This study was undertaken to assess the effect of ethanol ingestion on myocardial fatty acid metabolism in man. Nine individuals with informed consent and with a habitual ethanol consumption of approximately 40 g per day, but without any clinical signs of heart and metabolic disease, were examined after i.v. injection of omega-123I-heptadecanoic acid (IHA). Eight days later, these individuals were similarly examined after 2 h of continuous ingestion of a body weight dependent amount of ethanol, which was calculated to produce a blood level of 100 mg per 100 ml (1%). Then the subjects had been asked to reduce their ethanol consumption rigorously for 15 months. Subsequently after 2 weeks of abstinence a follow-up investigation without ethanol loading was carried out. The investigations were performed with an Anger scintillation camera in LAO-45 degrees projection. The measurement period was 40 min. Tracer accumulation and regional elimination half-times of IHA were analysed. In all patients, acute ethanol loading produced significant changes in pattern of accumulation and/or regional elimination half-times. Ethanol-induced alterations in segmental accumulation did not appear to be predictably correlated with changes in segmental elimination half-times. After rigorous reduction of ethanol consumption followed by 2 weeks of abstinence a normalization of the tracer uptake was observed; the distribution pattern was almost homogeneous. Also the regional elimination half-times became normal. The data demonstrate the significant effects of both chronic ethanol consumption and particularly acute ethanol loading on myocardial fatty acid metabolism and the reversibility of the effects.
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