Ascorbic acid is considered to be the most important antioxidant of plasma. Its oxidation leads to the ascorbyl free radical (AFR), detected by electron paramagnetic resonance (EPR) spectroscopy. The purpose of this study was to investigate by EPR the interaction of plasma AFR levels in different situations of oxidative stress. Our results showed that plasma AFR remains constant after rat feeding with vitamin C (5 mg or 50 mg per 100 g body weight). We also demonstrated that: (1) the ascorbyl free radical (AFR) level was increased after direct addition of iron Fe3+/EDTA to plasma, the optimal level was reached after addition of 8 microM Fe3+/EDTA (1:2); (2) this AFR production was associated with the formation of hydroxyl radicals. Iron chelators (deferrioxamine, a synthetic iron chelator and apotransferrine, a biological iron chelator) added just before the Fe3+/EDTA complex inhibited the increase of AFR signal induced by this complex. The scavenging effect of plasma was significantly correlated with the AFR production. Therefore, AFR, which is naturally present in plasma, could be used as an index of oxidative stress in which free radicals or adverse iron mobilisation are implicated.