To test the hypothesis that NOx (NO and NO, metabolites of NO) accumulates in red blood cells (RBC) in response to changes in PCO(2) and bicarbonate (HCO) concentration in blood, we examined the effect of changes in PCO(2) and HCO induced by hyperventilation in healthy adults on partitioning of NOx in whole blood. NOx in hemolysate was measured by a high-performance liquid chromatography-Griess system equipped with a C(18) reverse phase column to trap hemoglobin, which enables determination of whole blood NOx concentration and calculation of NOx concentration in RBC with high accuracy and reproducibility. NOx concentration in RBC was lower than that in plasma, and equilibrium between plasma and RBC was achieved rapidly after addition of NO. Changes in PCO(2) and HCO by hyperventilation failed to influence NOx concentrations in both plasma and RBC. Plasma NOx concentrations correlated with whole blood NOx and RBC NOx concentrations. Our results indicate that changes in PCO(2) or HCO induced by hyperventilation do not influence NOx compartmentalization in plasma and RBC.