Dynamic myocardial scintigraphy with 123I-labeled free fatty acids in patients with myocardial infarction

Abstract

We have already shown that myocardial imaging properties of radio-iodinated long-chain free fatty acids (¹²³I-FFA) and thallium 201 (²⁰¹Tl) are comparable in detecting areas of inadequate myocardial perfusion (van der Wall et al. 1980). Besides confirming our earlier observations, the present study tests the potential of ¹²³I-FFA, hexadecenoic acid (¹²³I-16-HA), and heptadecanoic acid (¹²³I-17-H^oA), in assessing regional myocardial metabolism in 30 patients within a week of proven myocardial infarction. The clearance rates (t_1/2) of FFA were estimated from mono-exponential time-activity curves, obtained by external detection over infarcted and normally perfused areas during a 30-min period after IV administration of 3–5 mCi ¹²³I-16-HA or ¹²³I-17-H^oA. Six normal subjects served as controls. The t_1/2 values in the infarcted areas were found to be significantly lower (18.5±2.5 min; mean±SD, with ¹²³I-16-HA and 16.8±3.5 min with ¹²³I-17-H^oA) than in noninfarcted areas (34.0±8.4 min with ¹²³I-16-HA and 34.8±7.7 with ¹²³I-17-H^oA). The t_1/2 values in the control group (27.5±3.0 min with ¹²³I-17-H^oA) were not significantly different from values found in noninfarcted areas in the patient group. Our findings of faster FFA turn-over rates in infarcted tissue are in contrast to previous studies, which have shown prolonged turn-over rates in reversibly ischaemic myocardium. We coclude that the study of turn-over rates of FFA provides a means to distinguish normally perfused, reversibly ischaemic and irreversibly ischaemic myocardium.