Delineation of viable ischemic myocardium is an important problem in nuclear cardiology. To determine the feasibility of using a technetium-labeled nitroimidazole as an indicator of ischemic myocardium at risk of infarction, we characterized the distribution of a 2-nitroimidazole-derivatized PnAO ligand and its 99mTc complex, 99mTcO(PnAO)-1-CH2-(2NI) (BMS-181321) in the ischemic territory of the left anterior descending (LAD) coronary artery of the rabbit. In preliminary experiments, the performance of 14C-deoxyglucose (14C-2DG) and 14C-misonidazole was assessed relative to apparent regional relative myocardial blood flow (rMBF) indicated by 99mTc-teboroxime using double-label autoradiography in the rabbit LAD occlusion model. After demonstrating that 14C-2DG and 14C-misonidazole are selectively retained in the lateral border of the ischemic territory, BMS-181321 was co-injected intravenously, with either 14C-2DG or 14C-misonidazole, 20 min after LAD occlusion. In a separate experiment, 99mTcO(PnAO)-6-CH3, a complex with the same lipophilicity (log k' 0.26 vs. 0.31) as BMS-181321 but which lacks the 2NI moiety, was co-injected with 14C-2DG. After 30 min, the rabbits were sacrificed and 14C/99mTc autoradiograms were obtained from the same tissue sections. The autoradiograms revealed that BMS-181321 was retained with the same microregional distribution as both 14C-2DG and 14C-misonidazole in the border zone of the ischemic LAD territory. The selective retention of BMS-181321 depends on the presence of the nitroimidazole group, since 99mTcO(PnAO)-6-CH3 has a uniformly low myocardial distribution in contrast to the enhanced uptake of co-injected 14C-2DG. These data demonstrate that BMS-181321 is selectively retained in hypoxic myocardium and demarcates the ischemic border zone in a manner similar to 14C-2DG and 14C-misonidazole.