During cold storage of donor hearts, reactive oxygen species produced by intracellular redox-active chelatable iron potentially alter myocardial function. To reduce this cold-induced injury we investigated the efficacy of two new modifications of the well established histidine-tryptophan-ketogluterate (HTK) solution (Custodiol) with the addition of N-alpha-acetyl-l-histidine and iron-chelators in a heterotopic rat heart transplantation model. The donor hearts were cardioplegically arrested with 20 ml cardioplegia and stored for 1 h. Then the hearts were anastomosed to the abdominal aorta and vena cava of the recipient (n=30). After 1 h reperfusion, myocardial function and energy charge potential were measured in three groups: HTK-1: addition of l-arginine and N-alpha-acetyl-l-histidine; HTK-2: addition of iron-chelators deferoxamine and LK-614; traditional HTK - control. After 1 h reperfusion, left ventricular systolic pressure (106+/-33 vs. 60+/-39, vs. 67+/-8 mmHg, P<0.05) and dP/dt minimal (-1388+/-627 vs. -660+/-446, vs. 871+/-188 mmHg/s, P<0.05) were significantly higher in the HTK-1 group. Energy charge potentials were not significantly different. This study showed that the novel modified HTK-1 solution improves myocardial contractility and relaxation after heart transplantation. Nevertheless, addition of the iron-chelators deferoxamine and LK-614 diminished these beneficial effects.