Effect of Hypoxia and Carbon Monoxide on Muscle Oxygenation During Exercise

We used near-infrared spectroscopy (NIRS) to test the hypothesis that reducing oxygen availability during exercise would affect the rate of muscle oxyhemoglobin (O2Hb) desaturation when performing work above the lactic acidosis threshold (LAT), but not below it. Seven healthy men each performed two constant work intensities (60%LAT and the LAT plus 40% of the difference between the LAT and VO2max 40%delta) four times under the following conditions: (1) 10 min air; (2) 5 min 15%O2 + 5 min air; (3) 5 min air + 5 min 15%O2; (4) 5 min after carbon monoxide (CO) loading to increase the carboxyhemoglobin (COHb) saturation to 15%. During each test, cardiorespiratory parameters and muscle oxygenation measured with NIRS were continuously monitored. Forearm venous blood lactate was measured every 2 to 3 min. Hypoxia and CO accelerated muscle deoxygenation only for exercise above the LAT; for exercise below the LAT, neither progressive deoxygenation nor lactate accumulation occurred after initital, rapid muscle deoxygenation. The rate of decrease in muscle oxygenation between 3 to 5 min of exercise correlated with the increase in VO2 (r = 0.61, p < 0.01) and blood lactate (r = 0.70, p < 0.01) over the same period. These results support the hypothesis that progressive muscle deoxygenation occurs above the LAT and that the rate of deoxygenation is sensitive to oxygen delivery.