The design, synthesis, and biological evaluation of nitrido technetium-99m complexes for imaging benzodiazepine receptors are described. The design was performed by selecting the precursor biologically active substrate desmethyldiazepam, and the reactive metal-containing fragment [(99m)Tc(N)(PXP)](2+) (PXP = diphosphine ligand) as molecular building-blocks for assembling the structure of the final radiopharmaceuticals through the application of the so-called 'bifunctional' and 'integrated' approaches. This required the synthesis of the ligands H(2)BZ1, H(2)C1, and H(2)C2 (Figures 1 and 2) derived from desmethyldiazepam. In turn, these ligands were reacted with [(99m)Tc(N)(PXP)](2+) to afford the complexes [(99m)Tc(N)(PXP)(L)] (L = BZ1, C1, C2). The chemical nature of the resulting Tc-99m radiopharmaceuticals was investigated using chromatographic methods, and by comparison with the analogous complexes prepared with the long-lived isotope Tc-99g and characterized by spectroscopic and analytical methods. Results showed that the complexes [(99m)Tc(N)(PXP)(L)] are neutral and possess an asymmetrical five-coordinated structure in which two different bidentate ligands, PXP and L, are coordinated to the same Tc[triple bond]N core. With the ligand H(2)BZ1, two isomers were obtained depending on the syn or anti orientation of the pendant benzodiazepine group relative to the Tc[triple bond]N multiple bond. Biodistribution studies of Tc-99m complexes were carried out in rats, and affinity for benzodiazepine receptors was assessed through in vitro binding experiments on isolated rat's cerebral membranes using the corresponding Tc-99g complexes.