Influence of the interleukin-converting enzyme inhibitor HMR-3480 on myocardial stunning in pigs in vivo

BACKGROUND: The proinflammatory cytokine interleukin-1 beta is converted into its active form by interleukin-1 beta-converting enzyme (ICE). Circulating cytokines may promote myocardial dysfunction (stunning) after ischemia. OBJECTIVE: To investigate whether ICE inhibition by HMR-3840 improves myocardial stunning in vivo. METHODS: Anesthetized (isoflurane and fentanyl) pigs were used for measurement of left ventricular (LV) pressure, cardiac output and blood flow in the left anterior descending coronary artery (LAD) and left circumflex coronary artery. Regional myocardial function was assessed by sonomicrometry as systolic wall thickening and mean systolic thickening velocity in the anteroapical and posterobasal walls. The animals were subjected to 10 min of LAD occlusion followed by 4 h of reperfusion. The ICE inhibitor (flow-adjusted to achieve coronary plasma concentrations of 10 mug/mL) (ISCH, n=7) or the vehicle (CON, n=7) was infused via a side branch into the LAD during ischemia, or during ischemia and the first 60 min of reperfusion (REP, n=6). RESULTS: Occlusion of the LAD resulted in systolic outward movement (bulging) of the anteroapical wall during ischemia in all groups. Infusion of the ICE inhibitor had no effect on functional recovery when given during ischemia or when given during reperfusion (at the end of reperfusion in the anteroapical wall, values for systolic wall thickening were: CON 17.3+/-7.3%, ISCH 23.2+/-9.8% and REP 19.3+/-6.1%; and values for mean systolic thickening velocity were: CON 4.3+/-1.1 mm/s, ISCH 6.1+/-3.9 mm/s and REP 5.2+/-1.7 mm/s; all P values not significant for CON versus ISCH or REP). LAD blood flow was not affected by HMR-3840 (23.4+/-5.2 mL/min versus 24.3+/-8.1 mL/min; P not significant). Global myocardial function (LV pressure, maximum rate of LV pressure increase and cardiac output) was not different between controls and treatment groups during reperfusion. CONCLUSION: ICE inhibition by HMR-3480 had no effect on myocardial stunning in pigs in viv

Effect of acute hyperglycaemia and diabetes mellitus with and without short-term insulin treatment on myocardial ischaemic late preconditioning in the rabbit heart in vivo

Diabetes mellitus (DM) and the resulting hyperglycaemia may interfere with the cardioprotective effect of ischaemic late preconditioning (LPC). Therefore, we investigated the effect of acute hyperglycaemia (part 1) and the effect of alloxan-induced DM with or without short-term insulin treatment (part 2) on LPC. Rabbits, chronically instrumented with a coronary artery occluder, were subjected to 30 min coronary artery occlusion and 2 h reperfusion (I/R) and infarct size (IS) was assessed. In part 1, four groups were studied. Controls were not treated further. LPC induced by a 5-min period of myocardial ischaemia 24 h before I/R reduced IS from 42+/-14 (controls) to 22+/-8% of the area at risk. Hyperglycaemia (600 mg dl(-1) by dextrose infusion, H(600)) before and during the 30 min ischaemia tended to increase IS (57+/-16%, P=0.14 vs. controls) and blocked cardioprotection by LPC (H(600)+LPC, 59+/-19%, P=1.0 vs. H(600), P=0.0003 vs. LPC). In part 2, LPC reduced infarct size from 43+/-13% (control) to 23+/-10% ( P=0.003). In diabetic animals, IS was 39+/-11%, and cardioprotection by LPC could not be elicited (DM+LPC, 41+/-16%, P=0.02 vs. LPC). Short-term insulin treatment (I, 90 min before I/R, blood glucose <150 mg dl(-1)) did not restore the cardioprotective effects of LPC (DM+I, 42+/-15%; DM+LPC+I, 40+/-10%, P=0.03 vs. LPC). It is concluded that acute hyperglycaemia and DM block the cardioprotection induced by LPC in rabbits and that the cardioprotection is not restored by short-term insulin treatmen