in preservative tubes (Yellow Springs Instruments, 2315, Yellow Springs, OH) and frozen until analysis could be performed in duplicate (Yellow Springs Instruments, 2300 Analyzer, Yellow Springs, OH). Blood lactate concentration (mM) was plotted against power output (W) and the change in lactate concentration with each 25 W increment in power output was calculated. The LT was identified as the workload before a change ≥ 1.0 mM in lactate concentration was observed following a 25 W increment (Thoden, 1991). This criterion was robust for all subjects.