BACKGROUND: Pimobendan is a so-called calcium sensitizer that exerts a positive inotropic action. EGIS 9377 is synthesized as a calcium sensitizer. OG-VI is a nucleoside-nucleotide mixture that ameliorates the myocardial dysfunction (myocardial stunning) after ischemia. OBJECTIVE: To determine whether administration of these agents after the onset of reperfusion after ischemia improves the condition of stunned myocardium. METHODS: Dogs anesthetized with pentobarbital were subjected to 20 min ligation of left anterior descending coronary artery and then 60 min reperfusion. The corresponding vehicle, 0.3 and 1 mg/kg pimobendan, or 1 and 3 mg/kg EGIS 9377 was injected intravenously 30 min after the onset of reperfusion. Saline solution or 1.2 mumol/kg per min OG-VI was infused for 30 min, starting 30 min after the reperfusion. Shortening of myocardial segment was measured by sonomicrometry. The tissue levels of energy and carbohydrate metabolites in the 60 min-reperfused hearts were determined. RESULTS: Shortening of myocardial segments significantly decreased during ischemia, and returned toward preischemic level after reperfusion for all groups, although the contractile dysfunction still remained. Injections and infusion of pimobendan, EGIS 9377, and OG-VI after the onset of reperfusion ameliorated the contractile dysfunction. Systemic vascular resistance was decreased by administrations of pimobendan and OG-VI. The levels of high-energy phosphates in 60 min-reperfused heart were not changed by either treatment. CONCLUSION: Administration of pimobendan, EGIS 9377, and OG-VI ameliorate the myocardial contractile dysfunction after ischemia even when these agents are administered after the onset of reperfusion. The increase in contractile function due to these agents did not worsen the myocardial energy balance.
BACKGROUND: Pimobendan is a so-called calcium sensitizer that exerts a positive inotropic action. EGIS 9377 is synthesized as a calcium sensitizer. OG-VI is a nucleoside-nucleotide mixture that ameliorates the myocardial dysfunction (myocardial stunning) after ischemia. OBJECTIVE: To determine whether administration of these agents after the onset of reperfusion after ischemia improves the condition of stunned myocardium. METHODS:Dogs anesthetized with pentobarbital were subjected to 20 min ligation of left anterior descending coronary artery and then 60 min reperfusion. The corresponding vehicle, 0.3 and 1 mg/kg pimobendan, or 1 and 3 mg/kg EGIS 9377 was injected intravenously 30 min after the onset of reperfusion. Saline solution or 1.2 mumol/kg per min OG-VI was infused for 30 min, starting 30 min after the reperfusion. Shortening of myocardial segment was measured by sonomicrometry. The tissue levels of energy and carbohydrate metabolites in the 60 min-reperfused hearts were determined. RESULTS: Shortening of myocardial segments significantly decreased during ischemia, and returned toward preischemic level after reperfusion for all groups, although the contractile dysfunction still remained. Injections and infusion of pimobendan, EGIS 9377, and OG-VI after the onset of reperfusion ameliorated the contractile dysfunction. Systemic vascular resistance was decreased by administrations of pimobendan and OG-VI. The levels of high-energy phosphates in 60 min-reperfused heart were not changed by either treatment. CONCLUSION: Administration of pimobendan, EGIS 9377, and OG-VI ameliorate the myocardial contractile dysfunction after ischemia even when these agents are administered after the onset of reperfusion. The increase in contractile function due to these agents did not worsen the myocardial energy balance.