Frontiers in Physiology (Apr 2014)
Breakpoints in Ventilation, Cerebral and Muscle Oxygenation, and Muscle Activity During an Incremental Cycling Exercise
Abstract
The aim of this study was to locate the breakpoints of cerebral and muscle oxygenation and muscle electrical activity during a ramp exercise in reference to the first and second ventilatory thresholds. Twenty-five cyclists completed a maximal ramp test on an electromagnetically braked cycle-ergometer with a rate of increment of 25W/min. Expired gazes (breath-by-breath), prefrontal cortex and vastus lateralis (VL) oxygenation (Near-infrared spectroscopy) together with electromyographic Root Mean Square activity for the VL, rectus femoris (RF) and biceps femoris (BF) muscles were continuously assessed. There was a non-linear increase in both cerebral deoxyhemoglobin (at 56±13% of the exercise) and oxyhemoglobin (56±8% of exercise) concomitantly to the first ventilatory threshold (57±6% of exercise, p>0.86, Cohen’s d0.8). We identified one threshold only for muscle parameters with a non-linear decrease in muscle oxyhemoglobin (78±9% of exercise), attenuation in muscle deoxyhemoglobin (80±8% of exercise), and increase in electromyographic activity of VL (89±5 % of exercise), RF (82±14 % of exercise) and BF (85±9 % of exercise). While the thresholds in muscle oxygenation and RF electromyographic activity were contemporary to V-T2 (d0.6). Our results suggest that the metabolic and ventilatory events characterizing this latter cardiopulmonary threshold may affect both cerebral and muscle oxygenation levels, and in turn, muscle recruitment responses.
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