In the latter 1970s, largely due to the development of echocardiography and the ready availability of invasive contrast ventriculography, clinicians noted that distinct and serial changes occurred in the heart after infarction where cardiac enlargement could progress long after completion of scarring in the infarct region. Similar changes have also been observed in the non-infarcted or non-ischemic myocardial regions commencing within days of infarction. This process, which involves both viable and infarcted heart muscle, has been termed `post- infarction cardiac remodeling.' A major obstacle to further comprehension of post-infarction cardiac remodeling in man has been related to limitations in applications of conventional cardiac imaging methods and conventional cardiac image processing. Electron beam computed tomography (EBCT) has emerged recently as an alternative means to image the heart and has been extensively validated for studies of ventricular volumes, function, muscle mass, shape, characterization of regional mechanics, and affords 3-D image registration. A research investigation was designed which involved a total of 55 patients entered prospectively following an index myocardial infarction. Each was imaged using EBCT at hospital discharge, six-weeks, six-months and one-year after the event.