Modulation of Myocardial Metabolism by 3-Ketoacyl Coenzyme a Thiolase Inhibition and Other Agents in Heart Failure Treatment
Journal: Austin Journal of Clinical Cardiology (Vol.1, No. 5)Publication Date: 2014-10-20
Authors : Loiacono F; Margonato A; Fragasso G;
Page : 1-11
Keywords : Heart failure; Metabolic therapy; Trimetazidine; Free fatty acids inhibitors; Carnitine palmitoyl transferase I; Left ventricular function; Myocardial metabolism;
Abstract
All cardiac syndromes may induce alterations of cardiac metabolism. Heart failure may itself promote metabolic changes such as insulin resistance, in part through neurohumoral activation, and determining an increased utilization of non-carbohydrate substrates for energy production. In fact, fasting blood ketone bodies as well as fat oxidation have been shown to be increased in patients with heart failure. The result is depletion of myocardial ATP, phosphocreatine and creatine kinase with decreased efficiency of mechanical work. A direct approach to manipulate cardiac energy metabolism consists in modifying substrate utilization by the failing heart. To date, the most effective metabolic treatments include several pharmacological agents, such as trimetazidine and perhexiline that directly inhibit fatty acid oxidation. These agents have been originally adopted to increase the ischemic threshold in patients with effort angina. However, the results of current research is supporting the concept that shifting the energy substrate preference away from fatty acid metabolism and toward glucose metabolism could be an effective adjunctive treatment in patients with heart failure, in terms of left ventricular function and glucose metabolism improvement. In fact, these agents have also been shown to improve overall glucose metabolism in diabetic patients with left ventricular dysfunction. Moreover, recent meta-analysis and a multicenter retrospective study have shown that additional use of trimetazidine in patients with heart failure, along with symptoms and cardiac function improvement also provides a significant protective effect on all-cause mortality, cardiovascular events and hospitalization due to cardiac causes. Nevertheless, the exact role of metabolic therapy in heart failure is yet to be established, and a large multicenter randomized trial is necessary.
In this paper, the recent literature on the beneficial therapeutic effects of modulation of cardiac metabolic substrates utilization in patients with heart failure is reviewed and discussed.
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