Change in the peripheral CO₂ chemoreflex from rest to exercise

A single-breath CO₂ test of peripheral chemosensitivity has recently been described, and elaborated based on model simulations. This study was designed to measure the peripheral CO₂ chemoreflex at rest and during heavy exercise to see if carotid chemosensitivity to CO₂ increased. Ten healthy, adult males performed an incremental exercise test to determine their ventilatory anaerobic threshold (VAT), and 20 minutes of steady-state exercise at a pre-determined power output above VAT. Arterialized venous blood was obtained during each minute of incremental exercise to verify development of metabolic acidosis. Carotid chemosensitivity was tested repeatedly at rest and in steady-state exercise by the ventilatory response to a single breath of 13% CO₂ in air. The peripheral chemoreflex for CO₂ for the group of subjects doubled from rest to exercise (mean 0.0961 · s⁻¹ · kPa⁻¹) with all subjects showing an increase. We conclude that the gain of the carotid CO₂ chemoreflex increases from rest to exercise at work above the VAT.