The stability of complexes formed by Cd2+ in hemolyzed human erythrocytes was studied by spin-echo 1H NMR spectroscopy. Changes in resonances for the carbon-bonded protons of glutathione (GSH) upon addition of the ethylenediaminetetraacetic acid complex of Cd2+ (Cd(EDTA)2-) and the appearance of resonances for Mg(EDTA)2- indicate that the Cd(EDTA)2- complex dissociates in hemolyzed erythrocytes with the formation of Cd(GSH)x and Mg(EDTA)2- complexes. A semiquantitative estimate of the overall stability constant for the complexation of Cd2+ in hemolyzed erythrocytes was obtained from spin-echo 1H NMR data. The stability constant is consistent with the majority of the Cd2+ in erythrocytes present as Cd(SG)2(2-). A conditional equilibrium constant was also determined for the complexation of Mg2+ by ligands in hemolyzed human erythrocytes.