Since there are several problems with desferrioxamine (DFO) therapy, pyridoxal isonicotinoyl hydrazone (PIH) has been studied for more than 10 years as a promising new candidate for iron chelation therapy in iron-overload diseases. Iron chelation could also be helpful for experimental treatment of several other pathologies including rheumatoid arthritis and heart ischemia/reperfusion, due to the generation of oxyradicals and lipid peroxidation mediated by delocalized iron. We demonstrate here that sub-millimolar levels of PIH can inhibit the Fe(III)-EDTA/ascorbate-mediated formation of hydroxyl-like radicals as tested by the release of ethylene from 2-keto-4-methylthiobutyric acid (KMB assay) and the formation of malonaldehyde from 2-deoxyribose damage. PIH could also decrease the rates of Fe(III)-EDTA-mediated oxidation of ascorbate and block the peroxidation of liposomes of rat brain phospholipids induced by ferrous iron-EDTA. In all cases the in vitro antioxidant effectiveness of PIH was comparable to its analogs-including salicylaldehyde isonicotinoyl hydrazone-and to DFO. We conclude that PIH and its analogs are effective new candidates against iron-mediated oxidative stress for use in experimental medicine.