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We analyzed the changes in water content and electrolyte concentrations in the vascular space during graded exercise of short duration. Six male volunteers exercised on a cycle ergometer at 20 degrees C (relative humidity = 30%) as exercise intensity was increased stepwise until voluntary exhaustion. Blood samples were collected at exercise intensities of 29, 56, 70, and 95% of maximum aerobic power (VO2max). A curvilinear relationship between exercise intensity and Na+ concentration in plasma (Na+p) was observed. Na+p significantly increased at 70% VO2max and at 95% VO2max was approximately 8 meq/kgH2O higher than control. The change in lactate concentration in plasma (Lac-p) was closely correlated with the change in Na+p (deltaNa+p = 0.687 deltaLac-p + 1.79, r = 0.99). The change in Lac-p was also inversely correlated with the change in HCO3- concentration in plasma (deltaHCO3-p = -0.761 deltaLac-p + 0.22, r = -1.00). At an exercise intensity of 95% VO2max, 60% of the increase in plasma osmolality (Posmol) was accounted for by an increase in Na+p. These results suggest that lactic acid released into the vascular space from active skeletal muscles reacts with HCO3-p to produce CO2 gas and Lac-. The data raise the intriguing notion that increase in Na+p during exercise may be caused by elevated Lac-.
Nosé et al. (Sat,) studied this question.