Conventional perfusion scintigraphy assesses disparities in regional myocardial blood flow but does not directly detect hypoxic tissue. Nitroimidazoles labeled with positron-emitting radionuclides have recently shown promise as direct markers of myocardial hypoxia. This study evaluates a new 99mTc-labeled nitroimidazole of potential benefit in standard myocardial scintigraphy.

Technetium-99m-labeled nitroimidazole was administered to rabbits during the early reperfusion phase after 10 min (Group 1) or 60 (Group 2) min of coronary occlusion or after 10 min of a fixed coronary occlusion (Group 3). Tracer retention at 1 hr was assessed in relation to microsphere-determined blood flow during coronary occlusion and at tracer injection. The pattern of nitroimidazole retention on autoradiographs was then compared with the pattern of myocardial hypoperfusion defined by fluorescein photography to precisely define tracer localization.

The retention of nitroimidazole in Group 1 rabbits (brief occlusion) was independent of both occlusion and reperfusion blood flow and was uniformly distributed on the autoradiographs. In contrast, nitroimidazole retention in Groups 2 and 3 increased with the severity of hypoperfusion during the occlusion phase and precisely delineated the ischemic zone on all autoradiographs.

This 99mTc-labeled hypoxia-avid tracer delineates severe ischemia even after blood flow to the compromised myocardium has been restored. This class of compounds can potentially enhance the physiological assessment of patients with ischemic heart disease.