To assess the in vivo behavior of cytotoxic agents linked to antibodies, deferoxamine, known to form stable chelates with 67Ga, was conjugated with monoclonal antibodies using three different methods. One method used a homocoupling reagent, glutaraldehyde, whereas two other methods used heterocoupling reagents, N-succinimidyl-3-(2-pyridyldithio)propionate and succinimidyl-6-maleimidohexanoate, linking deferoxamine to antibodies through alkylamine, disulfide, and thioether bonds, respectively. Antibodies were efficiently labeled with 67Ga through chelation with deferoxamine without losing antigen-binding capability. 67Ga-labeled antibodies clearly visualized transplanted tumors in nude mice. However, the biodistribution of radioactivity was markedly different with the coupling methods used for the conjugation of deferoxamine and antibodies. High nonspecific uptake in the liver and spleen was observed with 67Ga-labeled antibodies prepared by the glutaraldehyde method. 67Ga-labeled antibodies linked by thioether bonds demonstrated in vivo stability and the highest tumor:liver ratio, whereas 67Ga-labeled antibodies conjugated with disulfide bonds were rapidly cleared from the circulation. These results indicate that antibody conjugates linked by thioether bonds are a better choice for drug targeting and that 67Ga-labeled antitumor monoclonal antibodies are useful not only for the immunoscintigraphy but also for the quantitative assessment and visualization of the biodistribution of drug-antibody conjugates.