Measuring the antioxidant capacity of blood plasma using potentiometry

The use of potentiometry to measure plasma antioxidant capacity to contribute to oxidative stress evaluation is presented. In this assay, plasma (n = 60) diluted (0.3 to 1 ml) in phosphate buffer, pH 7.4, NaCl 9%, was submitted to potentiometry. A platinum wire was the working electrode and saturated calomel the reference. The results are presented as the difference between sample and buffer potential (ΔE). ΔE presented a good inverse correlation with added increasing concentrations of ascorbate (2.5−75 μmol/L; R = −0.99), urate (9.0−150 μmol/L; R = −0.99), and bilirubin (0.78−13 μmol/L; R = −0.99). Increase in the antioxidant capacity decreased ΔE. Depletion of the antioxidant capacity by tert-butylhydroperoxide (6.5−50 μmol/L) presented a direct correlation (0.97) with ΔE. Furthermore, ΔE presented an inverse correlation (R = −0.99) with increased antioxidant capacity of plasma (FRAP) induced by the addition of ascorbate (2.5−75 μmol/L). The response of the potentiometric method proved be adequate for measuring the plasma antioxidant depletion induced by acute exhaustive exercise in rats (control, n = 15; exercised, n = 15). This exercise decreased the concentration of urate (p < 0.05), decreased FRAP (p < 0.5), increased TBARS (p < 0.5), and decreased the potentiometer sensor response (p = 6.5 × 10−3). These results demonstrate the adequacy of potentiometry for evaluating the antioxidant capacity of blood plasma samples.