Objective: The sodium/calcium exchanger (NCX) and the L-type Ca2+-channel (LTCC) are nowadays considered the major transmembrane transport mechanisms that control Ca2+ homeostasis. In pathophysiological conditions the altered function of these currents may influence the Ca2+ homeostasis and cardiac contractility and thereby, may enhance the development of severe tachyarrhythmias. The blockade of NCX current has been proposed as possible approach in the prevention and/or suppression of arrhythmias; however, this mechanism is not always favourable because the inhibition of both modes of NCX may induce Ca2+-overload. The decrease of the Ca2+ level by partial LTCC inhibition may be beneficial in increasing the antiarrhythmic efficacy. Therefore, the aim of our study was to investigate the antiarrhythmic effects of combined NCX and LTCC blockade in the ex vivo guinea pig arrhythmia model. Methods: We have performed Langendorff experiments in isolated guinea pig hearts. We have recorded electrocardiograms (ECG) and left ventricle pressure. We have applied 1 μM ORM 10962 (ORM), a compound that block NCX current and 30 nM nisoldipine for the inhibition of LTCC. Arrhythmias have been provoked by decreasing the activity of the sodium/potassium pump with 5 μM ouabain. Results: We found that neither LTCC nor NCX blockade alone increased, while the combined inhibition of the two currents significantly delayed (p