We present a convenient method for determining "free" or non-protein-bound iron in biological fluids. The new method is based on the bathophenantroline method for determination of total serum iron, and comprises binding of iron by a chromogenic chelator (bathophenantroline-disulphonate, BPS), which is specific for ferrous iron. The ferrous complex of BPS absorbs strongly at 535 nm, and the detection limit is less than 1 microM in a sample size of 50 microliters. The chelator does not liberate iron from either haemoglobin or transferrin. Interference from copper or zinc in concentrations up to 50 microM does not significantly disturb measurements. The main problem when measuring in blood plasma, the high and fluctuating background in the region around 535 nm, has been overcome through filtering techniques. Data from measurements of ferrous iron in microdialysate, cerebrospinal fluid, and blood plasma in different animal models and clinical conditions are presented as illustrative examples of the usefulness of the method. The method allows the determination of ferric, as well as ferrous, iron in the same sample.